TY - JOUR A1 - Odorfer, Thorsten M. A1 - Volkmann, Jens T1 - Deep brain stimulation for focal or segmental craniocervical dystonia in patients who have failed botulinum neurotoxin therapy - a narrative review of the literature JF - Toxins N2 - (1) Background: The first-line treatment for patients with focal or segmental dystonia with a craniocervical distribution is still the intramuscular injection of botulinum neurotoxin (BoNT). However, some patients experience primary or secondary treatment failure from this potential immunogenic therapy. Deep brain stimulation (DBS) may then be used as a backup strategy in this situation. (2) Methods: Here, we reviewed the current study literature to answer a specific question regarding the efficacy and safety of the use of DBS, particularly for cervical dystonia (CD) and Meige syndrome (MS) in patients with documented treatment failure under BoNT. (3) Results: There are only two studies with the highest level of evidence in this area. Despite this clear limitation, in the context of the narrowly defined research question of this paper, it is possible to report 161 patients with CD or MS who were included in studies that were able to show a statistically significant reduction in dystonic symptoms using DBS. Safety and tolerability data appeared adequate. However, much of the information is based on retrospective observations. (4) Conclusions: The evidence base in this area is in need of further scientific investigation. Most importantly, more randomized, controlled and double-blind trials are needed, possibly including a head-to-head comparison of DBS and BoNT. KW - cervical dystonia KW - Meige syndrome KW - deep brain stimulation KW - internal globus pallidus KW - subthalamic nucleus KW - botulinum neurotoxin KW - medication therapy failure KW - symptom control KW - safety and tolerability Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-357707 SN - 2072-6651 VL - 15 IS - 10 ER - TY - THES A1 - Behne, Robert Stefan Friedrich T1 - Development Of A Human iPSC-Derived Cortical Neuron Model Of Adaptor- Protein-Complex-4-Deficiency T1 - Entwicklung eines humanen iPSC-abgeleiteten kortikalen Neuronenmodells der Adaptor-Protein-Komplex-4-Defizienz N2 - Adaptor-protein-4-deficiency (AP-4-deficiency) is an autosomal-recessive childhood- onset form of complicated hereditary spastic paraplegia (HSP) caused by bi-allelic loss- of-function mutations in one of the four subunits of the AP-4-complex. These four conditions are named SPG47 (AP4B1, OMIM #614066), SPG50 (AP4M1, OMIM #612936), SPG51 (AP4E1, OMIM #613744) and SPG52 (AP4S1, OMIM #614067), respectively and all present with global developmental delay, progressive spasticity and seizures. Imaging features include a thinning of the corpus callosum, ventriculomegaly and white matter changes. AP-4 is a highly conserved heterotetrameric complex, which is responsible for polarized sorting of transmembrane cargo including the autophagy- related protein 9 A (ATG9A). Loss of any of the four subunits leads to an instable complex and defective sorting of AP-4-cargo. ATG9A is implicated in autophagosome formation and neurite outgrowth. It is missorted in AP-4-deficient cells and CNS-specific knockout of Atg9a in mice results in a phenotype reminiscent of AP-4-deficiency. However, the AP-4-related cellular phenotypes including ATG9A missorting have not been investigated in human neurons. Thus, the aim of this study is to provide the first human induced pluripotent stem cell- derived (iPSC) cortical neuron model of AP-4-deficiency to explore AP-4-related phenotypes in preparation for a high-content screening. Under the hypothesis that AP-4- deficiency leads to ATG9A missorting, elevated ATG9A levels, impaired autophagy and neurite outgrowth in human iPSC-derived cortical neurons, in vitro biochemical and imaging assays including automated high-content imaging and analysis were applied. First, these phenotypes were investigated in fibroblasts from three patients with compound heterozygous mutations in the AP4B1 gene and their sex-matched parental controls. The same cell lines were used to generate iPSCs and differentiate them into human excitatory cortical neurons. This work shows that ATG9A is accumulating in the trans-Golgi-network in AP-4- deficient human fibroblasts and that ATG9A levels are increased compared to parental controls and wild type cells suggesting a compensatory mechanism. Protein levels of the AP4E1-subunit were used as a surrogate marker for the AP-4-complex and were decreased in AP-4-deficient fibroblasts with co-immunoprecipitation confirming the instability of the complex. Lentiviral re-expression of the AP4B1-subunit rescues this corroborating the fact that a stable AP-4-complex is needed for ATG9A trafficking. Surprisingly, autophagic flux was present in AP-4-deficient fibroblasts under nutrient- rich and starvation conditions. These phenotypic markers were evaluated in iPSC-derived cortical neurons and here, a robust accumulation of ATG9A in the juxtanuclear area was seen together with elevated ATG9A protein levels. Strikingly, assessment of autophagy markers under nutrient-rich conditions showed alterations in AP-4-deficient iPSC- derived cortical neurons indicating dysfunctional autophagosome formation. These findings point towards a neuron-specific impairment of autophagy and need further investigation. Adding to the range of AP-4-related phenotypes, neurite outgrowth and branching are impaired in AP-4-deficient iPSC-derived cortical neurons as early as 24h after plating and together with recent studies point towards a distinct role of ATG9A in neurodevelopment independent of autophagy. Together, this work provides the first patient-derived neuron model of AP-4-deficiency and shows that ATG9A is sorted in an AP-4-dependent manner. It establishes ATG9A- related phenotypes and impaired neurite outgrowth as robust markers for a high-content screening. This disease model holds the promise of providing a platform to further study AP-4-deficiency and to search for novel therapeutic targets. N2 - Die Adaptor-Protein-4-Defizienz (AP-4-Defizienz) ist eine autosomal-rezessiv vererbte, komplizierte Form hereditären spastischen Paraplegien (HSPs), welche durch biallelische Mutationen in einer der vier Untereinheiten des AP-4-Gens verursacht wird. Die vier resultierenden Erkrankungen werden SPG47 (AP4B1, OMIM #614066), SPG50 (AP4M1, OMIM #612936), SPG51 (AP4E1, OMIM #613744) und SPG52 (AP4S1, OMIM #614067) genannt und präsentieren sich mit globaler Entwicklungsverzögerung im frühen Säuglingsalter, progressiver Spastik sowie Krampfanfällen. Radiologische Zeichen beinhalten ein verschmälertes Corpus callosum, Ventrikulomegalie und Veränderungen der weißen Substanz. AP-4 ist ein hoch konservierter, heterotetramerer Proteinkomplex, welcher für die polarisierte Verteilung von Transmembranproteinen einschließlich des „autophagy-related protein 9 A“ (ATG9A) zuständig ist. Eine „lossof- function“ Mutation in einer der vier Untereinheiten führt zur Instabilität des gesamten Komplexes und zur Beeinträchtigung des AP-4-abhängigen Proteintransportes. ATG9A ist notwendig für die Bildung von Autophagosomen und das Neuritenwachstum. In AP- 4-defizienten Zellen ist der ATG9A-Transport beeinträchtigt und ein ZNS-spezifischer Knockout von ATG9A erzeugt in Mäusen einen Phenotyp, der große Überschneidungen mit dem der AP-4-Defizienz aufweist. Bisher sind diese AP-4-abhängigen zellulären Phenotypen nicht in humanen Neuronen untersucht worden. Daher ist die Entwicklung des ersten humanen aus induzierten pluripotenten Stammzellen (iPSC) abgeleiteten kortikalen Neuronenmodells der AP-4-Defizienz und die Identifikation AP-4-abhängiger Phenotypen für die Anwendung in einem Hochdurchsatzscreening das Ziel dieser Arbeit. Unter der Hypothese, dass AP-4- Defizienz in humanen iPSC-abgeleiteten kortikalen Neuronen zu ATG9A Fehltransport, erhöhtem ATG9A Protein, beeinträchtigter Autophagie und vermindertem Neuritenwachstum führt, wurden biochemische und automatisierte, Mikroskopie-basierte in vitro Assays entwickelt. Zunächst wurden primäre humane Fibroblasten von Patienten mit compound-heterozygoten Mutationen im AB4B1-Gen und geschlechtsangepasste, elterliche Kontrollzellen auf die genannten Phenotypen hin untersucht. Dieselben Zelllinien wurden anschließend für die Generierung von iPSCs und die Differenzierung in exzitatorische kortikale Neurone verwendet. 90 Diese Arbeit zeigt, dass ATG9A in AP-4-defizienten Fibroblasten im Bereich des Trans- Golgi-Netzwerkes akkumuliert und das ATG9A Proteinlevel erhöht sind, was auf eine kompensatorische Hochregulierung hindeutet. Die Proteinlevel der AP4E1-Untereinheit wurden als Surrogatparameter für einen stabilen AP-4-Komplex genutzt und waren in AP-4-defizienten Fibroblasten vermindert. In der Co-Immunpräzipitation konnte eine Instabilität des AP-4-Komplexes bestätigt werden. Die lentivirale Reexpression der AB4B1-Untereinheit führte zu einer Wiederherstellung des Wildtyp-Phänotyps und zeigt damit, dass ein stabiler AP-4-Komplex für die korrekte Verteilung von ATG9A notwendig ist. Trotz der bekannten Beteiligung von ATG9A an der Bildung von Autophagosomen, zeigte sich eine intakte Autophagosomenbildung und Degradation in AP-4-defizienten Fibroblasten. Die beschriebenen phänotypischen Marker wurden in iPSC-abgeleiteten kortikalen Neuronen evaluiert und auch hier konnten eine juxtanukleäre Akkumulation von ATG9A sowie erhöhte ATG9A Proteinlevel demonstriert werden. Im Gegensatz zu den Fibroblasten, zeigten AP-4-defiziente iPSCabgeleitete kortikale Neurone bereits unter nährstoffreichen Bedingungen eine Konstellation von Autophagiemarkern, die auf eine gestörte Autophagosomenbildung und damit auf eine Neuronen-spezifische Störung von Autophagie hindeuten und der weiteren Untersuchung bedürfen. Zusätzlich fand sich bei AP-4-defizienten kortikalen Neuronen bereits in den ersten 24 Stunden im Inkubator eine Störung des Neuritenwachstums und der -verzweigung, welche in Zusammenschau mit kürzlich erschienenen Arbeiten auf eine zusätzliche Autophagie-unabhängige Funktion von ATG9A hinweisen. Diese Arbeit stellt zusammenfassend die Entwicklung des ersten Patienten-abgeleiteten Neuronenmodells der AP-4-Defizienz dar und zeigt das ATG9A in einer AP-4-abhänigen Weise in der Zelle verteilt wird. Weiterhin etabliert diese Arbeit ATG9A-abhängige zelluläre Phänotypen und gestörtes Neuritenwachstum als robuste phänotypische Marker für ein High-Content Screening. Dieses zelluläre Krankheitsmodell trägt das Potential als Plattform für weitere Studien der AP-4-Defizienz zu dienen und damit neue therapeutische Möglichkeiten aufzudecken. KW - Adaptorproteine KW - hereditary spastic paraplegia KW - iPSC Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-351390 ER - TY - JOUR A1 - Hiew, Shawn A1 - Eibeck, Leila A1 - Nguemeni, Carine A1 - Zeller, Daniel T1 - The influence of age and physical activity on locomotor adaptation JF - Brain Sciences N2 - Background: Aging increases individual susceptibility to falls and injuries, suggesting poorer adaptation of balance responses to perturbation during locomotion, which can be measured with the locomotor adaptation task (LAT). However, it is unclear how aging and lifestyle factors affect these responses during walking. Hence, the present study investigates the relationship between balance and lifestyle factors during the LAT in healthy individuals across the adult lifespan using a correlational design. Methods: Thirty participants aged 20–78 years performed an LAT on a split-belt treadmill (SBT). We evaluated the magnitude and rate of adaptation and deadaptation during the LAT. Participants reported their lifelong physical and cognitive activity. Results: Age positively correlated with gait-line length asymmetry at the late post-adaptation phase (p = 0.007). These age-related effects were mediated by recent physical activity levels (p = 0.040). Conclusion: Our results confirm that locomotor adaptive responses are preserved in aging, but the ability to deadapt newly learnt balance responses is compromised with age. Physical activity mediates these age-related effects. Therefore, gait symmetry post-adaptation could effectively measure the risk of falling, and maintaining physical activity could protect against declines in balance. KW - locomotor adaptation KW - walking KW - physical activity KW - exercise KW - aging KW - balance Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-362478 SN - 2076-3425 VL - 13 IS - 9 ER - TY - JOUR A1 - Bohmann, Ferdinand O. A1 - Kurka, Natalia A1 - du Mesnil de Rochemont, Richard A1 - Gruber, Katharina A1 - Guenther, Joachim A1 - Rostek, Peter A1 - Rai, Heike A1 - Zickler, Philipp A1 - Ertl, Michael A1 - Berlis, Ansgar A1 - Poli, Sven A1 - Mengel, Annerose A1 - Ringleb, Peter A1 - Nagel, Simon A1 - Pfaff, Johannes A1 - Wollenweber, Frank A. A1 - Kellert, Lars A1 - Herzberg, Moriz A1 - Koehler, Luzie A1 - Haeusler, Karl Georg A1 - Alegiani, Anna A1 - Schubert, Charlotte A1 - Brekenfeld, Caspar A1 - Doppler, Christopher E. J. A1 - Onur, Oezguer A. A1 - Kabbasch, Christoph A1 - Manser, Tanja A1 - Pfeilschifter, Waltraud T1 - Simulation-based training of the rapid evaluation and management of acute stroke (STREAM) — a prospective single-arm multicenter trial JF - Frontiers in Neurology N2 - Introduction: Acute stroke care delivered by interdisciplinary teams is time-sensitive. Simulation-based team training is a promising tool to improve team performance in medical operations. It has the potential to improve process times, team communication, patient safety, and staff satisfaction. We aim to assess whether a multi-level approach consisting of a stringent workflow revision based on peer-to-peer review and 2–3 one-day in situ simulation trainings can improve acute stroke care processing times in high volume neurocenters within a 6 months period. Methods and Analysis: The trial is being carried out in a pre-test-post-test design at 7 tertiary care university hospital neurocenters in Germany. The intervention is directed at the interdisciplinary multiprofessional stroke teams. Before and after the intervention, process times of all direct-to-center stroke patients receiving IV thrombolysis (IVT) and/or endovascular therapy (EVT) will be recorded. The primary outcome measure will be the “door-to-needle” time of all consecutive stroke patients directly admitted to the neurocenters who receive IVT. Secondary outcome measures will be intervention-related process times of the fraction of patients undergoing EVT and effects on team communication, perceived patient safety, and staff satisfaction via a staff questionnaire. Interventions: We are applying a multi-level intervention in cooperation with three “STREAM multipliers” from each center. First step is a central meeting of the multipliers at the sponsor's institution with the purposes of algorithm review in a peer-to-peer process that is recorded in a protocol and an introduction to the principles of simulation training and debriefing as well as crew resource management and team communication. Thereafter, the multipliers cooperate with the stroke team trainers from the sponsor's institution to plan and execute 2–3 one-day simulation courses in situ in the emergency department and CT room of the trial centers whereupon they receive teaching materials to perpetuate the trainings. Clinical Trial Registration: STREAM is a registered trial at https://clinicaltrials.gov/ct2/show/NCT03228251. KW - CRM KW - thrombolysis (tPA) KW - stroke KW - emergency care KW - simulation training Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-369239 SN - 1664-2295 VL - 10 ER - TY - JOUR A1 - Bolzoni, Francesco A1 - Esposti, Roberto A1 - Marchese, Silvia M. A1 - Pozzi, Nicoló G. A1 - Ramirez-Pasos, Uri E. A1 - Isaias, Ioannis U. A1 - Cavallari, Paolo T1 - Disrupt of intra-limb APA pattern in parkinsonian patients performing index-finger flexion JF - Frontiers in Physiology N2 - Voluntary movements induce postural perturbations which are counteracted by anticipatory postural adjustments (APAs). These actions are known to build up long fixation chains toward available support points (inter-limb APAs), so as to grant whole body equilibrium. Moreover, recent studies highlighted that APAs also build-up short fixation chains, within the same limb where a distal segment is moved (intra-limb APAs), aimed at stabilizing the proximal segments. The neural structures generating intra-limb APAs still need investigations; the present study aims to compare focal movement kinematics and intra-limb APA latencies and pattern between healthy subjects and parkinsonian patients, assuming the latter as a model of basal ganglia dysfunction. Intra-limb APAs that stabilize the arm when the index-finger is briskly flexed were recorded in 13 parkinsonian patients and in 10 age-matched healthy subjects. Index-finger movement was smaller in parkinsonian patients vs. healthy subjects (p = 0.01) and more delayed with respect to the onset of the prime mover flexor digitorum superficialis (FDS, p < 0.0001). In agreement with the literature, in all healthy subjects the FDS activation was preceded by an inhibitory intra-limb APA in biceps brachii (BB) and anterior deltoid (AD), and almost simultaneous to an excitatory intra-limb APA in triceps brachii (TB). In parkinsonian patients, no significant differences were found for TB and AD intra-limb APA timings, however only four patients showed an inhibitory intra-limb APA in BB, while other four did not show any BB intra-limb APAs and five actually developed a BB excitation. The frequency of occurrence of normal sign, lacking, and inverted BB APAs was different in healthy vs. parkinsonian participants (p = 0.0016). The observed alterations in index-finger kinematics and intra-limb APA pattern in parkinsonian patients suggest that basal ganglia, in addition to shaping the focal movement, may also contribute to intra-limb APA control. KW - intra-limb anticipatory postural adjustments KW - Parkinson disease KW - basal ganglia KW - motor control KW - human Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-369245 SN - 1664-042X VL - 9 ER - TY - JOUR A1 - Doppler, Kathrin A1 - Brockmann, Kathrin A1 - Sedghi, Annahita A1 - Wurster, Isabel A1 - Volkmann, Jens A1 - Oertel, Wolfgang H. A1 - Sommer, Claudia T1 - Dermal phospho-alpha-synuclein deposition in patients with Parkinson's disease and mutation of the glucocerebrosidase gene JF - Frontiers in Neurology N2 - Heterozygous mutations in the glucocerebrosidase gene (GBA1) represent the most common genetic risk factor for Parkinson's disease (PD) and are histopathologically associated with a widespread load of alpha-synuclein in the brain. Therefore, PD patients with GBA1 mutations are a cohort of high interest for clinical trials on disease-modifying therapies targeting alpha-synuclein. There is evidence that detection of phospho-alpha-synuclein (p-syn) in dermal nerve fibers might be a biomarker for the histopathological identification of PD patients even at premotor or very early stages of disease. It is so far unknown whether dermal p-syn deposition can also be found in PD patients with GBA1 mutations and may serve as a biomarker for PD in these patients. Skin biopsies of 10 PD patients with different GBA1 mutations (six N3705, three E326K, one L444P) were analyzed by double-immunofluorescence labeling with anti-p-syn and anti-protein gene product 9.5 (PGP9.5, axonal marker) to detect intraaxonal p-syn deposition. Four biopsy sites (distal, proximal leg, paravertebral Th10, and C7) per patient were studied. P-syn was found in six patients (three N370S, three E326K). P-syn deposition was mainly detected in autonomic nerve fibers, but also in somatosensory fibers and was not restricted to a certain GBA1 mutation. In summary, dermal p-syn in PD patients with GBA1 mutations seems to offer a similar distribution and frequency as observed in patients without a known mutation. Skin biopsy may be suitable to study p-syn deposition in these patients or even to identify premotor patients with GBA1 mutations. KW - Parkinson's disease KW - glucocerebrosidase mutation KW - alpha-synuclein KW - skin biopsy KW - biomarker Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-222828 VL - 9 ER - TY - THES A1 - Knorr, Susanne T1 - Pathophysiology of early-onset isolated dystonia in a DYT-TOR1A rat model with trauma-induced dystonia-like movements T1 - Pathophysiologie der früh beginnenden, isolierten Dystonie in einem DYT-TOR1A Rattenmodell mit Trauma-induzierten Dystonie-ähnlichen Bewegungen N2 - Early-onset torsion dystonia (DYT-TOR1A, DYT1) is an inherited hyperkinetic movement disorder caused by a mutation of the TOR1A gene encoding the torsinA protein. DYT-TOR1A is characterized as a network disorder of the central nervous system (CNS), including predominantly the cortico-basal ganglia-thalamo-cortical loop resulting in a severe generalized dystonic phenotype. The pathophysiology of DYTTOR1A is not fully understood. Molecular levels up to large-scale network levels of the CNS are suggested to be affected in the pathophysiology of DYT-TOR1A. The reduced penetrance of 30% - 40% indicates a gene-environmental interaction, hypothesized as “second hit”. The lack of appropriate and phenotypic DYT-TOR1A animal models encouraged us to verify the “second hit” hypothesis through a unilateral peripheral nerve trauma of the sciatic nerve in a transgenic asymptomatic DYT-TOR1A rat model (∆ETorA), overexpressing the human mutated torsinA protein. In a multiscale approach, this animal model was characterized phenotypically and pathophysiologically. Nerve-injured ∆ETorA rats revealed dystonia-like movements (DLM) with a partially generalized phenotype. A physiomarker of human dystonia, describing increased theta oscillation in the globus pallidus internus (GPi), was found in the entopeduncular nucleus (EP), the rodent equivalent to the human GPi, of nerve-injured ∆ETorA rats. Altered oscillation patterns were also observed in the primary motor cortex. Highfrequency stimulation (HFS) of the EP reduced DLM and modulated altered oscillatory activity in the EP and primary motor cortex in nerve-injured ∆ETorA rats. Moreover, the dopaminergic system in ∆ETorA rats demonstrated a significant increased striatal dopamine release and dopamine turnover. Whole transcriptome analysis revealed differentially expressed genes of the circadian clock and the energy metabolism, thereby pointing towards novel, putative pathways in the pathophysiology of DYTTOR1A dystonia. In summary, peripheral nerve trauma can trigger DLM in genetically predisposed asymptomatic ΔETorA rats leading to neurobiological alteration in the central motor network on multiple levels and thereby supporting the “second hit” hypothesis. This novel symptomatic DYT-TOR1A rat model, based on a DYT-TOR1A genetic background, may prove as a valuable chance for DYT-TOR1A dystonia, to further investigate the pathomechanism in more detail and to establish new treatment strategies. N2 - Früh beginnende Torsionsdystonie (DYT-TOR1A, DYT1) ist eine genetisch bedingte hyperkinetische Bewegungsstörung, die aufgrund einer Mutation im TOR1A Gen verursacht wird, welches für das TorsinA-Protein codiert. DYT-TOR1A wird als zentrale Netzwerkstörung bezeichnet und betrifft hauptsächlich die kortiko-striatothalamo-kortikale Funktionsschleife, welches schließlich zu einem schweren generalisierten dystonen Phänotyp führt. Die Pathophysiologie von DYT-TOR1A ist nicht vollständig verstanden, man geht jedoch davon aus, dass Ebenen im Zentralnervensystem von molekularer Basis bis hin zu ganzen Netzwerken betroffen sind. Die reduzierte Penetranz von nur 30% bis 40% deutet auf eine Gen-UmweltInteraktion hin, im Sinne einer „2-Treffer-Hypothese“. Auch das Fehlen eines adäquaten DYT-TOR1A Tiermodelles hat uns dazu veranlasst, die „2-TrefferHypothese“ zu verifizieren, indem eine unilaterale periphere Quetschläsion des Nervus ischiadicus in einem transgenen, asymptomatischen DYT-TOR1A Rattenmodell (∆ETorA) durchgeführt wurde, welches das humane mutierte TorsinA-Protein überexprimiert. Das Tiermodell wurde phänotypisch und pathophysiologisch auf verschiedenen Analysenebenen charakterisiert. ∆ETorA Ratten mit Quetschläsion entwickelten Dystonie-ähnliche Bewegungen (DLM) mit teilweise generalisiertem Phänotyp. Erhöhte Theta-Oszillationen im Globus pallidus internus (GPi) sind bezeichnend für die humane Dystonie, welche auch im Nucleus entopeduncularis (EP), dem Äquivalent zum humanen GPi, von ∆ETorA Ratten mit Quetschläsion nachgewiesen wurden. Veränderte oszillatorische Muster wurden auch im primären Motorkortex gefunden. Hochfrequenz-Stimulation (HFS) des EP konnte das klinische Erscheinungsbild verbessern und hatte zudem auch einen modulatorischen Effekt auf die veränderte oszillatorische Aktivität des EP und des primären Motorcortex von ∆ETorA Ratten mit Quetschläsion. Auch das veränderte dopaminerge System erwies sich als ein pathologisches Merkmal in ∆ETorA Ratten. Es fand sich eine erhöhte striatale Ausschüttung von Dopamin und ein erhöhter Dopaminumsatz. In der Transkriptomanalyse kamen die zirkadiane Uhr und der Energiemetabolismus als weitere potentielle Signalwege in der Pathophysiologie der DYT-TOR1A Dystonie zum Vorschein. Zusammengefasst konnten DLM in genetisch prädisponierten, asymptomatischen ΔETorA Ratten mittels peripheren Nerventraumas ausgelöst werden, welches zu neurobiologischen Veränderungen in verschiedenen Ebenen des zentralen motorischen Netzwerk führte. Somit konnte die „2-Treffer-Hypothese“ bestätigt werden. Dieses neue symptomatische DYT-TOR1A Rattenmodell, fundiert auf der genetischen Grundlage von DYT-TOR1A, kann sich als wertvolle Möglichkeit für die DYT-TOR1A Dystonie erweisen, um Pathomechanismen genauer zu untersuchen und neue Behandlungsstrategien zu entwickeln. KW - Dystonie KW - Trauma KW - Ratte KW - Zentralnervensystem KW - DYT-TOR1A KW - early-onset isolated dystonia KW - gene-environmental interaction KW - peripheral nerve trauma KW - striatum KW - dopamine KW - deep brain stimulation Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206096 ER - TY - JOUR A1 - Estrada, Veronica A1 - Krebbers, Julia A1 - Voss, Christian A1 - Brazda, Nicole A1 - Blazyca, Heinrich A1 - Illgen, Jennifer A1 - Seide, Klaus A1 - Jürgens, Christian A1 - Müller, Jörg A1 - Martini, Rudolf A1 - Trieu, Hoc Khiem A1 - Müller, Hans Werner T1 - Low-pressure micro-mechanical re-adaptation device sustainably and effectively improves locomotor recovery from complete spinal cord injury JF - Communications Biology N2 - Traumatic spinal cord injuries result in impairment or even complete loss of motor, sensory and autonomic functions. Recovery after complete spinal cord injury is very limited even in animal models receiving elaborate combinatorial treatments. Recently, we described an implantable microsystem (microconnector) for low-pressure re-adaption of severed spinal stumps in rat. Here we investigate the long-term structural and functional outcome following microconnector implantation after complete spinal cord transection. Re-adaptation of spinal stumps supports formation of a tissue bridge, glial and vascular cell invasion, motor axon regeneration and myelination, resulting in partial recovery of motor-evoked potentials and a thus far unmet improvement of locomotor behaviour. The recovery lasts for at least 5 months. Despite a late partial decline, motor recovery remains significantly superior to controls. Our findings demonstrate that microsystem technology can foster long-lasting functional improvement after complete spinal injury, providing a new and effective tool for combinatorial therapies. KW - implants KW - preclinical research KW - spinal cord injury Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227357 VL - 1 ER - TY - JOUR A1 - Rolfes, Leoni A1 - Ruck, Tobias A1 - David, Christina A1 - Mencl, Stine A1 - Bock, Stefanie A1 - Schmidt, Mariella A1 - Strecker, Jan-Kolja A1 - Pfeuffer, Steffen A1 - Mecklenbeck, Andreas-Schulte A1 - Gross, Catharina A1 - Gliem, Michael A1 - Minnerup, Jens A1 - Schuhmann, Michael K. A1 - Kleinschnitz, Christoph A1 - Meuth, Sven G. T1 - Natural Killer Cells Are Present in Rag1\(^{−/−}\) Mice and Promote Tissue Damage During the Acute Phase of Ischemic Stroke JF - Translational Stroke Research N2 - 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. KW - infarction KW - middle cerebral artery occlusion KW - animal model KW - inflammation KW - natural killer cells Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-308924 SN - 1868-4483 SN - 1868-601X VL - 13 IS - 1 ER - TY - THES A1 - Wilhelmi, Kai Alexander T1 - Untersuchung von Veränderungen der myelinisierten Nervenfasern durch Entmarkung in Haut- und Nervenbiopsien von Patienten mit Polyneuropathie T1 - Examination of changes in myelinated nerve fibers due to demyelination in skin and nerve biopsies of patients with polyneuropathy N2 - In dieser Arbeit wurde durch das immunhistochemische Anfärben von nodalen (Natriumkanäle, NF), paranodalen (Caspr, NF) und internodalen (MBP) Proteinen der in Fingerhautbiopsien vorhanden Nervenfasern untersucht, ob eine Veränderung der typischen Verteilungsmuster dieser Proteine, eine demyelinisierende Polyneuropathie anzeigen kann. Dazu wurden am Universitätsklinikum Würzburg prospektiv 93 Polyneuropathie-Patienten und 25 Kontrollpersonen rekrutiert. Bei allen Patienten wurden Hautstanzbiospien am Zeigefinger durchgeführt. Bei 35 Patienten mit schweren oder unklaren Verläufen, wurden konsiliarisch Nervus suralis Biopsien durchgeführt. Aus einem Abschnitt von 27 dieser Biopsien, konnten im Rahmen dieser Arbeit Zupfnervenpräparate angefertigt und analog zu den Hautbiopsien ausgewertet werden. Aus der Routinediagnostik der Klinik flossen weiterhin die Ergebnisse der elektrophysiologischen Routinediagnostik und der Histologiebefund der Nervus suralis Biopsien in die Auswertung ein. Zusammenfassend kamen veränderte Natriumkanalbanden in Fingerhautbiopsien signifikant häufiger bei Patienten mit elektrophysiologisch als demyelinisierend befundeten Polyneuropathien, als bei Patienten mit elektrophysiologisch als axonal befundeten Polyneuropathien vor. Vielfach fanden sich veränderte Natriumkanalbanden inmitten para- und internodal unauffälliger Schnürringe und umgekehrt. Diese Beobachtung stützt die bereits in Vorarbeiten vorgeschlagene und in der aktuellen Leitlinie zur Diagnostik für Polyneuropathien aufgegriffene Entität der Paranodopathien (Uncini, Susuki, & Yuki, 2013). Möglich wäre, dass eine veränderte Verteilung der Natriumkanäle die schnelle Leitfähigkeit beeinträchtigen und somit trotz intakter Bemarkung, elektrophysiologisch das Bild einer demyelinisierenden Neuropathie vermittelt. Ein direkter Zusammenhang zwischen dem Auftreten von doppelten und verlängerten Natriumkanalbanden und einzelnen Messwerten (z.B. Amplituden und Latenzzeiten) fand sich nicht. Auch in den Zupfnervenpräparaten der Nervus suralis Biopsien, konnten o.g. Verteilungsmuster untersucht werden. Deren Vorkommen zeigte sich als unabhängig vom elektrophysiologischen und histologischen Befund, von der Ätiologie der PNP und von den gefundenen Veränderungen in den Hautbiopsien des betreffenden Patienten. N2 - Myelinated nerve fibers in finger skin biopsies and sural nerve biopsies were examined using immunohistochemical staining to detect changes in the typical distribution patterns of nodal (voltage-gated sodium channels, neurofascin 186), paranodal (Caspr, neurofascin 155), and internodal (myelin basic protein) proteins, aiming to identify indicators for demyelinating polyneuropathies. A total of 93 polyneuropathy patients and 25 control subjects were prospectively recruited from the University Hospital Würzburg. Skin punch biopsies were conducted on all patients and control subjects. Additionally, sural nerve biopsies were performed on a consultative basis for 35 patients. Teased nerve fiber preparations were made from a section of 27 of these biopsies and evaluated similarly to the skin biopsies. In summary, altered sodium channel bands in myelinated nerve fibers from finger skin biopsies were significantly more prevalent in patients electrophysiologically diagnosed with demyelinating polyneuropathies. However, there was no significant difference in the means of individual electrophysiological measurements between patients with and without changes in the immunohistochemical stainings. Each of the investigated changes was significantly more common in the polyneuropathy group than in the control group. Further correlations, particularly in the comparison of results from skin and sural nerve biopsies, were not found KW - Polyneuropathie KW - Ranvier-Schnürring KW - Entmarkung KW - Elektrophysiologie KW - Caspr KW - Neurofascin KW - MBP KW - spannungsgesteuerter Natriumkanal Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-360046 ER - TY - JOUR A1 - Odin, Per A1 - Chaudhuri, K. Ray A1 - Volkmann, Jens A1 - Antonini, Angelo A1 - Storch, Alexander A1 - Dietrichs, Espen A1 - Pirtošek, Zvezdan A1 - Henriksen, Tove A1 - Horne, Malcolm A1 - Devos, David A1 - Bergquist, Filip T1 - Viewpoint and practical recommendations from a movement disorder specialist panel on objective measurement in the clinical management of Parkinson’s disease JF - npj Parkinson's Disease N2 - Motor aspects of Parkinson’s disease, such as fluctuations and dyskinesia, can be reliably evaluated using a variety of “wearable” technologies, but practical guidance on objective measurement (OM) and the optimum use of these devices is lacking. Therefore, as a first step, a panel of movement disorder specialists met to provide guidance on how OM could be assessed and incorporated into clinical guidelines. A key aspect of the incorporation of OM into the management of Parkinson’s disease (PD) is defining cutoff values that separate “controlled” from “uncontrolled” symptoms that can be modified by therapy and that relate to an outcome that is relevant to the person with PD (such as quality of life). Defining cutoffs by consensus, which can be subsequently tested and refined, is the first step to optimizing OM in the management of PD. OM should be used by all clinicians that treat people with PD but the least experienced may find the most value, but this requires guidance from experts to allow non-experts to apply guidelines. While evidence is gained for devices that produce OM, expert opinion is needed to supplement the evidence base. KW - Parkinson's disease Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-234435 VL - 4 ER - TY - JOUR A1 - Langhauser, Friederike A1 - Casas, Ana I. A1 - Dao, Vu-Thao-Vi A1 - Guney, Emre A1 - Menche, Jörg A1 - Geuss, Eva A1 - Kleikers, Pamela W. M. A1 - López, Manuela G. A1 - Barabási, Albert-L. A1 - Kleinschnitz, Christoph A1 - Schmidt, Harald H. H. W. T1 - A diseasome cluster-based drug repurposing of soluble guanylate cyclase activators from smooth muscle relaxation to direct neuroprotection JF - npj Systems Biology and Applications N2 - Network medicine utilizes common genetic origins, markers and co-morbidities to uncover mechanistic links between diseases. These links can be summarized in the diseasome, a comprehensive network of disease–disease relationships and clusters. The diseasome has been influential during the past decade, although most of its links are not followed up experimentally. Here, we investigate a high prevalence unmet medical need cluster of disease phenotypes linked to cyclic GMP. Hitherto, the central cGMP-forming enzyme, soluble guanylate cyclase (sGC), has been targeted pharmacologically exclusively for smooth muscle modulation in cardiology and pulmonology. Here, we examine the disease associations of sGC in a non-hypothesis based manner in order to identify possibly previously unrecognized clinical indications. Surprisingly, we find that sGC, is closest linked to neurological disorders, an application that has so far not been explored clinically. Indeed, when investigating the neurological indication of this cluster with the highest unmet medical need, ischemic stroke, pre-clinically we find that sGC activity is virtually absent post-stroke. Conversely, a heme-free form of sGC, apo-sGC, was now the predominant isoform suggesting it may be a mechanism-based target in stroke. Indeed, this repurposing hypothesis could be validated experimentally in vivo as specific activators of apo-sGC were directly neuroprotective, reduced infarct size and increased survival. Thus, common mechanism clusters of the diseasome allow direct drug repurposing across previously unrelated disease phenotypes redefining them in a mechanism-based manner. Specifically, our example of repurposing apo-sGC activators for ischemic stroke should be urgently validated clinically as a possible first-in-class neuroprotective therapy. KW - neurology KW - pharmacology KW - systems biology Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-236381 VL - 4 ER - TY - THES A1 - Weiß, Eva Maria T1 - Einfluss von Makrophagen auf autophagische Vorgänge in Schwann´schen Zellen unter den Bedingungen von Nervenläsion und genetisch bedingter Neuropathie T1 - Influence of macrophages on Schwann cell autophagy under the conditions of nerve lesion and genetic neuropathy N2 - Charcot-Marie-Tooth (CMT) Neuropathien stellen als häufigste erblich bedingte neurologische Erkrankungen eine Gruppe genetisch heterogener, chronisch progredienter peripherer Polyneuropathien dar. Die Lebensqualität der Patienten ist bei fehlender kurativer Therapieoption vor allem durch motorische und sensorische Defizite deutlich eingeschränkt. In verschiedenen Studien konnte die pathophysiologische Relevanz einer sekundären Entzündungsreaktion, insbesondere durch Makrophagen und Lymphozyten vermittelt, in Mausmodellen dreier CMT1 Subtypen (CMT1A, CMT1B, CMT1X) aufgezeigt werden. Auch in Folge einer Läsion peripherer Nerven ist eine akute Entzündungsreaktion von entscheidender Bedeutung, wobei sich bereits Gemeinsamkeiten zwischen der postläsionalen Waller´schen Degeneration (WD) und CMT1 Neuropathien identifizieren ließen. Während die aktive Beteiligung der Autophagie Schwann´scher Zellen (hier kurz SZ Autophagie genannt) an der Myelindegradation im Falle einer WD jedoch vielfach beschrieben wurde, ist Ähnliches in CMT1 Neuropathien bisher nur unzureichend untersucht. Da in einer Studie in Cx32def Mausmodellen der CMT1X Erkrankung auch nach Reduktion endoneuraler Makrophagen anhaltende Demyelinisierung beobachtet werden konnte, sollte das Vorkommen von SZ Autophagie sowie deren mögliche Beeinflussung durch Makrophagen in diesen Myelinmutanten untersucht werden. In der vorliegenden Arbeit wurden sowohl Wildtyp (Wt) Mäuse in ex vivo und in vivo Modellen einer WD als auch Cx32def Myelinmutanten zweier Altersstufen (4 und 12 Monate) mit einem niedermolekularen CSF1-Rezeptor-Inhibitor (CSF1RI) zur Reduktion endoneuraler Makrophagen behandelt, wobei sich vergleichende histochemische bzw. immunhistochemische Analysen peripherer Nerven behandelter und unbehandelter Tiere anschlossen. Im Rahmen der Etablierung immunhistochemischer Methodik zeigte sich hierbei unter den kontrollierten Bedingungen einer ex vivo Ischiasnervenkultur eine vermehrte Aktivierung der SZ Autophagie in behandelten Wt Mäusen. Auch 4 Monate alte behandelte Cx32def Tiere wiesen, verglichen mit unbehandelten Myelinmutanten bzw. Wt Mäusen derselben Altersstufe, eine vermehrte autophagische Aktivität in SZ auf. Diese scheint sich jedoch im weiteren Verlauf der Erkrankung zu reduzieren, da im Falle der 12 Monate alten Cx32def Modelltiere weniger autophagisch aktive SZ Profile bzw. kaum Unterschiede zwischen behandelten und unbehandelten Tieren beobachtet werden konnten. Die Ergebnisse lassen somit eine mögliche aktive Beteiligung von SZ Autophagie insbesondere in der Pathophysiologie der frühen Phase einer CMT1X Erkrankung sowie deren Beeinflussung durch endoneurale Makrophagen vermuten. Dies sollte vornehmlich in der Entwicklung von Therapiestrategien der CMT1X bedacht werden, da sich eine frühe Reduktion pathophysiologisch relevanter endoneuraler Makrophagen somit auch nachteilig auf die Myelinintegrität auswirken könnte. N2 - Charcot-Marie-Tooth (CMT) neuropathies are the most common hereditary neurological diseases and represent a group of genetically heterogeneous, chronically progressive peripheral polyneuropathies. In the absence of curative treatment options, patients' quality of life is significantly impaired, primarily due to motor and sensory deficits. Various studies have demonstrated the pathophysiological relevance of a secondary inflammatory reaction, in particular mediated by macrophages and lymphocytes, in mouse models of three CMT1 subtypes (CMT1A, CMT1B, CMT1X). An acute inflammatory reaction is also of crucial importance following a lesion of peripheral nerves, whereby similarities between postlesional Wallerian degeneration (WD) and CMT1 neuropathies have already been identified. However, while the active involvement of Schwann cell autophagy (here referred to as SC autophagy) in myelin degradation in WD has been widely described, a similar involvement in CMT1 neuropathies has been insufficiently studied. Since in a study in Cx32def mouse models of CMT1X disease persistent demyelination could be observed even after reduction of endoneural macrophages, the occurrence of SC autophagy and its possible influence by macrophages in these myelin mutants should be investigated. In the present study, both wild-type (Wt) mice in ex vivo and in vivo models of WD and Cx32def myelin mutants of two ages (4 and 12 months) were treated with a small molecule CSF1 receptor inhibitor (CSF1RI) to reduce endoneural macrophages, followed by comparative histochemical and immunohistochemical analyses of peripheral nerves of treated and untreated animals, respectively. During the establishment of immunohistochemical methods, an increased activation of SC autophagy was shown in treated Wt mice under the controlled conditions of ex vivo sciatic nerve culture. Even 4-month-old treated Cx32def animals showed increased autophagic activity in SC compared to untreated myelin mutants or Wt mice of the same age. However, this appears to be reduced as the disease progresses, since in the case of the 12-month-old Cx32def model animals fewer autophagically active SC profiles or hardly any differences between treated and untreated animals could be observed. The results thus suggest a possible active involvement of SC autophagy, particularly in the pathophysiology of the early phase of CMT1X disease and its influence by endoneural macrophages. This should primarily be considered in the development of therapeutic strategies for CMT1X, as an early reduction of pathophysiologically relevant endoneural macrophages could therefore also have a detrimental effect on myelin integrity. KW - Schwann-Zelle KW - M-CSF KW - Autophagie KW - Charcot-Marie-Syndrom KW - Makrophage KW - Schwann´sche Zelle KW - Autophagie KW - hereditäre sensomotorische Neuropathie KW - Makrophagen KW - CSF-1 KW - Immunsystem Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-369674 ER - TY - THES A1 - Yabe, Marie T1 - Untersuchung des Mental Rotation-Paradigmas bei Patienten mit fokaler Dystonie T1 - Mental Rotation performance in patients with focal dystonia N2 - Das mR-Paradigma beschreibt die Fähigkeit Objekte gedanklich zu drehen und erfordert dabei komplexe neuronale Prozesse. Bisherige Studien konnten nicht klären, ob es ein spezifisches Muster der Beeinträchtigung im mR-Test bei fokalen Dystonien gibt. Die übergeordnete Fragestellung der vorliegenden Arbeit war, ob eine verlangsamte Reaktion bei der mR von körperlichen Abbildungen einen stabilen Endophänotyp fokaler Dystonien darstellt. Die Zielsetzung war die Überprüfung der Hypothesen, 1) dass bisherige Ergebnisse, die eine verlängerte Reaktionszeit von CD-Patienten bei der mR von körperlichen Abbildungen aufzeigten, reproduzierbar sind und 2) dass eine erhöhte Reaktionszeit bei der mR von körperlichen Abbildungen auch bei Patienten mit BSP vorliegt. Um dabei die mR möglichst spezifisch zu untersuchen, wurden folgende sekundäre Hypothesen formuliert: a) die kognitive Leistungsfähigkeit und b) das allgemeine Reaktionsvermögen der Teilnehmer stellen potenzielle Störfaktoren für die Reaktionszeit bei der mR-Aufgabe dar. Diese wurden neben der Händigkeit und der allgemeinen Geschicklichkeit systematisch erhoben. 23 CD-Patienten und 23 gesunde Kontrollpersonen sowie 21 BSP- und 19 HFS-Patienten wurden hinsichtlich Geschlechterverteilung, Alter und Bildungsstand verglichen. Zudem wurden Händigkeit, Fingergeschicklichkeit, allgemeine Reaktionszeit und kognitiver Status jedes Teilnehmers erhoben. Im mR-Test wurden Fotos von Körperteilen (Hand, Fuß oder Kopf) und einem nicht-körperlichen Objekt (Auto) gezeigt, die in sechs verschiedene Winkelgrade um die eigene Achse in der Bildebene rotiert waren. Die Teilnehmer wurden gebeten, die Lateralität des dargestellten Bildes per Tastendruck anzugeben. Bewertet wurden sowohl Geschwindigkeit als auch Richtigkeit der Antworten. Im Vergleich zu gesunden Kontrollpersonen schnitten CD- und HFS-Patienten bei der mR der Hände schlechter ab, während die BSP-Patienten vergleichbare Leistungen zeigten. Es bestand ein signifikanter Zusammenhang zwischen einer verlängerten mR-Reaktionszeit und reduzierten MoCA-Scores sowie einer erhöhten mR-Reaktionszeit und verlängerter allgemeiner Reaktionszeit. Nach Ausschluss der Patienten mit MCI zeigten CD-Patienten, nicht jedoch HFS-Patienten, im Vergleich zur gesunden Kontrollgruppe weiterhin verlangsamte Reaktionszeiten der Hände. Die vorliegende Studie konnte die Frage, ob eine verlangsamte Reaktion bei der mR von körperlichen Abbildungen einen stabilen Endophänotyp fokaler Dystonien darstellt, nicht sicher beantworten. Es stellte sich jedoch heraus, dass Kognition und allgemeine Reaktionszeit starke Einflussfaktoren bei der mR-Aufgabe sind. Dies wurde in den früheren Arbeiten nicht berücksichtigt und stellt daher ein neues und wichtiges Ergebnis dar. Die verlangsamte Reaktion bei der mR der Hände bei CD-Patienten auch nach Ausschluss von Patienten mit MCI lässt ein spezifisches Defizit der Fähigkeit der mR vermuten. Das Vorliegen einer tiefergreifenden zugrundeliegenden Netzwerkstörung, die sich auf die Leistung im mR-Test auswirkt, wäre dabei denkbar. N2 - Mental rotation (mR) describes the ability to rotate objects in mind. Previous studies could not clarify whether there is a specific pattern of mR impairment in focal dystonia. This study aimed to investigate whether patients with cervical dystonia (CD) and blepharospasm (BSP) show an increased reaction time (RT) in mR of body parts. Besides the study aimed to assess potential confounders such as cognitive performance and general reaction time. 23 CD patients and 23 healthy controls (K) as well as 21 BSP and 19 hemifacial spasm (HFS) patients were matched for sex, age, and education level. Disease severity was evaluated by clinical scales. Besides handedness, finger dexterity, general reaction time, and cognitive status were assessed. The mR-task included photographs of body parts (hand, foot or head) and a non-corporal object (car) displayed at different angles rotated within their plane. Subjects were asked to judge laterality of the presented image by keystroke. Both speed and correctness were evaluated. CD and HFS patients showed increased RT in mR of hands compared to K, whereas BSP group showed comparable performance. There was a significant association of prolonged mR-RT with reduced MoCA scores and with increased general reaction time. After exclusion of patients with mild cognitive impairment, increased RT in the mR of hands was confined to CD group, but not HFS. The present study could not clarify whether a prolonged RT in mR of body parts defines a dystonic endophenotype. However, it showed that cognition and general reaction time have strong influence on mR. The increased RT in the mR of the hands in CD patients, even after exclusion of patients with mild cognitive impairment, implicate a specific deficit in mR ability. Thereby an underlying network disorder that affects mR performance is conceivable. KW - mental rotation KW - fokale Dystonie Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-363927 ER - TY - JOUR A1 - Sulzer, David A1 - Cassidy, Clifford A1 - Horga, Guillermo A1 - Kang, Un Jung A1 - Fahn, Stanley A1 - Casella, Luigi A1 - Pezzoli, Gianni A1 - Langley, Jason A1 - Hu, Xiaoping P. A1 - Zucca, Fabio A. A1 - Isaias, Ioannis U. A1 - Zecca, Luigi T1 - Neuromelanin detection by magnetic resonance imaging (MRI) and its promise as a biomarker for Parkinson’s disease JF - npj Parkinson's Disease N2 - The diagnosis of Parkinson’s disease (PD) occurs after pathogenesis is advanced and many substantia nigra (SN) dopamine neurons have already died. Now that therapies to block this neuronal loss are under development, it is imperative that the disease be diagnosed at earlier stages and that the response to therapies is monitored. Recent studies suggest this can be accomplished by magnetic resonance imaging (MRI) detection of neuromelanin (NM), the characteristic pigment of SN dopaminergic, and locus coeruleus (LC) noradrenergic neurons. NM is an autophagic product synthesized via oxidation of catecholamines and subsequent reactions, and in the SN and LC it increases linearly during normal aging. In PD, however, the pigment is lost when SN and LC neurons die. As shown nearly 25 years ago by Zecca and colleagues, NM’s avid binding of iron provides a paramagnetic source to enable electron and nuclear magnetic resonance detection, and thus a means for safe and noninvasive measure in living human brain. Recent technical improvements now provide a means for MRI to differentiate between PD patients and age-matched healthy controls, and should be able to identify changes in SN NM with age in individuals. We discuss how MRI detects NM and how this approach might be improved. We suggest that MRI of NM can be used to confirm PD diagnosis and monitor disease progression. We recommend that for subjects at risk for PD, and perhaps generally for older people, that MRI sequences performed at regular intervals can provide a pre-clinical means to detect presymptomatic PD. Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-240207 VL - 4 ER - TY - JOUR A1 - Ullrich, M A1 - Weber, M A1 - Post, A M A1 - Popp, S A1 - Grein, J A1 - Zechner, M A1 - González, H Guerrero A1 - Kreis, A A1 - Schmitt, A G A1 - Üҫeyler, N A1 - Lesch, K-P A1 - Schuh, K T1 - OCD-like behavior is caused by dysfunction of thalamo-amygdala circuits and upregulated TrkB/ERK-MAPK signaling as a result of SPRED2 deficiency JF - Molecular Psychiatry N2 - Obsessive-compulsive disorder (OCD) is a common neuropsychiatric disease affecting about 2% of the general population. It is characterized by persistent intrusive thoughts and repetitive ritualized behaviors. While gene variations, malfunction of cortico-striato-thalamo-cortical (CSTC) circuits, and dysregulated synaptic transmission have been implicated in the pathogenesis of OCD, the underlying mechanisms remain largely unknown. Here we show that OCD-like behavior in mice is caused by deficiency of SPRED2, a protein expressed in various brain regions and a potent inhibitor of Ras/ERK-MAPK signaling. Excessive self-grooming, reflecting OCD-like behavior in rodents, resulted in facial skin lesions in SPRED2 knockout (KO) mice. This was alleviated by treatment with the selective serotonin reuptake inhibitor fluoxetine. In addition to the previously suggested involvement of cortico-striatal circuits, electrophysiological measurements revealed altered transmission at thalamo-amygdala synapses and morphological differences in lateral amygdala neurons of SPRED2 KO mice. Changes in synaptic function were accompanied by dysregulated expression of various pre- and postsynaptic proteins in the amygdala. This was a result of altered gene transcription and triggered upstream by upregulated tropomyosin receptor kinase B (TrkB)/ERK-MAPK signaling in the amygdala of SPRED2 KO mice. Pathway overactivation was mediated by increased activity of TrkB, Ras, and ERK as a specific result of SPRED2 deficiency and not elicited by elevated brain-derived neurotrophic factor levels. Using the MEK inhibitor selumetinib, we suppressed TrkB/ERK-MAPK pathway activity in vivo and reduced OCD-like grooming in SPRED2 KO mice. Altogether, this study identifies SPRED2 as a promising new regulator, TrkB/ERK-MAPK signaling as a novel mediating mechanism, and thalamo-amygdala synapses as critical circuitry involved in the pathogenesis of OCD. KW - molecular biology KW - neuroscience KW - physiology KW - psychiatric disorders Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-232096 VL - 23 ER -