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Kürzlich wurden bei immunvermittelten Neuropathien Autoantikörper gegen Proteine
des paranodalen axoglialen Komplexes beschrieben. Deren Charakteristika,
Prävalenzen, pathophysiologische Relevanz sowie Bedeutung für Diagnostik
und Therapie sind jedoch noch nicht abschließend erforscht.
In dieser Studie wurden daher Seren und Plasmapheresematerial (PE-Material)
von 150 Patienten mit inflammatorischen Neuropathien, nämlich 105 mit chronisch
inflammatorischer demyelinisierender Polyneuropathie (CIDP), 21 mit Guillain-
Barré-Syndrom (GBS) und 24 mit multifokaler motorischer Neuropathie
(MMN), welche etablierte diagnostische Kriterien der jeweiligen Krankheit erfüllen,
sowie 74 Kontrollen mittels immunhistochemischen Färbungen an murinen
Zupfnervenpräparaten und/oder ELISA (Enzyme-linked Immunosorbent Assay)
auf Autoantikörper gegen die paranodalen Proteine Caspr, Contactin-1 und Neurofascin-
155 untersucht. Bei positivem Ergebnis wurde deren Spezifität mittels
immunhistochemischen Färbungen an transfizierten HEK (Human embryonic kidney)-
293-Zellen und Präinkubationsversuchen bestätigt. Es wurden die IgG-Subklassen
und die Antikörpertiter bestimmt und das Komplementbindungsverhalten
unter Zugabe von intravenösen Immunglobulinen (IVIG) mit zellbasierten und
ELISA-basierten Methoden analysiert. Klinische Merkmale und das Therapieansprechen
Antikörper-positiver Patienten wurden ermittelt und mit den experimentellen
Ergebnissen in Zusammenhang gesetzt.
IgG-Autoantikörper gegen Contactin-1 konnten bei vier Patienten mit CIDP nachgewiesen
werden, IgG-Autoantikörper gegen Caspr bei einem Patienten mit
CIDP und einer Patientin mit GBS. Es konnten keine weiteren Autoantikörper bei
CIDP-Patienten, GBS-Patienten, MMN-Patienten oder bei den Kontrollen detektiert
werden. Die Prävalenz von Autoantikörpern gegen axogliale paranodale Proteine
liegt somit in dieser Studie bei jeweils 4,76% bei CIDP und GBS und 0%
bei MMN. Die Antikörper gehörten bei Patienten in der akuten Erkrankungsphase
(zwei der CIDP-Patienten mit Anti-Contactin-1-Autoantikörpern und eine GBS-Patientin mit Anti-Caspr-Autoantikörpern) hauptsächlich den Subklassen IgG1
und IgG3 an, bei Patienten in der chronischen Phase (zwei der CIDP-Patienten
mit Anti-Contactin-1-Autoantikörpern, ein CIDP-Patient mit Anti-Caspr-Autoantikörpern)
überwog die Subklasse IgG4. Experimentell kam es zur Komplementbindung
und -aktivierung abhängig vom Gehalt der Subklassen IgG1-3, nicht
aber IgG4; diese konnte durch die Zugabe von IVIG dosisabhängig gemindert
werden. Alle Autoantikörper-positiven CIDP-Patienten zeigten einen GBS-artigen
Beginn mit einer schweren motorischen Beteiligung. Anti-Contactin-1-positive
Patienten kennzeichnete klinisch zusätzlich das Vorkommen einer Ataxie und eines
Tremors, Anti-Caspr-positive Patienten das Vorkommen starker neuropathischer
Schmerzen. Elektrophysiologisch standen neben Hinweisen auf eine Leitungsstörung
Zeichen einer axonalen Schädigung im Vordergrund. Als histopathologisches
Korrelat lagen eine nodale Architekturstörung und ein Axonverlust
vor. Die Patienten zeigten nur in der Anfangsphase der Erkrankung ein Ansprechen
auf IVIG. Bei drei CIDP-Patienten mit IgG4-Autoantikörpern (zwei Patienten
mit Anti-Contactin-1-Antikörpern und ein Patient mit Anti-Caspr-Antikörpern)
wurde eine Therapie mit Rituximab durchgeführt. Diese führte zu einer Titerreduktion
und zur zeitgleichen klinischen und elektrophysiologischen Befundbesserung
bei zwei Patienten.
Die in dieser Arbeit angewandten Screeningmethoden führten zum erfolgreichen
Nachweis von Autoantikörpern gegen paranodale axogliale Proteine. Die Patienten
mit positivem Autoantikörpernachweis definieren eine kleine Untergruppe mit
ähnlichen klinischen Merkmalen im Kollektiv der Patienten mit inflammatorischen
Polyneuropathien. Histopathologische Merkmale sowie das Therapieansprechen
auf antikörperdepletierende Therapie sprechen in Kombination mit den Ergebnissen
weiterer Studien zu paranodalen Autoantikörpern für eine pathogenetische
Relevanz der Autoantikörper. Mit einem charakteristischen, am Schnürring ansetzenden
Pathomechanismus könnten Neuropathien mit Nachweis von paranodalen
Autoantikörpern der kürzlich eingeführten Entität der Nodo-Paranodopathien
angehören. Die Komplementaktivierung und das Therapieansprechen der Patienten auf IVIG stehen möglicherweise in Zusammenhang mit der prädominanten
IgG-Subklasse. Diese könnte auch in Bezug auf die Chronifizierung eine
Rolle spielen. Der Nachweis von Autoantikörpern gegen paranodale Proteine hat
wohlmöglich in Zukunft direkte Konsequenzen auf das diagnostische und therapeutische
Prozedere bei Patienten mit CIDP und GBS; weitere klinische und experimentelle
Daten aus größeren, prospektiven Studien sind jedoch zum weiteren
Verständnis und zur Charakterisierung dieser Entität notwendig.
Anti-CNTN1 IgG3 induces acute conduction block and motor deficits in a passive transfer rat model
(2019)
Background:
Autoantibodies against the paranodal protein contactin-1 have recently been described in patients with severe acute-onset autoimmune neuropathies and mainly belong to the IgG4 subclass that does not activate complement. IgG3 anti-contactin-1 autoantibodies are rare, but have been detected during the acute onset of disease in some cases. There is evidence that anti-contactin-1 prevents adhesive interaction, and chronic exposure to anti-contactin-1 IgG4 leads to structural changes at the nodes accompanied by neuropathic symptoms. However, the pathomechanism of acute onset of disease and the pathogenic role of IgG3 anti-contactin-1 is largely unknown.
Methods:
In the present study, we aimed to model acute autoantibody exposure by intraneural injection of IgG of patients with anti-contacin-1 autoantibodies to Lewis rats. Patient IgG obtained during acute onset of disease (IgG3 predominant) and IgG from the chronic phase of disease (IgG4 predominant) were studied in comparison.
Results:
Conduction blocks were measured in rats injected with the “acute” IgG more often than after injection of “chronic” IgG (83.3% versus 35%) and proved to be reversible within a week after injection. Impaired nerve conduction was accompanied by motor deficits in rats after injection of the “acute” IgG but only minor structural changes of the nodes. Paranodal complement deposition was detected after injection of the “acute IgG”. We did not detect any inflammatory infiltrates, arguing against an inflammatory cascade as cause of damage to the nerve. We also did not observe dispersion of paranodal proteins or sodium channels to the juxtaparanodes as seen in patients after chronic exposure to anti-contactin-1.
Conclusions:
Our data suggest that anti-contactin-1 IgG3 induces an acute conduction block that is most probably mediated by autoantibody binding and subsequent complement deposition and may account for acute onset of disease in these patients. This supports the notion of anti-contactin-1-associated neuropathy as a paranodopathy with the nodes of Ranvier as the site of pathogenesis.
Autoantibodies against proteins of the node of Ranvier have been identified in a subset of patients with chronic inflammatory demyelinating polyradiculoneuropathy (CIDP). Main antigens targeted by autoantibodies are the paranodal proteins contactin 1 (CNTN1), neurofascin (NF) 155 or contactin associated protein (Caspr) as well as the nodal NF186. Several studies investigated the role of anti-paranodal autoantibodies in the pathophysiology of CIDP leading to the current knowledge that immunoglobulin G (IgG)4 deposition leads to detachment of myelin from the axon at the paranodes. However, many questions remain unsolved. Thus, autoantibodies against NF155 have been well studied and their pathogenicity has been proven in an animal model in vivo. However, in some patients, autoantibodies against all isoforms of NF are detectable. These anti-pan-NF autoantibodies occur more rarely and lead to a very severe clinical phenotype. As the pathogenesis of patient-derived autoantibodies against pan-NF has never been investigated in vivo before, we used an animal model to study the effect of acute exposure to anti-pan-NF IgG3 by intraneural injections to the rat sciatic nerve. In addition, we used anti-NF155 IgG4 from a seropositive patient. Behavioral testings as well as nerve conduction studies did not re- veal any deficits after injected neither for anti-NF155 nor for anti-pan-NF autoantibodies. This leads to the suspicion that the disease is more likely induced by a chronic process.
A common symptom in patients with anti-CNTN1 associated neuropathy is sensory ataxia and therefore, an involvement of dorsal root ganglia (DRGs) is hypothesized. We show that sera from anti-CNTN1 positive patients specifically bind to DRG neurons in vitro and reduce surface expression of CNTN1. This is most probably due to internalization mediated by coexisting IgG3 although IgG4 is the predominant subclass of autoantibodies. As it is known that CNTN1 interacts with the β1 subunit of specific sodium channels we analyzed channel expression and sodium currents of DRG neurons after incubation with anti-CNTN1 positive patients’ sera. We identified reduced sodium currents after long-term treatment with patients’ material although surface channel expression remained stable. We therefore concluded that CNTN1 might influence channel properties indirectly through auxiliary β1 subunits. Moreover, we suggest an involvement of DRG neurons in the pathogenesis of anti-CNTN1 associated CIDP as medium-large size neurons are more affected than small neurons. However, the exact mechanism of how anti-CNTN1 autoantibodies influence sodium channels should be subject of further studies.
Furthermore, preliminary results indicate that the epitope for anti-CNTN1 autoantibodies from seropositive patients might be associated with distinct clinical features. We could show that autoantibodies might be either directed against a conformational epitope as binding is prevented after deletion of the first immunoglobulin (Ig) domain of CNTN1 or against the fibronectin type III (FnIII) domains. Strikingly, both patients with FnIII do- main specificity had very high titers of anti-CNTN1 autoantibodies and a chronic disease progression, whereas patients binding to a conformational epitope or to the Ig domains are related to a relapsing-remitting or even monophasic disease course. However, these results need to be further confirmed before a clear statement can be made.
In conclusion, the present study contributes to elucidate the pathogenesis of peripheral neuropathies associated with anti-paranodal autoantibodies. However, further studies are required including a higher number of patients as well as considering effects on structures like DRGs besides the node of Ranvier to fully understand the disease mechanisms.
Peripheral neuropathies can severely affect patients. Causes for the disease are diverse but can be classified into two main groups, acquired and hereditary. Examples for these two types are chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) and Charcot-Marie-Tooth disease type 1A (CMT1A). CIDP has an estimated prevalence of about 1-9:100 000. In this pathogenetically hetereo- geneous patient group about 5-10% show auto-antibodies against the node of Ranvier and present with distinct symptoms. Treatment with rituximab - a monoclonal antibody that deletes CD20 + B cells - has been shown to be effective in a majority of auto-antibody as- sociated CIDP cases. This suggests that B cells and the produced auto-antibodies might be pathogenic. Previous studies delivered evidence that auto-antibodies alone can induce nerve damage. In this study, the aim was to investigate the pathomechanism of auto-antibodies in vivo and their exact origin: For the analysis of the pathogenicity of auto-antibodies, passive transfer experiments on Lewis rats were performed with whole IgG from a patient with anti-contactin-1 (CNTN1) IgG4 auto-antibodies. IgG was infused through an intrathe- cal catheter targeting the thoracic/lumbar region of the spine over a long-term, 3-week period. In a previous study of our group, the IgG from the same patient has been re- ported to have mild pathogenic effects when applied intraneurally into the sciatic nerve of Lewis rats. In this study however, binding of auto-antibodies to nerve roots could not be detected. Neither evaluation of electrophysiological properties after the injection period nor motor and sensory skills tested throughout the injection period showed differences when compared to animals infused with control IgG. This suggests that in the chronic intrathecal protocol anti-CNTN1 auto-antibodies did not have a pathogenic effect. In peripheral blood, four B cell subsets capable to produce antibodies were previously described: memory B cells, plasmablasts (PBs), B1 cells and CD20 + CD38 hi cells. For the identification of the B cell subsets that produce auto-antibodies, purification and sort protocols as well as an enzyme-linked immuno spot (ELISpot) assay for IgG and IgM were established successfully. Since unstimulated B cell subsets produced very small amounts of IgG and IgM, peripheral blood mononuclear cells (PBMCs) were stimulated with IL-2 and R848 for 72 h prior to sorting. While the memory B cell frequency decreased after stimulation, the frequency of CD20 + CD38 hi cells increased and the overall number of antibody-secreting cells was increased. When stimulating patient PBMCs for 10 days though, detection of anti-neurofascin-155 (NF155) auto-antibodies in supernatants by enzyme-linked immunosorbent assay (ELISA) was possible in two out of three patient samples. Even though cell sorting was feasible after 10 days of stimulation, detection of auto-antibodies could not be accomplished using antigen-specific ELISpot. Although the implementation of the cell sorting and purification protocol was successful, further adjustments of the antigen-specific ELISpot need to be performed. However, we could show that after 10 days of stimulation auto-antibody detection is possible by ELISA which helps to pre-screen if patient PBMC contain auto-reactive B cells. CMT1A has an estimated prevalence of 1:5000 and is caused by a duplication of the peripheral myelin protein 22 kDa (PMP22) gene. Patients suffer from distal weakness and muscle wasting leading even to wheelchair-dependency in some cases. Although different treatment options for CMT1A have been tested in previous clinical trials, none of them have been successful. In this study, the aim was to identify objective and reproducible outcome measures that assess the actual nerve damage in a large cohort of CMT1A patients by analyzing a series of parameters. Glabrous skin samples were collected from 48 CMT1A, 7 CIDP and 16 small fiber neuropathy patients and 45 healthy controls. 40-µm cryosections from the lateral part of the index finger were double-labeled using immunoflu- orescence to investigate cutaneous innervation. The disease severity which was assessed using the Charcot-Marie-Tooth Neuropathy Score version 2 (CMTNSv2) and ranged between mild to severe (3-27) correlated with age in CMT1A patients. Furthermore, the intraepidermal nerve fiber density (IENFD) was reduced in CMT1A patients in comparison to controls and correlated negatively with the disease severity. In controls however, the IENFD correlated inversely with age. Meissner corpuscle density tended to be reduced and correlated inversely with age in CMT1A patients. This was not observed in healthy controls though. Compared to controls, Merkel cell density was also reduced in CMT1A, while the fraction of denervated Merkel cell was increased and correlated with age. Further differences were revealed concerning the node of Ranvier. Paranodes were shortened and the fraction of long nodes was decreased in CMT1A patients compared to controls. These data suggest that the IENFD, the Meissner corpuscle and Merkel cell densities are possible candidates for outcome measures as they are associated with disease severity or age of patients. However, a reliable statement about the suitability as a marker for disease progression can not be made in this study since only six CMT1A patients agreed to give a follow-up biopsy two years later.
Intravenous immunoglobulin (IVIG) is a potential therapy for chronic inflammatory demyelinating polyneuropathy (CIDP). To investigate the efficacy and safety of the IVIG IgPro10 (Privigen) for treatment of CIDP, results from Privigen Impact on Mobility and Autonomy (PRIMA), a prospective, open-label, single-arm study of IVIG in immunoglobulin (Ig)-naïve or IVIG pre-treated subjects (NCT01184846, n = 28) and Polyneuropathy And Treatment with Hizentra (PATH), a double-blind, randomized study including an open-label, single-arm IVIG phase in IVIG pre-treated subjects (NCT01545076, IVIG restabilization phase n = 207) were analyzed separately and together (n = 235). Efficacy assessments included change in adjusted inflammatory neuropathy cause and treatment (INCAT) score, grip strength and Medical Research Council (MRC) sum score. Adverse drug reactions (ADRs) and ADRs/infusion were recorded. Adjusted INCAT response rate was 60.7% in all PRIMA subjects at Week 25 (76.9% in IVIG pre-treated subjects) and 72.9% in PATH. In the pooled cohort (n = 235), INCAT response rate was 71.5%; median time to INCAT improvement was 4.3 weeks. No clear demographic differences were noticed between early (responding before Week 7, n = 148) and late responders (n = 21). In the pooled cohort, median change from baseline to last observation was −1.0 (interquartile range −2.0; 0.0) point for INCAT score; +8.0 (0.0; 20.0) kPa for maximum grip strength; +3.0 (1.0; 7.0) points for MRC sum score. In the pooled cohort, 271 ADRs were reported in 105 subjects (44.7%), a rate of 0.144 ADRs per infusion. This analysis confirms the efficacy and safety of IgPro10, a recently FDA-approved IVIG for CIDP, in a population of mainly pre-treated subjects with CIDP [Correction added on 14 March 2019 after first online publication: the INCAT response rate has been corrected.].
Die Chronische Inflammatorische Demyelinisierende Polyneuropathie (CIDP) ist eine seltene autoimmune Erkrankung des peripheren Nervensystems. In der vorliegenden Dissertation wurden die Akten von 23 CIDP – Patienten der Neurologischen Klinik der Universität Würzburg aus dem Zeitraum von 1990 bis 1999 ausgewertet und die elektrophysiologischen Parameter sowohl mit den klinischen Befunden als auch mit den Biopsiebefunden in Beziehung gestellt. Folgende Schlussfolgerungen konnten gezogen werden : - In dem untersuchten Patientenkollektiv war die sensomotorische Form der CIDP mit überwiegend motorischen Symptomen die häufigste Ausprägungsform. Hingegen treten rein motorische und rein sensible Formen sehr selten auf. - Die Krankheit manifestierte sich überwiegend an den distalen Extremitäten. - Die oberen Extremitäten waren selten und in keinem Fall isoliert betroffen. - Die systematische Auswertung des klinischen Schwergrades erfolgte anhand des Modifizierten Rankin Scores, der sowohl motorische als auch sensible Symptome berücksichtigt. Zusätzlich erfolgte der Entwurf eines sensiblen Scores, bei dem die sensiblen Symptome der Patienten in Zahlenwerten ausgedrückt sind. - Der Vergleich des klinischen Schweregrades mit den neurophysiologischen Befunden ergab vier unterschiedliche Korrelationstypen, die von sehr enger Korrelation bis hin zu nur geringen Übereinstimmungen reichten. - Der Schwergrad der Beeinträchtigung der Patienten war im Langzeitverlauf mit dem axonalen Verlust korreliert. Es fand sich eine gute Korrelation der Muskelsummenaktionspotentiale (CMAP) des Nervus medianus und des Nervus tibialis sowie der sensiblen Nervenaktionspotentiale (SNAP) des Nervus suralis mit dem Score. - Es ergab sich ein signifikanter Zusammenhang zwischen der Amplitude des Nervus suralis NAP`s und dem Ausmaß des Axonverlustes, wohingegen zwischen der Nervenleitungsgeschwindigkeit des Nervus suralis und dem Axonverlust nur eine geringe Abhängigkeit besteht. - Der Grad der Demyelinisierung korrelierte mit der Anzahl der endoneuralen Makrophagen. - Zwischen der Nervenleitgeschwindigkeit des Nervus suralis und dem Grad der Demyelinisierung im Biopsat konnte keine eindeutige Abhängigkeit nachgewiesen werden. - Es besteht ein Zusammenhang zwischen der Spontanaktivität im EMG und im Verlauf abnehmenden Nervenleitgeschwindigkeiten des Nervus medianus, der aber statistisch nicht signifikant ist. - Insbesondere ist die NLG- Abnahme in den ersten Wochen ein prognostisch ungünstiges Zeichen. - Eine Analogie zwischen einer durch das EMG nachgewiesenen Spontanaktivität und der Amplitude des Nervus suralis besteht. - Zwischen den Amplituden der motorischen Summenaktionspotentiale des Nervus tibialis oder den Amplituden der sensiblen Nervenaktionspotentiale des Nervus suralis auf der einen Seite und dem Ausmaß der Spontanaktivität im EMG auf der anderen Seite bestehen erkennbare Korrelationen.