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Endogenous antibodies contribute to macrophage-mediated demyelination in a mouse model for CMT1B
(2015)
Background
We could previously identify components of both the innate and the adaptive immune system as disease modifiers in the pathogenesis of models for Charcot-Marie-Tooth (CMT) neuropathies type 1B and 1X. As part of the adaptive immune system, here we investigated the role of antibodies in a model for CMT1B.
Methods
Antibodies were localized and characterized in peripheral nerves of the CMT1B model by immunohistochemistry and Western blot analysis. Experimental ablation of antibodies was performed by cross breeding the CMT1B models with mutants deficient in B-lymphocytes (JHD−/− mutants). Ameliorated demyelination by antibody deficiency was reverted by intravenous injection of mouse IgG fractions. Histopathological analysis was performed by immunocytochemistry and light and quantitative electron microscopy.
Results
We demonstrate that in peripheral nerves of a mouse model for CMT1B, endogenous antibodies strongly decorate endoneurial tubes of peripheral nerves. These antibodies comprise IgG and IgM subtypes and are preferentially, but not exclusively, associated with nerve fiber aspects nearby the nodes of Ranvier. In the absence of antibodies, the early demyelinating phenotype is substantially ameliorated. Reverting the neuropathy by reconstitution with murine IgG fractions identified accumulating antibodies as potentially pathogenic at this early stage of disease.
Conclusions
Our study demonstrates that in a mouse model for CMT1B, endogenous antibodies contribute to early macrophage-mediated demyelination and disease progression. Thus, both the innate and adaptive immune system are mutually interconnected in a genetic model for demyelination. Since in Wallerian degeneration antibodies have also been shown to be involved in myelin phagocytosis, our study supports our view that inherited demyelination and Wallerian degeneration share common mechanisms, which are detrimental when activated under nonlesion conditions.
The pathogenic role of endogenous antibodies in a mouse model for Charcot-Marie-Tooth 1B neuropathy
(2015)
Charcot-Marie-Tooth (CMT) type 1 neuropathies are a genetically heterogeneous group of non-treatable inherited disorders affecting the peripheral nervous system that lead to sensory and motor dysfunction. Secondary low grade inflammation, implicating the innate and adaptive immune system, could previously be identified as a substantial disease modifier in two mouse models for CMT1, CMT1B and 1X, respectively. However, the exact mechanism how the adaptive immune system contributes to disease pathogenesis is not completely understood. Based on observations that the accumulation of endogenous antibodies to myelin components is important for rapid myelin clearance after nerve injury during Wallerian degeneration, a possibly similar mechanism was considered for endogenous antibodies as disease amplifier in mice heterozygously deficient for P0 (P0het), mimicking some typical features of CMT1B.
In this study an increased antibody deposition was detected in the affected peripheral nerves of P0het myelin mutant mice. By crossbreeding P0het mutants with mice specifically lacking B-lymphocytes, and therefore antibodies (JHD-/-), a decline of endoneurial macrophages together with a substantially ameliorated demyelination could be demonstrated in 6-month-old mutant mice. Moreover, reconstitution with murine IgGs reverted the neuropathic phenotype, substantiating that endogenous antibodies are potentially pathogenic at this early stage of disease. Unexpectedly, in 12-months-old P0het mutants, JHD deficiency resulted in disease aggravation accompanied by an increased inflammatory reaction and M2-polarized macrophage response.
These observations suggest that in a mouse model for CMT1B, the lack of endogenous antibodies has a dichotomous effect: ameliorating early macrophage-mediated demyelination, as opposed to increasing inflammatory reactions leading to disease aggravation at older ages.
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.