Refine
Has Fulltext
- yes (507)
Year of publication
Document Type
- Journal article (341)
- Doctoral Thesis (163)
- Report (2)
- Book (1)
Keywords
- ischemic stroke (27)
- multiple sclerosis (22)
- Parkinson’s disease (18)
- deep brain stimulation (18)
- neuroinflammation (18)
- Multiple Sklerose (17)
- Fabry disease (16)
- Parkinson's disease (16)
- Schlaganfall (16)
- neuropathic pain (15)
Institute
- Neurologische Klinik und Poliklinik (507) (remove)
Schriftenreihe
Sonstige beteiligte Institutionen
- Datenintegrationszentrum Würzburg (DIZ) (1)
- Institut für Musikphysiologie und Musiker-Medizin der Hochschule für Musik, Theater und Medien, Hannover (1)
- Interdisziplinäre Biomaterial- und Datenbank Würzburg (ibdw) (1)
- Interdisziplinäres Amyloidosezentrum Nordbayern (1)
- KfH Nierenzentrum (1)
- Klinische Studienzentrale (Universitätsklinikum) (1)
- Politecnico di Milano (1)
- Sahin Lab, F.M. Kirby Neurobiology Center Boston Children’s Hospital, Department of Neurology, Harvard Medical School (1)
- Wurzburg Fabry Center for Interdisciplinary Therapy (FAZIT), Wurzburg, Germany (1)
- Würzburg Fabry Center for Interdisciplinary Therapy (FAZIT), University of Würzburg, Würzburg, Germany (1)
The bidirectional influence of parenchymal cells and cells of the immune system, especially of antigen-presenting and CD8\(^+\) T cells, in situations of putative auto- immune pathogenicity and degeneration was the main topic of this thesis. In the first part, the influence of human muscle cells on antigen-presenting cells was investigated. In inflammatory myopathies prominent infiltrates of immune cells containing T cells and antigen-presenting cells like macrophages and dendritic cells are present. The hypothesis was that human myoblasts have an inhibiting influence on these antigen-presenting cells under homeostatic conditions. A dysfunction or impairment under inflammatory circumstances might contribute to the development of myopathic conditions. The surface analysis of dendritic cells cocultured with myoblasts showed that immature dendritic cells could be driven into a reversible semi- mature state with significantly elevated levels of CD80. These dendritic cells were additionally characterized by their inhibiting function on T-cell proliferation. It was also shown that the lysates of healthy myoblasts could strongly enhance the phagocytic ability of macrophages, which could help with muscle regeneration and which might be disturbed in myositis patients. The second part of this thesis was about the clonal specificity of CD8\(^+\) T cells in a mouse model with genetically induced over-expression of PLP in oligodendrocytes. Here, we could show that the cytotoxic T lymphocytes, which had previously been shown to be pathogenic, were clonally expanded in the CNS of the transgenic mice. The amino acid sequences of the corresponding receptor chains were not identical, yet showed some similarities, which could mean that these clones recognize similar antigens (or epitopes of the same antigen). The knockout of PD-1 in this setting allowed for an analysis of the importance of tissue immune regulation. It became evident that the absence of PD-1 induced a larger number of clonal expansions in the CNS, hinting towards a reduced threshold for clonal disturbance and activation in these T cells. The expansions were, however, not pathogenic by themselves. Only in the presence of tissue damage and an antigenic stimulus (in our case the overexpression of PLP), the PD-1 limitation exacerbated the immune pathogenicity. Therefore, only in the presence of a “tissue damage signal”, the dyshomeostasis of T cells lacking PD-1 achieved high pathogenetic relevance. Finally, we investigated the pathogenetic role of CD8 T cells in Rasmussen encephalitis, a rare and chronic neurological disease mainly affecting children. The analysis of the T-cell receptor repertoire in Rasmussen encephalitis patients in the peripheral CD4\(^+\) and CD8\(^+\) T-cell compartments as well as the brain revealed the involvement of T cells in the pathogenicity of this disease. Many clonal expansions in the brain matched CD8\(^+\) T-cell expansions in the periphery on the sequence level. These putatively pathogenic clones could be visualized by immunohistochemistry in the brain and were found in close proximity to astrocytes and neurons. Additionally, the expanded clones could be found in the periphery of patients for at least one year.
At any moment in time, cells coordinate and balance their calcium ion (Ca\(^{2+}\)) fluxes. The term ‘Ca\(^{2+}\) homeostasis’ suggests that balancing resting Ca2+ levels is a rather static process. However, direct ER Ca\(^{2+}\) imaging shows that resting Ca\(^{2+}\) levels are maintained by surprisingly dynamic Ca\(^{2+}\) fluxes between the ER Ca\(^{2+}\) store, the cytosol, and the extracellular space. The data show that the ER Ca\(^{2+}\) leak, continuously fed by the high-energy consuming SERCA, is a fundamental driver of resting Ca\(^{2+}\) dynamics. Based on simplistic Ca\(^{2+}\) toolkit models, we discuss how the ER Ca\(^{2+}\) leak could contribute to evolutionarily conserved Ca\(^{2+}\) phenomena such as Ca\(^{2+}\) entry, ER Ca\(^{2+}\) release, and Ca\(^{2+}\) oscillations.
Blood–brain barrier (BBB) disruption is a critical event after ischemic stroke, which results in edema formation and hemorrhagic transformation of infarcted tissue. BBB dysfunction following stroke is partly mediated by proinflammatory agents. We recently have shown that high frequency stimulation of the mesencephalic locomotor region (MLR-HFS) exerts an antiapoptotic and anti-inflammatory effect in the border zone of cerebral photothrombotic stroke in rats. Whether MLR-HFS also has an impact on BBB dysfunction in the early stage of stroke is unknown. In this study, rats were subjected to photothrombotic stroke of the sensorimotor cortex and implantation of a stimulating microelectrode into the ipsilesional MLR. Thereafter, either HFS or sham stimulation of the MLR was applied for 24 h. After scarifying the rats, BBB disruption was assessed by determining albumin extravasation and tight junction integrity (claudin 3, claudin 5, and occludin) using Western blot analyses and immunohistochemistry. In addition, by applying zymography, expression of pro-metalloproteinase-9 (pro-MMP-9) was analyzed. No differences were found regarding infarct size and BBB dysfunction between stimulated and unstimulated animals 24 h after induction of stroke. Our results indicate that MLR-HFS neither improves nor worsens the damaged BBB after stroke. Attenuating cytokines/chemokines in the perilesional area, as mediated by MLR-HFS, tend to play a less significant role in preventing the BBB integrity.
Deep brain stimulation of the mesencephalic locomotor region (MLR) improves the motor symptoms in Parkinson’s disease and experimental stroke by intervening in the motor cerebral network. Whether high-frequency stimulation (HFS) of the MLR is involved in non-motor processes, such as neuroprotection and inflammation in the area surrounding the photothrombotic lesion, has not been elucidated. This study evaluates whether MLR-HFS exerts an anti-apoptotic and anti-inflammatory effect on the border zone of cerebral photothrombotic stroke. Rats underwent photothrombotic stroke of the right sensorimotor cortex and the implantation of a microelectrode into the ipsilesional MLR. After intervention, either HFS or sham stimulation of the MLR was applied for 24 h. The infarct volumes were calculated from consecutive brain sections. Neuronal apoptosis was analyzed by TUNEL staining. Flow cytometry and immunohistochemistry determined the perilesional inflammatory response. Neuronal apoptosis was significantly reduced in the ischemic penumbra after MLR-HFS, whereas the infarct volumes did not differ between the groups. MLR-HFS significantly reduced the release of cytokines and chemokines within the ischemic penumbra. MLR-HFS is neuroprotective and it reduces pro-inflammatory mediators in the area that surrounds the photothrombotic stroke without changing the number of immune cells, which indicates that MLR-HFS enables the function of inflammatory cells to be altered on a molecular level.
Inflammation is crucial in the pathophysiology of stroke and thus a promising therapeutic target. High-frequency stimulation (HFS) of the mesencephalic locomotor region (MLR) reduces perilesional inflammation after photothrombotic stroke (PTS). However, the underlying mechanism is not completely understood. Since distinct neural and immune cells respond to electrical stimulation by releasing acetylcholine, we hypothesize that HFS might trigger the cholinergic anti-inflammatory pathway via activation of the α7 nicotinic acetylcholine receptor (α7nAchR). To test this hypothesis, rats underwent PTS and implantation of a microelectrode into the MLR. Three hours after intervention, either HFS or sham-stimulation of the MLR was applied for 24 h. IFN-γ, TNF-α, and IL-1α were quantified by cytometric bead array. Choline acetyltransferase (ChAT)\(^+\) CD4\(^+\)-cells and α7nAchR\(^+\)-cells were quantified visually using immunohistochemistry. Phosphorylation of NFĸB, ERK1/2, Akt, and Stat3 was determined by Western blot analyses. IFN-γ, TNF-α, and IL-1α were decreased in the perilesional area of stimulated rats compared to controls. The number of ChAT\(^+\) CD4\(^+\)-cells increased after MLR-HFS, whereas the amount of α7nAchR\(^+\)-cells was similar in both groups. Phospho-ERK1/2 was reduced significantly in stimulated rats. The present study suggests that MLR-HFS may trigger anti-inflammatory processes within the perilesional area by modulating the cholinergic system, probably via activation of the α7nAchR.
Dimethyl fumarate attenuates lymphocyte infiltration and reduces infarct size in experimental stroke
(2023)
Ischemic stroke is associated with exacerbated tissue damage caused by the activation of immune cells and the initiation of other inflammatory processes. Dimethyl fumarate (DMF) is known to modulate the immune response, activate antioxidative pathways, and improve the blood–brain barrier (BBB) after stroke. However, the specific impact of DMF on immune cells after cerebral ischemia remains unclear. In our study, male mice underwent transient middle cerebral artery occlusion (tMCAO) for 30 min and received oral DMF (15 mg/kg) or a vehicle immediately after tMCAO, followed by twice-daily administrations for 7 days. Infarct volume was assessed on T2-weighted magnetic resonance images on days 1 and 7 after tMCAO. Brain-infiltrating immune cells (lymphocytes, monocytes) and microglia were quantified using fluorescence-activated cell sorting. DMF treatment significantly reduced infarct volumes and brain edema. On day 1 after tMCAO, DMF-treated mice showed reduced lymphocyte infiltration compared to controls, which was not observed on day 7. Monocyte and microglial cell counts did not differ between groups on either day. In the acute phase of stroke, DMF administration attenuated lymphocyte infiltration, probably due to its stabilizing effect on the BBB. This highlights the potential of DMF as a therapeutic candidate for mitigating immune cell-driven damage in stroke.
Background
Lymphocytes have been shown to play an important role in the pathophysiology of acute ischemic stroke, but the properties of B cells remain controversial. The aim of this study was to unravel the role of B cells during acute cerebral ischemia using pharmacologic B cell depletion, B cell transgenic mice, and adoptive B cell transfer experiments.
Methods
Transient middle cerebral artery occlusion (60 min) was induced in wild-type mice treated with an anti-CD20 antibody 24 h before stroke onset, JHD\(^{−/−}\) mice and Rag1\(^{−/−}\) mice 24 h after adoptive B cell transfer. Stroke outcome was assessed at days 1 and 3. Infarct volumes were calculated from 2,3,5-triphenyltetrazolium chloride (TTC)-stained brain sections, and neurological scores were evaluated. The local inflammatory response was determined by real-time PCR and immunohistochemistry. Apoptosis was analyzed by TUNEL staining, and astrocyte activation was revealed using immunohistochemistry and Western blot.
Results
Pharmacologic depletion of B cells did not influence infarct volumes and functional outcome at day 1 after stroke. Additionally, lack of circulating B cells in JHD\(^{−/−}\) mice also failed to influence stroke outcome at days 1 and 3. Furthermore, reconstitution of Rag1\(^{−/−}\) mice with B cells had no influence on infarct volumes.
Conclusion
Targeting B cells in experimental stroke did not influence lesion volume and functional outcome during the acute phase. Our findings argue against a major pathophysiologic role of B cells during acute ischemic stroke.
Platelet collagen interactions at sites of vascular injuries predominantly involve glycoprotein VI (GPVI) and the integrin α2β1. Both proteins are primarily expressed on platelets and megakaryocytes whereas GPVI expression is also shown on endothelial and integrin α2β1 expression on epithelial cells. We recently showed that depletion of GPVI improves stroke outcome without increasing the risk of cerebral hemorrhage. Genetic variants associated with higher platelet surface integrin α2 (ITGA2) receptor levels have frequently been found to correlate with an increased risk of ischemic stroke in patients. However until now, no preclinical stroke study has addressed whether platelet integrin α2β1 contributes to the pathophysiology of ischemia/reperfusion (I/R) injury. Focal cerebral ischemia was induced in C57BL/6 and Itga2\(^{−/−}\) mice by a 60 min transient middle cerebral artery occlusion (tMCAO). Additionally, wild-type animals were pretreated with anti-GPVI antibody (JAQ1) or Fab fragments of a function blocking antibody against integrin α2β1 (LEN/B). In anti-GPVI treated animals, intravenous (IV) recombinant tissue plasminogen activator (rt-PA) treatment was applied immediately prior to reperfusion. Stroke outcome, including infarct size and neurological scoring was determined on day 1 after tMCAO. We demonstrate that targeting the integrin α2β1 (pharmacologic; genetic) did neither reduce stroke size nor improve functional outcome on day 1 after tMCAO. In contrast, depletion of platelet GPVI prior to stroke was safe and effective, even when combined with rt-PA treatment. Our results underscore that GPVI, but not ITGA2, is a promising and safe target in the setting of ischemic stroke.
Background:
Ischemic stroke causes a strong inflammatory response that includes T cells, monocytes/macrophages, and neutrophils. Interaction of these immune cells with platelets and endothelial cells facilitates microvascular dysfunction and leads to secondary infarct growth. We recently showed that blocking of platelet glycoprotein (GP) receptor Ib improves stroke outcome without increasing the risk of intracerebral hemorrhage. Until now, it has been unclear whether GPIb only mediates thrombus formation or also contributes to the pathophysiology of local inflammation.
Methods:
Focal cerebral ischemia was induced in C57BL/6 mice by a 60-min transient middle cerebral artery occlusion (tMCAO). Animals were treated with antigen-binding fragments (Fab) against the platelet surface molecules GPIb (p0p/B Fab). Rat immunoglobulin G (IgG) Fab was used as control treatment. Stroke outcome, including infarct size and functional deficits as well as the local inflammatory response, was assessed on day 1 after tMCAO.
Results:
Blocking of GPIb reduced stroke size and improved functional outcome on day 1 after tMCAO without increasing the risk of intracerebral hemorrhage. As expected, disruption of GPIb-mediated pathways in platelets significantly reduced thrombus burden in the cerebral microvasculature. In addition, inhibition of GPIb limited the local inflammatory response in the ischemic brain as indicated by lower numbers of infiltrating T cells and macrophages and lower expression levels of inflammatory cytokines compared with rat IgG Fab-treated controls.
Conclusion:
In acute ischemic stroke, thrombus formation and inflammation are closely intertwined (“thrombo-inflammation”). Blocking of platelet GPIb can ameliorate thrombo-inflammation.
Mechanical thrombectomy is a novel treatment option for patients with acute ischemic stroke (AIS). Only a few studies have previously suggested strategies to categorize retrieved clots according to their histologic composition. However, these reports did not analyze potential biomarkers that are of importance in stroke-related inflammation. We therefore histopathologically investigated 37 intracerebral thrombi mechanically retrieved from patients with AIS, and focused on the composition of immune cells and platelets. We also conducted correlation analyses of distinctive morphologic patterns (erythrocytic, serpentine, layered, red, white, mixed appearance) with clinical parameters. Most T cells and monocytes were detected in erythrocytic and red clots, in which the distribution of these cells was random. In contrast, von Willebrand factor (vWF)-positive areas co-localized with regions of fibrin and collagen. While clots with huge amounts of vWF seem to be associated with a high National Institute of Health Stroke Scale score at admission, histologic findings could not predict the clinical outcome at discharge. In summary, we provide the first histologic description of mechanically retrieved intracerebral thrombi regarding biomarkers relevant for inflammation in ischemic stroke.
Fullerenols, water-soluble C60-fullerene derivatives, have been shown to exert neuroprotective effects in vitro and in vivo, most likely due to their capability to scavenge free radicals. However, little is known about the effects of fullerenols on the blood–brain barrier (BBB), especially on cerebral endothelial cells under inflammatory conditions. Here, we investigated whether the treatment of primary mouse brain microvascular endothelial cells with fullerenols impacts basal and inflammatory blood–brain barrier (BBB) properties in vitro. While fullerenols (1, 10, and 100 µg/mL) did not change transendothelial electrical resistance under basal and inflammatory conditions, 100 µg/mL of fullerenol significantly reduced erk1/2 activation and resulted in an activation of NFκB in an inflammatory milieu. Our findings suggest that fullerenols might counteract oxidative stress via the erk1/2 and NFκB pathways, and thus are able to protect microvascular endothelial cells under inflammatory conditions.
Breakdown of the blood-brain barrier (BBB) is an early hallmark of multiple sclerosis (MS), a progressive inflammatory disease of the central nervous system. Cell adhesion in the BBB is modulated by sphingosine-1-phosphate (S1P), a signaling protein, via S1P receptors (S1P\(_1\)). Fingolimod phosphate (FTY720-P) a functional S1P\(_1\) antagonist has been shown to improve the relapse rate in relapsing-remitting MS by preventing the egress of lymphocytes from lymph nodes. However, its role in modulating BBB permeabilityin particular, on the tight junction proteins occludin, claudin 5 and ZO-1has not been well elucidated to date. In the present study, FTY720-P did not change the transendothelial electrical resistance in a rat brain microvascular endothelial cell (RBMEC) culture exposed to inflammatory conditions and thus did not decrease endothelial barrier permeability. In contrast, occludin was reduced in RBMEC culture after adding FTY720-P. Additionally, FTY720-P did not alter the amount of endothelial matrix metalloproteinase (MMP)-9 and MMP-2 in RBMEC cultures. Taken together, our observations support the assumption that S1P\(_1\) plays a dual role in vascular permeability, depending on its ligand. Thus, S1P\(_1\) provides a mechanistic basis for FTY720-P-associated disruption of endothelial barrierssuch as the blood-retinal barrierwhich might result in macular edema.
Background
In acute ischemic stroke, cessation of blood flow causes immediate tissue necrosis within the center of the ischemic brain region accompanied by functional failure in the surrounding brain tissue designated the penumbra. The penumbra can be salvaged by timely thrombolysis/thrombectomy, the only available acute stroke treatment to date, but is progressively destroyed by the expansion of infarction. The underlying mechanisms of progressive infarction are not fully understood.
Methods
To address mechanisms, mice underwent filament occlusion of the middle cerebral artery (MCAO) for up to 4 h. Infarct development was compared between mice treated with antigen-binding fragments (Fab) against the platelet surface molecules GPIb (p0p/B Fab) or rat immunoglobulin G (IgG) Fab as control treatment. Moreover, Rag1\(^{−/−}\) mice lacking T-cells underwent the same procedures. Infarct volumes as well as the local inflammatory response were determined during vessel occlusion.
Results
We show that blocking of the platelet adhesion receptor, glycoprotein (GP) Ibα in mice, delays cerebral infarct progression already during occlusion and thus before recanalization/reperfusion. This therapeutic effect was accompanied by decreased T-cell infiltration, particularly at the infarct border zone, which during occlusion is supplied by collateral blood flow. Accordingly, mice lacking T-cells were likewise protected from infarct progression under occlusion.
Conclusions
Progressive brain infarction can be delayed by blocking detrimental lymphocyte/platelet responses already during occlusion paving the way for ultra-early treatment strategies in hyper-acute stroke before recanalization.
Polyneuropathien sind eine ätiologisch heterogene Erkrankung des peripheren Nervensystems. In bis zu 30% der Fälle ist eine Zuordnung zu einem bestimmten PNP Subtyp auch nach aufwändiger und zum Teil invasiver Diagnostik nicht möglich. Bislang fehlt ein diagnostischer Biomarker bei PNP, der z.B. bei der Unterscheidung zwischen einzelnen diagnostischen Subgruppen oder entzündlichen und nicht-entzündlichen Erkrankungsformen helfen könnte. In einer prospektiven Studie mit insgesamt 97 Patienten mit Neuropathien verschiedenster Ätiologie und 17 gesunden Kontrollpersonen erstellten wir Genexpressionsprofile von inflammatorischen Markern und Markern der Regeneration peripherer Nerven in Haut- und N. suralis-Biopsaten. Es wurden Inflammationsmarker (TAC1, CRMP2, AIF1, IL-6) und Marker, die in die Regeneration peripherer Nerven involviert sind (SCD, Netrin-1, DCC, UNC5H2, NEO1, Netrin-G1, Netrin-G2), mittels qRT-PCR untersucht. Alle Patienten erhielten eine N. suralis-Biopsie und/oder eine Hautbiopsie von Ober- beziehungsweise Unterschenkel. Weder in den Haut- noch in den N. suralis-Biopsaten konnten Unterschiede in der Genexpression dieser Marker zwischen einzelnen diagnostischen Subgruppen gefunden werden. Der Inflammationsmarker AIF1 war jedoch in Patienten-Hautproben sowohl proximal als auch distal höher exprimiert als bei gesunden Kontrollpersonen (p < 0,05 bzw. p < 0,01). Zudem fand sich in den Hautproben von PNP-Patienten eine deutlich reduzierte Genexpression von Regenerationsmarkern aus der Netrin-Familie verglichen mit den Hautproben gesunder Probanden (Netrin-1, DCC, UNC5H2, NEO1 sowie Netrin-G1 und G2; p < 0,05 bis p < 0,001). Ferner wies Netrin-1 in distalen Hautproben bei Patienten mit einer entzündlichen PNP eine niedrigere Genexpression auf, als bei Patienten mit einer nicht-entzündlichen Erkrankungsform (p < 0,05). Die Genexpression von NEO1 in distalen Hautproben war bei schmerzloser PNP und gesunden Kontrollpersonen höher als bei schmerzhafter PNP (p < 0,05). Sowohl eine Erhöhung bestimmter Inflammationsmarker als auch eine Verminderung von Regenerationsmarkern peripherer Nerven können bei der Pathophysiologie von Polyneuropathien involviert sein. Insbesondere Mitglieder der Netrin-Familie scheinen eine komplexe Rolle für das Axonwachstum, jedoch auch für entzündliche Prozesse zu spielen.
Der Vergleich der Verfahren Karotisstenting und Karotis-TEA an der Universitätsklinik Würzburg zeigt, dass bei richtiger Indikationsstellung sowie ausreichender Erfahrung der Neuroradiologen, CAS eine ernstzunehmende Alternative zu CEA darstellt. Besonderes Augenmerk lag dabei auf periprozeduale Komplikationen sowie Langzeitergebnisse bezüglich Tod,Insult und Restenose.
In der vorliegenden Arbeit wurde geprüft, ob Gb3 in Hautstanzbiopsien von Patienten mit M. Fabry nachweisbar ist, die Ablagerungen quantifizierbar sind, mit der Krankheitsschwere korrelieren, und ob eine Unterscheidung von Patienten und gesunden Kontrollen anhand der dermalen Gb3-Ablagerungen möglich ist. Es wurden 84 Patienten mit M. Fabry über das FAZiT sowie 27 gesunde Kontrollen zwischen 2008 und 2013 prospektiv rekrutiert und jeweils eine proximale und eine distale Hautbiopsie entnommen. Zusätzlich erfolgten eine Anamnese, eine klinische Untersuchung, eine QST, das Ausfüllen von Fragebögen mit der Fragestellung nach Schmerz und Depression sowie eine Blutentnahme und kardiale Diagnostik. Die Immunfluoreszenz erfolgte mit Antikörpern gegen CD77, einem Marker für Gb3. Es erfolgte die verblindete, semiautomatische Quantifizierung der Gb3 Ablagerungen. Hierzu wurden pro Biopsie drei ROI ausgewählt und die Fläche der ROIs mit Gb3-Ablagerungen in Relation zu der Gesamtfläche der ROIs gesetzt. Für die Auswertung wurden die Patienten sowohl nach Geschlecht als auch nach Krankheitsschwere und einzelnen Symptomen stratifiziert Die Gb3 Ablagerungen ließen sich bevorzugt in Schweißdrüsen und Endothel nachweisen. Es fanden sich jedoch auch größere Mengen an Gb3-Ablagerungen ohne ersichtliches anatomischer Korrelat. Die Gb3-Ablagerungen wurden semiautomatisch quantifiziert. Es konnte nachgewiesen werden, dass männliche Fabry-Patienten eine deutlich größere Menge an Gb3 in den distalen Hautbiopsien zeigen als gesunde Kontrollen, Patienten mit einer eingeschränkten Nierenfunktion hatten eine größere Menge an Gb3-Ablagerungen in der Haut als Patienten mit einer uneingeschränkten Nierenfunktion. Bei Patienten mit einer SFN waren erhöhte dermale Gb3 Mengen vorhanden im Vergleich zu gesunden Kontrollen, bei Patienten ohne eine SFN fand sich dieser Unterschied nicht. Patienten mit einem niedrigen SNAP zeigten im Vergleich zu gesunden Kontrollen eine größere Menge an Gb3 in ihrer distalen Haut, bei Patienten mit einem höheren SNAP fand sich dies nicht. Aus diesen Ergebnissen ergeben sich ein mögliches weiteres Werkzeug sowohl für die Diagnosestellung als auch für das Monitoring der Erkrankung, sowie weiterführend auch ein möglicher Indikator für den Therapieerfolg der ERT.
Mikrogliazellen fungieren als Makrophagen im ZNS, wo sie verschiedene Abwehrfunktionen gegen Mikroorganismen übernehmen, Zellreste beseitigen und eine wichtige Rolle bei Autoimmunerkrankungen des ZNS spielen. Mikrogliazellen exprimieren unter anderem eine NO-Synthase, die durch Zytokine induzierbar ist. Da NO für Neurone und Oligodendrozyten toxisch sein kann, waren wir daran interessiert, Substanzen zu identifizieren, die eine hemmende Wirkung auf die zytokin-induzierbare NO-Synthase in Makrophagen und Mikrogliazellen haben. Unter den getesteten Zytokinen, Wachstumsfaktoren, Neuropeptiden, Chemokinen und Tyrosinkinase-Hemmern war lediglich der Tyrosinkinaseinhibitor Methyl-2,5-Dihydroxycinnamat als NO-Synthase-Hemmstoff erfolgreich. Da die NO-Produktion eine Rolle in der Pathogenese der Experimentellen Autoimmunen Enzephalomyelitis (EAE) und der Experimentellen Autoimmunen Neuritis (EAN) spielt, war auch die Möglichkeit eines therapeutischen Einsatzes des NO-Synthase-Inhibitors von Interesse. Dieser scheint jedoch im Falle von Methyl-2,5-Dihydroxycinnamat aufgrund seiner Toxizität in höherer Konzentration und des daraus resultierenden engen Therapeutischen Dosisfensters sehr eingeschränkt.
Background: Despite pleiotropic immunomodulatory effects of apolipoprotein E (apoE) in vitro, its effects on the clinical course of experimental autoimmune encephalomyelitis (EAE) and multiple sclerosis (MS) are still controversial. As sex hormones modify immunomodulatory apoE functions, they may explain contentious findings. This study aimed to investigate sex-specific effects of apoE on disease course of EAE and MS.
Methods: MOG\(_{35-55}\) induced EAE in female and male apoE-deficient mice was assessed clinically and histopathologically. apoE expression was investigated by qPCR. The association of the MS severity score (MSSS) and APOE rs429358 and rs7412 was assessed across 3237 MS patients using linear regression analyses.
Results: EAE disease course was slightly attenuated in male apoE-deficient (apoE\(^{-/-}\)) mice compared to wildtype mice (cumulative median score: apoE\(^{-/-}\) = 2 [IQR 0.0-4.5]; wildtype = 4 [IQR 1.0-5.0]; n = 10 each group, p = 0.0002). In contrast, EAE was more severe in female apoE\(^{-/-}\) mice compared to wildtype mice (cumulative median score: apoE\(^{-/-}\) = 3 [IQR 2.0-4.5]; wildtype = 3 [IQR 0.0-4.0]; n = 10, p = 0.003). In wildtype animals, apoE expression during the chronic EAE phase was increased in both females and males (in comparison to naive animals; p < 0.001). However, in MS, we did not observe a significant association between MSSS and rs429358 or rs7412, neither in the overall analyses nor upon stratification for sex.
Conclusions: apoE exerts moderate sex-specific effects on EAE severity. However, the results in the apoE knock-out model are not comparable to effects of polymorphic variants in the human APOE gene, thus pinpointing the challenge of translating findings from the EAE model to the human disease.
Charcot-Marie-Tooth Neuropathien sind die häufigsten hereditären Erkrankungen des peripheren Nervensystems und dennoch bis heute nicht therapierbar. Die Lebensqualität der Patienten ist durch motorische und sensorische Defizite der Extremitäten häufig stark eingeschränkt. Ursache können unter anderem Mutationen in Schwann-Zellen sein, die zu dem typischen Bild von Demyelinisierung und axonalem Schaden führen. In den letzten Jahren konnte in Mausmodellen das Immunsystem als wichtiger Mediator in der Pathogenese der CMT 1 Subtypen A, B und X identifiziert werden. Insbesondere Makrophagen spielen eine tragende Rolle bei dem Verlust der axonalen Integrität, bei der Schädigung der Myelinscheiden, sowie bei der Dedifferenzierung von Schwann-Zellen. Entscheidender Faktor für Proliferation und Aktivierung der Makrophagen ist hierbei das Zytokin CSF-1, dessen korrespondierender Rezeptor auf Makrophagen exprimiert wird. Der CSF-1/CSF1R Signalweg bietet somit einen vielversprechenden Angriffspunkt.
In der vorliegenden Arbeit wurden Mausmodelle der CMT 1 Subtypen A, B und X mit einem niedermolekularen CSF-1-Rezeptor Inhibitor behandelt. Anschließend erfolgte eine funktionelle und strukturelle Auswertung der peripheren Nerven.
Das beste Ansprechen auf die Therapie zeigten Cx32def Mutanten. Strukturell fielen ein verringerter axonaler Schaden und eine verbesserte axonale Regenerationsfähigkeit sowie erhaltene neuromuskuläre Synapsen auf. Funktionell äußerte sich dies in verbesserten elektrophysiologischen Parametern und einem Krafterhalt, welcher als klinischer Parameter die größte Relevanz für betroffene Patienten hat und somit besonders hervorzuheben ist.
Auch P0het Mutanten zeigten Verbesserungen nach der CSF1RI Behandlung. Anders als bei Cx32def Tieren zeigte sich hier jedoch vor allem ein Erhalt der Myelinintegrität. Weiterhin wirkte sich die Therapie positiv auf elektrophysiologische Parameter und Krafttests aus. Vor allem besonders stark betroffene Individuen schienen hierbei von der CSF1RI Behandlung zu profitieren.
Bei PMP22tg Mutanten hingegen konnten keine positiven Effekte der CSF1RI Behandlung nachgewiesen werden. Strukturelle und funktionelle Parameter behandelter Tiere unterschieden sich nicht von unbehandelten.
Diese Ergebnisse unterstreichen die Relevanz der sekundären Entzündungsreaktion in CMT 1 Neuropathien als wichtigen Mediator in der Pathogenese. Weiterhin konnte gezeigt werden, dass eine Intervention im CSF-1/CSF1R Signalweg einen vielversprechenden möglichen Ansatz für die Therapie der bisher nicht behandelbaren CMT 1 Subypen X und B darstellt. Unausweichlich ist hierbei ein möglichst früher Therapiestart vor Ausprägung der ersten molekularen und histologischen Veränderungen. Im Hinblick auf die nicht die Lebenserwartung reduzierende Erkrankung muss ferner eine Minimierung der Nebenwirkungen der Therapie gewährleistet sein. Besonders hervorzuheben ist hier die Verwendung eines Inhibitors, welcher nicht in das zentrale Nervensystem vordringen kann und somit die Funktion der Mikroglia nicht beeinträchtigt.
Zervikale Dystonien gehören zu den häufigsten Formen fokaler Dystonien. Diese sind durch anhaltende, unwillkürliche Muskelkontraktionen gekennzeichnet, welche zu verdrehenden oder repetitiven Bewegungen oder abnormalen Haltungen des Kopfes führen. Ein seit über 100 Jahren beobachtetes Phänomen stellt hierbei die Möglichkeit dar, mittels sogenannter "sensibler Trickmanöver", welche meistens in einer leichten Berührung von Arealen im Kopfbereich bestehen, die pathologische Muskelaktivität zu reduzieren und damit die Kopfposition zu normalisieren. Ziel der vorliegenden Arbeit war es, eine breite und vor allem erstmalig quantitative Charakterisierung von wirksamen Trickmanövern vorzunehmen und so verschiedene Einflußgrößen auf die Wirksamkeit solcher Tricks zu untersuchen. Hierzu wurden die Muskelaktivitäten der vier wichtigsten den Kopf drehenden Muskeln mittels Oberflächen-EMG abgeleitet und die Veränderungen bei Trickapplikation unterschiedlicher Lokalisation, Modalität und bei verschiedenen Ausgangspositionen ermittelt. 1) Hinsichtlich der Lokalisation ergaben sich über alle Patienten gemittelt keine signifikante Seitendifferenz, und auch bei individuellem Vergleich zeigten sich bei rund 50% der Patienten keine signifikanten Unterschiede zwischen kontralateraler und ipsilateraler Trickapplikation. Unter den getesteten Applikationsorten grenzte sich das Areal "Wange" mit durchschnittlich 33%iger Reduktion der gesamten EMG-Aktivität signifikant gegen die Areale "Kinn" (-23%) und "Hals" (-23%) ab und war bei 79% der Patienten am besten wirksam. 2) Bei weiterer Untersuchung verschiedener Trickmodalitäten auf dem für jeden Patienten individuell wirksamsten Areal waren neben dem klassischen Trickmanöver (-42%) auch die Verwendung eines Plastikstabes durch den Patienten (-43%) oder Untersucher (-32%), sowie nicht-sensible Manöver wie das Heben des Armes ohne eigentliche Berührung (-18%) und die bloße Vorstellung einer Trickapplikation (-20%) hochsignifikant wirksam. Allerdings korrelierten sensible und (wie die beiden letztgenannten) nicht-sensible Tricks nicht miteinander, was auf einen prinzipiell unterschiedlichen Wirkmechanismus hinweisen könnte. Visuelle Rückkopplung über einen Spiegel hatte im Gegensatz dazu keine Wirkung. 3) Bezüglich der Bedeutung der Kopfposition für Muskelaktivität und Trickwirksamkeit zeigte sich bereits bei willkürlicher Einnahme einer Neutralposition ohne Trickanwendung eine signifikante Reduktion agonistischer Muskelaktivität (-30%), die allerdings von einer leichten antagonistischen Aktivierung begleitet war (+2,4%). Überraschenderweise war die Applikation eines Tricks um so wirksamer, je weiter der Kopf zu Beginn auf die zur dystonen Drehrichtung kontralateralen Seite gedreht war. Demgegenüber ließ sich bei Trickapplikation in dystoner Maximalposition kaum mehr eine Wirkung nachweisen (-12%). Die vorliegenden Ergebnisse sprechen aufgrund der unspezifischen Wirkung verschiedenster Trickmanöver (2) und Lokalisationen (1) für die Einbeziehung höherer sensomotorischer Integrationszentren wie z. B. des Parietalcortex in den Wirkmechanismus. Sensible Trickmanöver könnten bei auf die pathologische Kopfposition adaptierten sensiblen Afferenzen Zusatzinformationen über die Kopfposition im Vergleich zum Rumpf liefern. Möglicherweise sind diese umso wirksamer, je weiter sich der Kopf noch auf der kontralateralen Seite befindet (3), da in dieser Situation die dystone Muskelaktivität noch gering und das sensible Mismatch, über welches sensible Stimuli modulierend einwirken könnten, maximal ist. Nach den vorgelegten Ergebnissen läßt sich erstmals ein zweiphasiger Ablauf der Trickwirkung postulieren: Der in einer ersten Phase teils willkürlich in eine günstige Ausgangsposition gebrachte Kopf kann durch die Anwendung sensibler Stimuli oder Imagination in einer zweiten Phase mit geringerer Anstrengung und unter Ausnutzung kortikaler sensomotorischer Servomechanismen stabilisiert werden. Im Rahmen der vorgelegten Studie konnte das Verständnis für therapeutisch nutzbare sensible Trickmanöver verbessert und somit Patienten unterschiedliche Trickstrategien an die Hand gegeben werden. Die Identifikation der zentralen Rolle höherer integrativer Zentren wie dem Parietalcortex im Rahmen des Wirkmechanismus, könnte dabei Ausgangspunkt für neue Therapieansätze in Form einer gezielten Beeinflussung solcher Areale sein.
Zielsetzung der Studie war es, Ablagerungen des phosphorylierten Alpha-Synucleins in der Haut von Patienten mit Morbus Parkinson und atypischen Parkinson-Syndromen zu untersuchen und deren Auswirkungen auf das periphere Nervensystem zu erforschen.
Dazu wurden Hautbiopsien von 92 Patienten mit Morbus Parkinson, 12 Patienten mit MSA und 13 Patienten mit einer Tauopathie sowie 83 gesunden Kontrollpersonen immunhisto-chemisch gefärbt und unter dem Mikroskop untersucht.
Mit einer Sensitivität von 52 % für den Morbus Parkinson und 67 % für die MSA bei hoher Spezifität stellt der Nachweis von Phospho-Alpha-Synuclein in den kleinen Nervenfasern der Haut einen geeigneten Biomarker dar. Während die Ablagerungen des phosphorylierten Alpha-Synucleins bei Patienten mit Morbus Parkinson eher in autonomen Strukturen nachweisbar waren, fanden sie sich bei Patienten mit MSA eher in sub- und intraepidermal gelegenen Nervenfasern. Phospho-Alpha-Synuclein konnte in allen untersuchten Nervenfasersubtypen nachgewiesen werden, also in CGRP-, SP-, TH- und VIP-positiven Fasern. Bei den in der vorliegenden Studie untersuchten Parkinson-Patienten waren keine Veränderungen in der sensiblen Neurographie des Nervus suralis erkennbar. Die intraepidermale Nervenfaserdichte sowie die Innervation der Schweißdrüsen waren jedoch teilweise vermindert und auch in der QST zeigten sich Auffälligkeiten. Ein Zusammenhang zu dem Vorhandensein von Phospho-Alpha-Synuclein-Ablagerungen konnte jedoch nur für die Innervation der Musculi arrectores pilorum hergestellt werden. Bei der Untersuchung der pathophysiologischen Hintergründe, durch die Phospho-Alpha-Synuclein-Ablagerungen zu Nervenfaserschädigungen führen, konnten die Hinweise auf eine Beteiligung von axonalen Transportproteinen, Mikrotubuli oder Mitochondrien nicht erhärtet werden.
This expert opinion paper on cardiac imaging after acute ischemic stroke or transient ischemic attack (TIA) includes a statement of the "Heart and Brain" consortium of the German Cardiac Society and the German Stroke Society. The Stroke Unit-Commission of the German Stroke Society and the German Atrial Fibrillation NETwork (AFNET) endorsed this paper. Cardiac imaging is a key component of etiological work-up after stroke. Enhanced echocardiographic tools, constantly improving cardiac computer tomography (CT) as well as cardiac magnetic resonance imaging (MRI) offer comprehensive non- or less-invasive cardiac evaluation at the expense of increased costs and/or radiation exposure. Certain imaging findings usually lead to a change in medical secondary stroke prevention or may influence medical treatment. However, there is no proof from a randomized controlled trial (RCT) that the choice of the imaging method influences the prognosis of stroke patients. Summarizing present knowledge, the German Heart and Brain consortium proposes an interdisciplinary, staged standard diagnostic scheme for the detection of risk factors of cardio-embolic stroke. This expert opinion paper aims to give practical advice to physicians who are involved in stroke care. In line with the nature of an expert opinion paper, labeling of classes of recommendations is not provided, since many statements are based on expert opinion, reported case series, and clinical experience.
Introduction: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) profoundly impacts hemostasis and microvasculature. In the light of the dilemma between thromboembolic and hemorrhagic complications, in the present paper, we systematically investigate the prevalence, mortality, radiological subtypes, and clinical characteristics of intracranial hemorrhage (ICH) in coronavirus disease (COVID-19) patients. Methods: Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, we performed a systematic review of the literature by screening the PubMed database and included patients diagnosed with COVID-19 and concomitant ICH. We performed a pooled analysis, including a prospectively collected cohort of critically ill COVID-19 patients with ICH, as part of the PANDEMIC registry (Pooled Analysis of Neurologic Disorders Manifesting in Intensive Care of COVID-19). Results: Our literature review revealed a total of 217 citations. After the selection process, 79 studies and a total of 477 patients were included. The median age was 58.8 years. A total of 23.3% of patients experienced the critical stage of COVID-19, 62.7% of patients were on anticoagulation and 27.5% of the patients received ECMO. The prevalence of ICH was at 0.85% and the mortality at 52.18%, respectively. Conclusion: ICH in COVID-19 patients is rare, but it has a very poor prognosis. Different subtypes of ICH seen in COVID-19, support the assumption of heterogeneous and multifaceted pathomechanisms contributing to ICH in COVID-19. Further clinical and pathophysiological investigations are warranted to resolve the conflict between thromboembolic and hemorrhagic complications in the future.
Multiple Sklerose ist eine chronisch degenerative Erkrankung des ZNS, deren Therapie-möglichkeiten noch immer begrenzt sind. In der vorliegenden Arbeit wurde in vitro der selektive PDE-IV-Inhibitor Mesopram untersucht, welcher bereits in einer Phase II Studie bei Patienten mit klinisch gesicherter MS zum Einsatz kommt. Anhand von HBMEC’s, die als ein Model der menschlichen BHS gelten, konnten TJ’s (ZO-1, Claudin-3, Occludin), Adhäsionsmoleküle (ICAM, VCAM, MCAM), Zytokine und Chemokine (AR, Il-6, MCP-1, Il-8) und MMP-2 nachgewiesen werden. Diese Faktoren sind bei der Zerstörung der BHS in der Pathologie der MS beteiligt. Die Idee dieser Arbeit war es, durch die spezifische PDE-IV-Inhibition mit Mesopram die untersuchten Faktoren der BHS so zu beeinflussen, dass eine weitere Permeabilitätserhöhung verhindert werden könnte. Da es sich bei MS um eine inflammatorische Erkrankung handelt und TNFα in MS-Läsionen gefunden wird, wurde in dieser Arbeit TNFα als inflammatorischer Stimulus verwendet. Unter TNFα-Stimulation wurden die meisten der genannten Faktoren vermehrt exprimiert. Keine Veränderung unter TNFα zeigten Occludin, ZO-1, VCAM und MMP-2. Die HBMEC’s wurden über 24 und 48 h mit TNFα und Mesopram stimuliert. Es konnte in den unterschiedlichen Auswertungen (ELISA, FACS, Western Blot, Zymographie) keine regulatorische Modulation der verschiedenen Faktoren unter Mesopram-induzierter cAMP-Erhöhung nachgewiesen werden.
Dementia, or any form of degenerative cognitive decline, is one of the major problems in present, and even more will be in future medicine. With Alzheimer's disease (AD) being the most prevalent, Vascular Dementia is the second most entity of dementing processes in the elderly. As diagnostic criteria are still imprecise and in many cases do not embrace early stages of the disease, recent studies have proposed more detailed classifications of the newly created condition Vascular Cognitive Impairment (VCI). Of all conditions subsumed under this term, subcortical small-vessel alterations are the most common cause for cognitive decline. The diagnosis of dementia / cognitive impairment is presently often made in late stages of the disease, when therapeutical options are poor. Thus, early detection of changes of the subcortical small vessels is desirable, when there is still time to identify and aggressively treat risk factors and underlying conditions like diabetes, hyper- or hypotension, and hyperlipidemia. This study aimed to evaluate whether cTT correlates to cognitive dysfunction, i.e. if cTT is fit as an early diagnostic tool for VCI. The study cohort included 38 patients from the Neurological Clinic of the Würzburg University hospital admitted due to diagnoses other than dementia or stroke. As a result of this study it turned out that cTT is certainly capable of fulfilling the task to easily and effectively detect and evaluate possible microvascular lesions of the brain with respect to the actual clinical relevance for the patient. When compared to the other proposed diagnostic tools, neuropsychological testing and MRI, the advantages of cTT are obvious: its measurement is a low-cost and quick procedure which would spare both patients and examiners a long neuropsychological exam or complement it. cTT is safe to assess as the only possible risks derive from the use of the contrast agent, which are rare and easily manageable. It has also proven to be more accurate in showing the extent of cognitive impairment than MRI. Finally, it is widely available. The only prerequisite is an ultrasound machine capable of transcranial color-coded duplex sonography. No cost-intensive procedures like MRI are needed. So, with neuropsychological testing remaining the gold standard, cTT here proved to be a reliable alternative which is more time- and cost-effective than MRI.
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease that causes progressive autonomy loss and need for care. This does not only affect patients themselves, but also the patients’ informal caregivers (CGs) in their health, personal and professional lives. The big efforts of this multi-center study were not only to evaluate the caregivers' burden and to identify its predictors, but it also should provide a specific understanding of the needs of ALS patients' CGs and fill the gap of knowledge on their personal and work lives. Using standardized questionnaires, primary data from patients and their main informal CGs (n = 249) were collected. Patients' functional status and disease severity were evaluated using the Barthel Index, the revised Amyotrophic Lateral Sclerosis Functional Rating Scale (ALSFRS-R) and the King’s Stages for ALS. The caregivers' burden was recorded by the Zarit Burden Interview (ZBI). Comorbid anxiety and depression of caregivers were assessed by the Hospital Anxiety and Depression Scale. Additionally, the EuroQol Five Dimension Five Level Scale evaluated their health-related quality of life. The caregivers' burden was high (mean ZBI = 26/88, 0 = no burden, ≥24 = highly burdened) and correlated with patients' functional status (r\(_p\) = −0.555, p < 0.001, n = 242). It was influenced by the CGs' own mental health issues due to caregiving (+11.36, 95% CI [6.84; 15.87], p < 0.001), patients' wheelchair dependency (+9.30, 95% CI [5.94; 12.66], p < 0.001) and was interrelated with the CGs' depression (r\(_p\) = 0.627, p < 0.001, n = 234), anxiety (r\(_p\) = 0.550, p < 0.001, n = 234), and poorer physical condition (r\(_p\) = −0.362, p < 0.001, n = 237). Moreover, female CGs showed symptoms of anxiety more often, which also correlated with the patients' impairment in daily routine (r\(_s\) = −0.280, p < 0.001, n = 169). As increasing disease severity, along with decreasing autonomy, was the main predictor of caregiver burden and showed to create relevant (negative) implications on CGs' lives, patient care and supportive therapies should address this issue. Moreover, in order to preserve the mental and physical health of the CGs, new concepts of care have to focus on both, on not only patients but also their CGs and gender-associated specific issues. As caregiving in ALS also significantly influences the socioeconomic status by restrictions in CGs' work lives and income, and the main reported needs being lack of psychological support and a high bureaucracy, the situation of CGs needs more attention. Apart from their own multi-disciplinary medical and psychological care, more support in care and patient management issues is required.
Polyneuropathien (PNP) sind mit einer Prävalenz von bis zu 7% in der Gesamtbevölkerung eine häufige Diagnose. Bei der Ursachenabklärung der PNP hat sich in den letzten Jahren die immunhistochemische Bestimmung der intraepidermalen Nervenfaserdichte aus Hautstanzbiopsien mittels einer axonalen PGP 9.5 Färbung etabliert. Ein zusätzlicher Marker ist GAP 43 - ein axonales Protein, das von regenerierenden Nervenfasern exprimiert wird. In der vorliegenden Studie wurde die Dichte von PGP 9.5 und GAP 43 positiven Nervenfasern anhand immunhistochemischer Färbungen an Hautstanzbiopsien vom lateralen Unter- und Oberschenkel von Patienten mit PNP unterschiedlicher Genese und von gesunden Kontrollen quantifiziert. Wir konnten zeigen, dass PNP Patienten im Vergleich zu Kontrollpersonen deutlich weniger GAP 43 positive Nervenfasern in ihren Hautbiopsien aufweisen. Obwohl sich bei PNP Patienten absolut gesehen weniger GAP 43 positive Nervenfasern fanden, war der Anteil an GAP 43 positiven Nervenfasern im Vergleich zur Kontrollgruppe höher, was mit einer gesteigerten regenerativen Aktivität in geschädigten Nervenfasern zusammenhängen kann. In der Patienten- und Kontrollgruppe fanden sich mehr PGP 9.5 und GAP 43 positive Nervenfasern am Ober- als am Unterschenkel, was durch die grundsätzlich dichtere Innervation proximaler Hautareale bedingt ist und bei PNP Patienten durch den im Krankheitsverslauf typischerweise längenabhängigen Verlust der peripheren kutanen Innervation noch verstärkt wird. Die Analyse potentieller Einflussfaktoren ergab beim Unterschenkel für beide Färbungen eine negative Korrelation zwischen Alter und Nervenfaserdichte. Das Geschlecht und das Vorhandensein von Schmerzen hatten keinen Einfluss auf die Hautinnervation. Die Arbeit zeigt anhand des bisher größten Patienten- und Kontrollkollektivs, dass regenerierende intraepidermale Nervenfasern mittels einer Immunhistochemie für GAP 43 zuverlässig quantifizierbar sind. Bei künftigen longitudinalen Studien kann nun ein möglicher Zusammenhang zwischen der Dichte GAP 43 positiver Nervenfasern und der Prognose bzw. dem Ansprechen auf Therapien untersucht werden.
Die Rehabilitation von Schlaganfallpatienten erfordert ein interdisziplinäres Vorgehen. Dies ist im klinischen Alltag oft nur schwer umsetzbar. Im Jahr 2011 wurde daher im Neurologischen Rehabilitationszentrum Quellenhof in Bad Wildbad ein spezielles Behandlungskonzept für Schlaganfallpatienten entwickelt. Mit dieser Studie sollte die Wirksamkeit dieses neuen Konzepts untersucht werden. Dabei wurde die Behandlung im Schlaganfallkonzept mit der bisher üblichen Behandlung verglichen. Zielparameter waren der Barthel-Index und die modifizierte Rankin-Skala bei Aufnahme und bei Entlassung. Die Ergebnisse zeigen, dass sowohl die bisherige Behandlung als auch die Behandlung im Schlaganfallkonzept effektiv sind. Im Schlaganfallkonzept konnte jedoch ein größerer Zugewinn an alltagsrelevanten Fähigkeiten erzielt werden; zudem berichteten Pflegekräfte und Therapeuten eine verbesserte Zusammenarbeit. Somit steigert das Schlaganfallkonzept nicht nur die Alltagskompetenz der Patienten, sondern auch den Wissenstransfer zwischen den Berufsgruppen und die Interdisziplinarität.
Ischemic disorders are the leading cause of death worldwide. The extracellular signal-regulated kinases 1 and 2 (ERK1/2) are thought to affect the outcome of ischemic stroke. However, it is under debate whether activation or inhibition of ERK1/2 is beneficial. In this study, we report that the ubiquitous overexpression of wild-type ERK2 in mice (ERK2\(^{wt}\)) is detrimental after transient occlusion of the middle cerebral artery (tMCAO), as it led to a massive increase in infarct volume and neurological deficits by increasing blood–brain barrier (BBB) leakiness, inflammation, and the number of apoptotic neurons. To compare ERK1/2 activation and inhibition side-by-side, we also used mice with ubiquitous overexpression of the Raf-kinase inhibitor protein (RKIP\(^{wt}\)) and its phosphorylation-deficient mutant RKIP\(^{S153A}\), known inhibitors of the ERK1/2 signaling cascade. RKIP\(^{wt}\) and RKIP\(^{S153A}\) attenuated ischemia-induced damages, in particular via anti-inflammatory signaling. Taken together, our data suggest that stimulation of the Raf/MEK/ERK1/2-cascade is severely detrimental and its inhibition is rather protective. Thus, a tight control of the ERK1/2 signaling is essential for the outcome in response to ischemic stroke.
Diabetic peripheral neuropathy (DPN) is a common complication of diabetes with potential severe consequences. Its pathogenesis involves hyperglycemia-linked mechanisms, which may include changes in the expression of neurotrophic growth factors. We analyzed the expression of 29 factors potentially related to nerve degeneration and regeneration in skin biopsies from 13 type 1 diabetic pancreas and kidney recipients with severe DPN including severe depletion of intraepidermal nerve fibers (IENF) in lower limb skin biopsies (group Tx1 1st examination). The investigation was repeated after a median 28-month period of normoglycemia achieved by pancreas transplantation (group Tx1 2nd examination). The same tests were performed in 13 stable normoglycemic pancreas and kidney recipients 6-12 years posttransplantation (group Tx2), in 12 matched healthy controls (group HC), and in 12 type 1 diabetic subjects without severe DPN (group DM). Compared to DM and HC groups, we found a significantly higher (p < 0.05-0.001) expression of NGF (nerve growth factor), NGFR (NGF receptor), NTRK1 (neurotrophic receptor tyrosine kinase 1), GDNF (glial cell-derived neurotrophic factor), GFRA1 (GDNF family receptor alpha 1), and GFAP (glial fibrillary acidic protein) in both transplant groups (Tx1 and Tx2). Enhanced expression of these factors was not normalized following the median 28-month period of normoglycemia (Tx1 2nd examination) and negatively correlated with IENF density and with electrophysiological indices of DPN (vibration perception threshold, electromyography, and autonomic tests). In contrast to our expectation, the expression of most of 29 selected factors related to neural regeneration was comparable in subjects with severe peripheral nerve fiber depletion and healthy controls and the expression of six factors was significantly upregulated. These findings may be important for better understanding the pathophysiology of nerve regeneration and for the development of intervention strategies.
Mesenchymal stem cell (MSC)-secreted factors have been shown to significantly promote oligodendrogenesis from cultured primary adult neural stem cells (aNSCs) and oligodendroglial precursor cells (OPCs). Revealing underlying mechanisms of how aNSCs can be fostered to differentiate into a specific cell lineage could provide important insights for the establishment of novel neuroregenerative treatment approaches aiming at myelin repair. However, the nature of MSC-derived differentiation and maturation factors acting on the oligodendroglial lineage has not been identified thus far. In addition to missing information on active ingredients, the degree to which MSC-dependent lineage instruction is functional in vivo also remains to be established. We here demonstrate that MSC-derived factors can indeed stimulate oligodendrogenesis and myelin sheath generation of aNSCs transplanted into different rodent central nervous system (CNS) regions, and furthermore, we provide insights into the underlying mechanism on the basis of a comparative mass spectrometry secretome analysis. We identified a number of secreted proteins known to act on oligodendroglia lineage differentiation. Among them, the tissue inhibitor of metalloproteinase type 1 (TIMP-1) was revealed to be an active component of the MSC-conditioned medium, thus validating our chosen secretome approach.
Multiple sclerosis (MS) is a prevalent neurological disease of complex etiology. Here, we describe the characterization of a multi-incident MS family that nominated a rare missense variant (p.G420D) in plasminogen (PLG) as a putative genetic risk factor for MS. Genotyping of PLG p.G420D (rs139071351) in 2160 MS patients, and 886 controls from Canada, identified 10 additional probands, two sporadic patients and one control with the variant. Segregation in families harboring the rs139071351 variant, identified p.G420D in 26 out of 30 family members diagnosed with MS, 14 unaffected parents, and 12 out of 30 family members not diagnosed with disease. Despite considerably reduced penetrance, linkage analysis supports cosegregation of PLG p.G420D and disease. Genotyping of PLG p.G420D in 14446 patients, and 8797 controls from Canada, France, Spain, Germany, Belgium, and Austria failed to identify significant association with disease (P = 0.117), despite an overall higher prevalence in patients (OR = 1.32; 95% CI = 0.93–1.87). To assess whether additional rare variants have an effect on MS risk, we sequenced PLG in 293 probands, and genotyped all rare variants in cases and controls. This analysis identified nine rare missense variants, and although three of them were exclusively observed in MS patients, segregation does not support pathogenicity. PLG is a plausible biological candidate for MS owing to its involvement in immune system response, blood-brain barrier permeability, and myelin degradation. Moreover, components of its activation cascade have been shown to present increased activity or expression in MS patients compared to controls; further studies are needed to clarify whether PLG is involved in MS susceptibility.
Der Einfluss von Autoantikörpern gegen Aquaporin 4 bei der Pathogenese der Neuromyelitis optica
(2014)
Neuromyelitis optica (NMO) ist eine schwerwiegende Autoimmunerkrankung des zentralen Nervensystems, deren pathogene Ursache in Zusammenhang mit Autoantikörpern gegen Aquaporin 4 (AQP4) steht. In einem intrathekalen Passiv-Transfermodell der Ratte wurden die Auswirkungen von NMO-Immunglobulin (IgG) aus Plasmapheresematerial und rekombinanten Antikörpern gegen AQP4 sowie der Effekt von additiver Applikation von humanem Komplement untersucht. NMO-IgG, rekombinante Antikörper und modifizierte Antikörper ohne Fähigkeit zur Aktivierung der Komplementkaskade waren bei repetitiver Applikation in der Lage, auch ohne additives humanes Komplement NMO-ähnliche progrediente motorische Symptome zu induzieren. Durch Ko-Injektion von humanem Komplement konnte keine signifikante Exazerbation der Pathologie bewirkt werden.
MRT-Studien zeigten lokale Schrankenstörungen am Ort der höchsten Antikörperkonzentration. In histologischen Aufarbeitungen von Rückenmarksschnitten zeigten sich lokale Deposition an humanem IgG, ein dazu korrelierender Verlust an AQP4 sowie eine darüber hinausgehende Reduktion des Glutamattransporters EAAT2, während GFAP-reaktive Astrozyten tendenziell hypertroph und vermehrt waren. Auch bei additiver Applikation von humanem Komplement wiesen die Läsionsareale im Gegensatz zu histopathologischen Befunden bei NMO-Patienten und anderen Tiermodellen nur eine geringe Ablagerung von aktivem Komplement und wenig Infiltration durch ED1-positive Makrophagen auf. Da in einem Kontrollexperiment mit intrazerebraler intraparenchymaler Applikation von NMO-IgG die beschriebene additive Zytotoxizität von humanem Komplement reproduziert werden konnte, erscheint die Verwendbarkeit des intrathkalen Modells zur Evaluation der Wirkung von humanem Komplement bei Autoimmunerkrankungen mit intraspinalen Zielepitopen nicht geeignet.
Die Ergebnisse lassen sich als Komplement-unabhängige intrinsische Wirkungen von Antikörpern gegen AQP4 deuten, die in einer Reduktion der Oberflächenexpresseion von AQP4 und EAAT2 resultieren und zu einer progredienten Myelopathie führen. Neben der bekannten Antikörper-induzierten Komplement-abhängigen Zytotoxizität könnten diese Effekte einen bislang nicht beschriebenen zusätzlichen Pathomechanismus bei der NMO darstellen.
NKG2D is an activating receptor on T cells, which has been implicated in the pathogenesis of autoimmune diseases. T cells are critically involved in idiopathic inflammatory myopathies (IIM) and have been proposed as specific therapeutic targets. However, the mechanisms underlying T cell-mediated progressive muscle destruction in IIM remain to be elucidated. We here determined the involvement of the NKG2D - IL-15 signaling pathway. Primary human myoblasts expressed NKG2D ligands, which were further upregulated upon inflammatory stimuli. In parallel, shedding of the soluble NKG2D ligand MICA (sMICA) decreased upon inflammation potentially diminishing inhibition of NKG2D signaling. Membrane-related expression of IL-15 by myoblasts induced differentiation of naive CD8\(^+\) T cells into highly activated, cytotoxic \(CD8^+NKG2D^{high}\) T cells demonstrating NKG2D-dependent lysis of myoblasts in vitro. \(CD8^+NKG2D^{high}\) T cell frequencies were increased in the peripheral blood of polymyositis (PM) patients and correlated with serum creatinine kinase concentrations, while serum sMICA levels were not significantly changed. In muscle biopsy specimens from PM patients expression of the NKG2D ligand MICA/B was upregulated, IL-15 was expressed by muscle cells, CD68\(^+\) macrophages as well as CD4\(^+\) T cells, and \(CD8^+NKG2D^+\) cells were frequently detected within inflammatory infiltrates arguing for a local signaling circuit in the inflammatory muscle milieu. In conclusion, the NKG2D - IL-15 signaling pathway contributes to progressive muscle destruction in IIM potentially opening new therapeutic avenues.
B cells have only recently begun to attract attention in the immunopathology of multiple sclerosis (MS). Suitable markers for the prediction of treatment success with immunomodulatory drugs are still missing. Here we evaluated the B cell response to brain antigens in n = 34 relapsing-remitting MS (RRMS) patients treated with glatiramer acetate (GA) using the enzyme-linked immunospot technique (ELISPOT). Our data demonstrate that patients can be subdivided into responders that show brain-specific B cell reactivity in the blood and patients without this reactivity. Only in patients that classified as B cell responders, there was a significant positive correlation between treatment duration and the time since last relapse in our study. This correlation was GA-specific because it was absent in a control group that consisted of interferon-\(\beta\) (IFN-\(\beta\))-treated RRMS patients (n = 23). These data suggest that GA has an effect on brain-reactive B cells in a subset of patients and that only this subset benefits from treatment. The detection of brain-reactive B cells is likely to be a suitable tool to identify drug responders.
CD4 T-Zellen wurden lange als die vor allem pathogen wirkenden Immunzellen bei chronisch entzündlichen ZNS-Erkrankungen angesehen. Wir untersuchten die Wirkung von CD8 T-Zellen in der EAE (exp. autoimmunen Enzephalomyelitis = Tiermodell der Multiplen Sklerose) anhand von beta2-Mikroglobulin knock-out Mäusen (fehlende CD8 T-Zellen). Ergebnis: im Vergleich zu den Wildtyptieren zeigten die Knock-outs eine signifikant stärker ausgeprägte Erkrankung bei der mit verschiedenen Antigenen (MOG, MBP) induzierten EAE mit erhöhter Mortalität. Histologisch fnad sich eine vermehrte Infiltration von Makrophagen und Mikroglia. Die Demyelinisierung war bei den Knock-outs stärker ausgeprägt, ebenso auch der axonale Schaden. Das Fehlen von funktionellen CD8 T-Zellen führte demnach zu einer Verstärkung der autoimmunen Gewebsschädigung im ZNS.
Am Universitätsklinikum Würzburg wurden zwischen 2006-2015 447 Fälle einer akuten erregerbedingten Meningoenzephalitis in den Kliniken der Neurologie, Kinderklinik, Neurochirurgie und Psychiatrie behandelt. Es konnten sowohl Fälle durch Bakterien als auch Fälle durch Viren, Parasiten und Pilze gesichert werden. Diese Arbeit beschreibt die lokale Epidemiologie akuter erregerbedingter Meningoenzephalitiden.
Abciximab wurde, in Phase II-Studien, in der Behandlung der akuten cerebralen Ischämie erprobt und es erscheint bisher sicher und effektiv. Obwohl die Effektivität in der Abciximab in Acute Ischemic Stroke Studie nicht prospektiv untersucht wurde, ist jedoch ein Trend zu einem verbessertem Outcome zu beobachten. In unserer Untersuchung wurden 65 Patienten mit cerebralen Ischämien in verschiedenen Gefäßterritorien mit Abciximab behandelt. Die Patienten zeigten entweder Zeichen und Symptome einer Crescendo-TIA, eines progressive stroke außerhalb des "3-Stunden-Zeitfensters" für eine Thrombolyse oder eine erneute Verschlechterung nach zunächst erfolgreicher Thrombolyse. Alle Patienten wurden anhand der modified Rankin Scale (mRS) zum Zeitpunkt des Eintreffens in der Klinik und am Tag der Entlassung von der Stroke Unit untersucht. Ergebnisse: 88% der Patienten (57/65) verbesserten sich um im Mittel 2,3 Punkte bezogen auf die mRS. 71% der Patienten (46/65) erreichten eine mRS von 0-2. Es wurden keine fatalen oder symptomatischen intracerebralen Blutungen beobachtet. Fazit: In dieser nicht-randomisierten Untersuchung über die Akuttherapie der cerebralen Ischämie, zeigte die Behandlung mit Abciximab alleine oder in Kombination mit Thrombolyse eine klinische Verbesserung in 88% der Patienten. Blutungskomplikationen waren selten und nie schwerwiegend. Diese Ergebnisse unterstützen die Forderung nach weiteren placebokontrollierten, randomisierten Studien von Abciximab in der Akutbehandlung der cerebralen Ischämie.
Rag1\(^{−/−}\) mice, lacking functional B and T cells, have been extensively used as an adoptive transfer model to evaluate neuroinflammation in stroke research. However, it remains unknown whether natural killer (NK) cell development and functions are altered in Rag1\(^{−/−}\) mice as well. This connection has been rarely discussed in previous studies but might have important implications for data interpretation. In contrast, the NOD-Rag1\(^{null}\)IL2rg\(^{null}\) (NRG) mouse model is devoid of NK cells and might therefore eliminate this potential shortcoming. Here, we compare immune-cell frequencies as well as phenotype and effector functions of NK cells in Rag1\(^{−/−}\) and wildtype (WT) mice using flow cytometry and functional in vitro assays. Further, we investigate the effect of Rag1\(^{−/−}\) NK cells in the transient middle cerebral artery occlusion (tMCAO) model using antibody-mediated depletion of NK cells and adoptive transfer to NRG mice in vivo. NK cells in Rag1\(^{−/−}\) were comparable in number and function to those in WT mice. Rag1\(^{−/−}\) mice treated with an anti-NK1.1 antibody developed significantly smaller infarctions and improved behavioral scores. Correspondingly, NRG mice supplemented with NK cells were more susceptible to tMCAO, developing infarctions and neurological deficits similar to Rag1−/− controls. Our results indicate that NK cells from Rag1−/− mice are fully functional and should therefore be considered in the interpretation of immune-cell transfer models in experimental stroke. Fortunately, we identified the NRG mice, as a potentially better-suited transfer model to characterize individual cell subset-mediated neuroinflammation in stroke.
Pathomechanismen von Antikörpern gegen Aquaporin 4 in einem Tiermodell für die Neuromyelitis Optica
(2013)
Die Neuromyelitis Optica (NMO) ist eine schwerwiegende autoimmune Erkrankung des zentralen Nervensystems (ZNS), die mit rezidivierenden Optikusneuritiden und Querschnittsmyelitiden einhergeht. Als serologischer Biomarker wurden Autoantikörper gegen Aquaporin 4 (anti-AQP4-AK) identifiziert. Mit Hilfe eines passiv-Transfer Rattenmodelles mit implantierten intrathekalen Kathetern wurden aufgereinigte IgG Fraktionen (NMO-IgG) von Plasmapheresematerial anti-AQP4-AK positiver NMO Patienten verabreicht. Zum Nachweis der Antigen-Spezifität wurden in weiteren Versuchsgruppen rekombinante IgG-AK gegen AQP4 appliziert. Die repetitive Injektion von NMO-IgG oder anti-AQP4-AK führte zu einer signifikanten klinischen Verschlechterung und einer reduzierten motorischen Leistungsfähigkeit der Versuchstiere im Vergleich zu Kontrollen. Mittels Magnetresonanztomographie konnten exemplarisch Kontrastmittel-aufnehmende Läsionsareale im Rückenmark der Versuchstiere im Bereich der Katheterspitze detektiert werden. Histopathologisch zeigte sich in diesen Läsionsbereichen eine Anreicherung von intrathekal applizierten humanen IgG, ein Verlust der Expression von AQP4 und des Glutamattransporters EAAT2. Im Gegensatz zu der bisher bekannten, Komplement-induzierten Gewebedestruktion bei NMO-Patienten mit entzündlichen Läsionen wurde hier keine Depletion von Astrozyten oder Komplementaktivierung beobachtet. Stattdessen kam es in den hier beschriebenen Arealen mit IgG-Ablagerung zu einer Hypertrophie und Vermehrung der GFAP-positiven Astrozyten. Die Ergebnisse lassen auf eine pathophysiologisch relevante, intrinsische und komplement-unabhängige Wirkung von anti-AQP4-AK schließen.
Background
Fabry disease (FD) is an X‐linked lysosomal storage and multi‐system disorder due to mutations in the α‐galactosidase A (α‐GalA) gene. We investigated the impact of individual amino acid exchanges in the α‐GalA 3D‐structure on the clinical phenotype of FD patients.
Patients and methods
We enrolled 80 adult FD patients with α‐GalA missense mutations and stratified them into three groups based on the amino acid exchange location in the α‐GalA 3D‐structure: patients with active site mutations, buried mutations and other mutations. Patient subgroups were deep phenotyped for clinical and laboratory parameters and FD‐specific treatment.
Results
Patients with active site or buried mutations showed a severe phenotype with multi‐organ involvement and early disease manifestation. Patients with other mutations had a milder phenotype with less organ impairment and later disease onset. α‐GalA activity was lower in patients with active site or buried mutations than in those with other mutations (P < 0.01 in men; P < 0.05 in women) whilst lyso‐Gb3 levels were higher (P < 0.01 in men; <0.05 in women).
Conclusions
The type of amino acid exchange location in the α‐GalA 3D‐structure determines disease severity and temporal course of symptom onset. Patient stratification using this parameter may become a useful tool in the management of FD patients.
Die Rolle thromboinflammatorischer Vorgänge in der Pathogenese des ischämischen Schlaganfalls ist in den letzten Jahren immer mehr in den wissenschaftlichen Fokus gerückt. Plasmakallikrein (PK) spaltet von hochmolekularem Kininogen (KNG) Bradykinin (BK) ab und ist dadurch Ausgangspunkt des proinflammatorischen Kallikrein-Kinin-Systems (KKS). Zum anderen kann es den Gerinnungsfaktor XII (FXII) aktivieren, den Ausgangspunkt der intrinsischen Gerinnungskaskade. Es initiiert also sowohl inflammatorische als auch thrombotische Vorgänge. Daher wurde in dieser Arbeit der Effekt einer Blockade PKs in einem Mausmodell der fokalen zerebralen Ischämie untersucht – und zwar sowohl durch genetische Depletion als auch durch pharmakologische Blockade. Beide Ansätze brachten einen nachhaltigen protektiven Effekt in Bezug auf Infarktgrößen und funktionelles Outcome, ohne die Blutungsgefahr zu erhöhen.
Both nerve injury and complex regional pain syndrome (CRPS) can result in chronic pain. In traumatic neuropathy, the blood nerve barrier (BNB) shielding the nerve is impaired—partly due to dysregulated microRNAs (miRNAs). Upregulation of microRNA-21-5p (miR-21) has previously been documented in neuropathic pain, predominantly due to its proinflammatory features. However, little is known about other functions. Here, we characterized miR-21 in neuropathic pain and its impact on the BNB in a human-murine back translational approach. MiR-21 expression was elevated in plasma of patients with CRPS as well as in nerves of mice after transient and persistent nerve injury. Mice presented with BNB leakage, as well as loss of claudin-1 in both injured and spared nerves. Moreover, the putative miR-21 target RECK was decreased and downstream Mmp9 upregulated, as was Tgfb. In vitro experiments in human epithelial cells confirmed a downregulation of CLDN1 by miR-21 mimics via inhibition of the RECK/MMP9 pathway but not TGFB. Perineurial miR-21 mimic application in mice elicited mechanical hypersensitivity, while local inhibition of miR-21 after nerve injury reversed it. In summary, the data support a novel role for miR-21, independent of prior inflammation, in elicitation of pain and impairment of the BNB via RECK/MMP9.
Neuropathie und Motorik
(1990)
No abstract available
Objective
Impairment of glycinergic neurotransmission leads to complex movement and behavioral disorders. Patients harboring glycine receptor autoantibodies suffer from stiff‐person syndrome or its severe variant progressive encephalomyelitis with rigidity and myoclonus. Enhanced receptor internalization was proposed as the common molecular mechanism upon autoantibody binding. Although functional impairment of glycine receptors following autoantibody binding has recently been investigated, it is still incompletely understood.
Methods
A cell‐based assay was used for positive sample evaluation. Glycine receptor function was assessed by electrophysiological recordings and radioligand binding assays. The in vivo passive transfer of patient autoantibodies was done using the zebrafish animal model.
Results
Glycine receptor function as assessed by glycine dose–response curves showed significantly decreased glycine potency in the presence of patient sera. Upon binding of autoantibodies from 2 patients, a decreased fraction of desensitized receptors was observed, whereas closing of the ion channel remained fast. The glycine receptor N‐terminal residues \(^{29}\)A to \(^{62}\)G were mapped as a common epitope of glycine receptor autoantibodies. An in vivo transfer into the zebrafish animal model generated a phenotype with disturbed escape behavior accompanied by a reduced number of glycine receptor clusters in the spinal cord of affected animals.
Interpretation
Autoantibodies against the extracellular domain mediate alterations of glycine receptor physiology. Moreover, our in vivo data demonstrate that the autoantibodies are a direct cause of the disease, because the transfer of human glycine receptor autoantibodies to zebrafish larvae generated impaired escape behavior in the animal model compatible with abnormal startle response in stiff‐person syndrome or progressive encephalitis with rigidity and myoclonus patients.
Glycine receptor (GlyR) autoantibodies are associated with stiff-person syndrome and the life-threatening progressive encephalomyelitis with rigidity and myoclonus in children and adults. Patient histories show variability in symptoms and responses to therapeutic treatments. A better understanding of the autoantibody pathology is required to develop improved therapeutic strategies. So far, the underlying molecular pathomechanisms include enhanced receptor internalization and direct receptor blocking altering GlyR function. A common epitope of autoantibodies against the GlyRα1 has been previously defined to residues 1A-33G at the N-terminus of the mature GlyR extracellular domain. However, if other autoantibody binding sites exist or additional GlyR residues are involved in autoantibody binding is yet unknown. The present study investigates the importance of receptor glycosylation for binding of anti-GlyR autoantibodies. The glycine receptor α1 harbors only one glycosylation site at the amino acid residue asparagine 38 localized in close vicinity to the identified common autoantibody epitope. First, non-glycosylated GlyRs were characterized using protein biochemical approaches as well as electrophysiological recordings and molecular modeling. Molecular modeling of non-glycosylated GlyRα1 did not show major structural alterations. Moreover, non-glycosylation of the GlyRα1N38Q did not prevent the receptor from surface expression. At the functional level, the non-glycosylated GlyR demonstrated reduced glycine potency, but patient GlyR autoantibodies still bound to the surface-expressed non-glycosylated receptor protein in living cells. Efficient adsorption of GlyR autoantibodies from patient samples was possible by binding to native glycosylated and non-glycosylated GlyRα1 expressed in living not fixed transfected HEK293 cells. Binding of patient-derived GlyR autoantibodies to the non-glycosylated GlyRα1 offered the possibility to use purified non-glycosylated GlyR extracellular domain constructs coated on ELISA plates and use them as a fast screening readout for the presence of GlyR autoantibodies in patient serum samples. Following successful adsorption of patient autoantibodies by GlyR ECDs, binding to primary motoneurons and transfected cells was absent. Our results indicate that the glycine receptor autoantibody binding is independent of the receptor’s glycosylation state. Purified non-glycosylated receptor domains harbouring the autoantibody epitope thus provide, an additional reliable experimental tool besides binding to native receptors in cell-based assays for detection of autoantibody presence in patient sera.
Second hit hypothesis in dystonia: Dysfunctional cross talk between neuroplasticity and environment?
(2021)
One of the great mysteries in dystonia pathophysiology is the role of environmental factors in disease onset and development. Progress has been made in defining the genetic components of dystonic syndromes, still the mechanisms behind the discrepant relationship between dystonic genotype and phenotype remain largely unclear. Within this review, the preclinical and clinical evidence for environmental stressors as disease modifiers in dystonia pathogenesis are summarized and critically evaluated. The potential role of extragenetic factors is discussed in monogenic as well as adult-onset isolated dystonia. The available clinical evidence for a "second hit" is analyzed in light of the reduced penetrance of monogenic dystonic syndromes and put into context with evidence from animal and cellular models. The contradictory studies on adult-onset dystonia are discussed in detail and backed up by evidence from animal models. Taken together, there is clear evidence of a gene-environment interaction in dystonia, which should be considered in the continued quest to unravel dystonia pathophysiology.
The pathogenesis of Parkinson's disease (PD) is closely interwoven with the process of aging. Moreover, increasing evidence from human postmortem studies and from animal models for PD point towards inflammation as an additional factor in disease development. We here assessed the impact of aging and inflammation on dopaminergic neurodegeneration in the hm\(^{2}\)α-SYN-39 mouse model of PD that carries the human, A30P/A53T double-mutated α-synuclein gene. At 2–3 months of age, no significant differences were observed comparing dopaminergic neuron numbers of the substantia nigra (SN) pars compacta of hm\(^{2}\)α-SYN-39 mice with wildtype controls. At an age of 16–17 months, however, hm\(^{2}\)α-SYN-39 mice revealed a significant loss of dopaminergic SN neurons, of dopaminergic terminals in the striatum as well as a reduction of striatal dopamine levels compared to young, 2–3 months transgenic mice and compared to 16–17 months old wildtype littermates. A significant age-related correlation of infiltrating CD4+ and CD8\(^{+}\) T cell numbers with dopaminergic terminal loss of the striatum was found in hm\(^{2}\)α-SYN-39 mice, but not in wildtype controls. In the striatum of 16–17 months old wildtype mice a slightly elevated CD8\(^{+}\) T cell count and CD11b\(^{+}\) microglia cell count was observed compared to younger aged mice. Additional analyses of neuroinflammation in the nigrostriatal tract of wildtype mice did not yield any significant age-dependent changes of CD4\(^{+}\), CD8\(^{+}\) T cell and B220\(^{+}\) B cell numbers, respectively. In contrast, a significant age-dependent increase of CD8\(^{+}\) T cells, GFAP\(^{+}\) astrocytes as well as a pronounced increase of CD11b+ microglia numbers were observed in the SN of hm\(^{2}\)α-SYN-39 mice pointing towards a neuroinflammatory processes in this genetic mouse model for PD. The findings in the hm\(^{2}\)α-SYN-39 mouse model strengthen the evidence that T cell and glial cell responses are involved in the age-related neurodegeneration in PD. The slow and age-dependent progression of neurodegeneration and neuroinflammation in the hm\(^{2}\)α-SYN-39 PD rodent model underlines its translational value and makes it suitable for studying anti-inflammatory therapies.