Pathology of a mouse mutation in peripheral myelin protein P0 is characteristic of a severe and early onset form of human Charcot-Marie-Tooth type 1B disorder

Mutations in the gene of the peripheral myelin protein zero (P0) give rise to the peripheral neuropathies Charcot-Marie-Tooth type 1B disease (CMT1B), Déjérine-Sottas syndrome, and congenital hypomyelinating neuropathy. To investigate the pathomechanisms of a specific point mutation in the P0 gene, we generated two independent transgenic mouse lines expressing the pathogenic CMT1B missense mutation Ile106Leu (P0sub) under the control of the P0 promoter on a wild-type background. Both P0sub-transgenic mouse lines showed shivering and ultrastructural abnormalities including retarded myelination, onion bulb formation, and dysmyelination seen as aberrantly folded myelin sheaths and tomacula in all nerve fibers. Functionally, the mutation leads to dispersed compound muscle action potentials and severely reduced conduction velocities. Our observations support the view that the Ile106Leu mutation acts by a dominant-negative gain of function and that the P0sub-transgenic mouse represents an animal model for a severe, tomaculous form of CMT1B

The role of immune cells in genetic-mediated demyelination in a mouse model of Charcot-Marie-Tooth neuropathy, type 1X

Ziel der vorliegenden Arbeit war, zu untersuchen, ob Immunzellen den Schweregrad einer peripheren Neuropathie im Mausmodell von CMT1X (Cx32def (Cx32-defiziente) Maus) beeinflussen können. Mit Hilfe von immunhistochemischen Färbemethoden, lichtmikroskopischen, immunelektronenmikroskopischen und computergestützen konventionellen elektronenmikroskopischen Auswertungsverfahren wurde die Anzahl von endoneuralen Makrophagen und CD8+ T-Zellen, sowie die Morphologie von Quadricepsnerven und ventralen Spinalwurzeln analysiert.. Aufgrund der vorliegenden Ergebnissen können dabei folgende Aussagen getroffen werden: 1. Makrophagen und CD8+ T-Zellen sind in Quadricepsnerven von Cx32-defizienten Mäusen hochreguliert, wobei die Anzahl der endoneuralen Makrophagen die Anzahl der CD8+ T-Zellen wesentlich übersteigt. Die Anzahl war altersabhängig und korrelierte mit dem Schweregrad des pathomorphologischen Bildes der peripheren Neuropathie. 2. Mit Immunelektronenmikroskopie haben wir eindeutig identifizierbare endoneurale Makrophagen innerhalb der endoneuralen Röhren in engem Kontakt zu demyelinisierten oder in Demyelinisierung begriffenen Axonen nachgewiesen. Endoneurale Makrophagen enthielten häufig Reste von phagozytiertem Myelin. 3. Bei Immun- und konventioneller Elektronenmikroskopie haben wir häufig ausgeprägte Kontakte zwischen Makrophagen und Fibroblasten beobachtet. 4. In Cx32def/RAG-1-/- Doppelmutanten, die zusätzlich zu der Myelinmutation auch keine reifen Lymphozyten beinhalten, ist eine signifikant geringere Hochregulation der Anzahl von endoneuralen Makrophagen nachweisbar, ebenso eine wesentliche Abmilderung der pathologischen Veränderungen von Quadricepsnerven und ventralen Spinalwurzeln im Vergleich zu Cx32def/ RAG-1+/? Geschwistertieren. Diese Ergebnisse lassen die Schlußfolgerung zu, daß Makrophagen und CD8+ T-Zellen die primär genetisch-bedingte Demyelinisierung im Mausmodell für CMT1X wesentlich verstärkend beeinflussen. Aufgrund der ähnlichen Literaturdaten über das Mausmodell von CMT1B (P0+/- Mutante) können wir vermuten, daß die Interaktion zwischen Schwann- und Immunzellen eine wichtige Komponente der peripheren Demyelinisierung in Mausmodellen für CMT1 ist.An aim of the presented work was to investigate whether immune cells could influence upon the severity of a peripheral neuropathy in a mouse model of CMT1X (Cx32def (Cx32-deficient mouse). Using immunohistochemical methods of staining, light-, immunelectron microscopy and computerised conventional electron microscopy we analysed a number of endoneurial macrophages and CD8+ T-cells as well as morphology of N. Quadriceps and ventral spinal roots. Taking into account our results, we could make such a conclusion: 1. Macrophages and CD8+ T-cells are upregulated in the N. Quadriceps and the number of endoneurial macrophages is significantly higher in comparison with the number of endoneurial CD8+ T-cells. These numbers are correlated with the age of the mice and with the severity of patholomorphological signs of peripheral neuropathy. 2. With the help of immunelectronmicroscopy we could definitely identify endoneurial macrophages inside of endoneurial tubes in close contact with axons during or after the process of demyelination. The endoneurial macrophages included rather often the rest of phagocyted myelin. 3. By means of immun- and conventional electron microscopy we have also observed close contacts between macrophages and fibroblasts inside of investigated nerves. 4. In Cx32def/RAG-1-/- double mutants, which in addition to myelin mutation contained no mature lymphocytes, we observed significantly lower upregulation of endoneurial macrophages as well as amelioration of pathological changes of N. Quadriceps and ventral spinal roots in comparison with Cx32def/ RAG-1+/? littermates. These results lead us to conclusion that macrophages and CD8+ T-cells could significantly aggravate genetically-mediated demyelination in a mouse model of CMT1X. Taking into account similar literature data concerning a mouse model of CMT1B (P0+/- mutants), we could assume, that interaction between Schwann- and immune cells is an important component of the pathogenesis of peripheral demyelination in mouse models of CMT1

Role of immune cells in animal models for inherited neuropathies: facts and visions*

Mice heterozygously deficient in the peripheral myelin adhesion molecule P0 (P0+/− mice) are models for some forms of Charcot–Marie–Tooth (CMT) neuropathies. In addition to the characteristic hallmarks of demyelination, elevated numbers of CD8-positive T-lymphocytes and F4/80-positive macrophages are striking features in the nerves of these mice. These immune cells increase in number with age and progress of demyelination, suggesting that they might be functionally related to myelin damage. In order to investigate the pathogenetic role of lymphocytes, the myelin mutants were cross-bred with recombination activating gene 1 (RAG-1)-deficient mice, which lack mature T-and B-lymphocytes. The immunodeficient myelin mutants showed a less severe myelin degeneration. The beneficial effect of lymphocyte-deficiency was reversible, since demyelination worsened in immunodeficient myelin-mutants when reconstituted with bone marrow from wild-type mice. Ultrastructural analysis revealed macrophages in close apposition to myelin and demyelinated axons. We therefore cross-bred the P0+/− mice with spontaneous osteopetrotic (op) mutants deficient in the macrophage colony-stimulating factor (M-CSF), hence displaying impaired macrophage activation. In the corresponding double mutants the numbers of macrophages were not elevated in the peripheral nerves, and the demyelinating phenotype was less severe than in the genuine P0+/− mice, demonstrating that macrophages are also functionally involved in the pathogenesis of genetically mediated demyelination. We also examined other models for inherited neuropathies for a possible involvement of immune cells. We chose mice deficient in the gap junction component connexin 32, a model for the X-linked form of CMT. Similar to P0-deficient mice, T-lymphocytes and macrophages were elevated and macrophages showed a close apposition to degenerating myelin. We conclude that the involvement of T-lymphocytes and macrophages is a common pathogenetic feature in various forms of slowly progressive inherited neuropathies