Abstract
Spontaneous autoimmune peripheral polyneuropathy (SAPP) is a reproducible mouse model of chronic inflammatory peripheral neuropathy in female non-obese diabetic mice deficient in co-stimulatory molecule, B7-2 (also known as CD86). There is evidence that SAPP is an interferon-γ, CD4+ T-cell-mediated disorder, with autoreactive T-cells and autoantibodies directed against myelin protein zero involved in its immunopathogenesis. Precise mechanisms leading to peripheral nerve system inflammation and nerve injury including demyelination in this model are not well defined. We examined the role of activating Fc-gamma receptors (FcγRs) by genetically ablating Fcγ-common chain (Fcer1g) shared by all activating FcγRs in the pathogenesis of this model. We have generated B7-2/ Fcer1g-double null animals for these studies and found that the neuropathic disease is substantially ameliorated in these animals as assessed by behavior, electrophysiology, immunocytochemistry, and morphometry. Our current studies focused on characterizing systemic and endoneurial inflammation in B7-2-null and B7-2/ Fcer1g-double nulls. We found that accumulation of endoneurial inflammatory cells was significantly attenuated in B7-2/ Fcer1g-double nulls compared to B7-2-single nulls. Whereas, systemically the frequency of CD4+ regulatory T cells and expression of immunosuppressive cytokine, IL-10, were significantly enhanced in B7-2/ Fcer1g-double nulls. Overall, these findings suggest that elimination of activating FcγRs modulate nerve injury by altering endoneurial and systemic inflammation. These observations raise the possibility of targeting activating FcγRs as a treatment strategy in acquired inflammatory demyelinating neuropathies.
Highlights
Acute and chronic inflammatory demyelinating polyradiculoneuropathies (AIDP and CIDP) are the commonest acquired peripheral nerve demyelinating disorders encountered clinically
The spontaneous inflammatory neuropathy starts in these animals around 20 weeks of age and the disease peaks around 32–35 weeks of age
We found that the endoneurial infiltration of inflammatory cells including macrophages (CD68+) and lymphocytes (CD3+) was significantly reduced in B7-2/ Fcer1g-double nulls compared to B7-2-single nulls (Fig 3A– 3C; ICC studies), and the absence of activating FcγRs resulted in significant reduction of natural killer cells (CD45+/CD335+; FACS studies) (Fig 3D)
Summary
Acute and chronic inflammatory demyelinating polyradiculoneuropathies (AIDP and CIDP) are the commonest acquired peripheral nerve demyelinating disorders encountered clinically Both conditions are pathologically characterized by intense endoneurial mononuclear cell. If the cellular and molecular components of endoneurial inflammation that produce demyelination (nerve fiber injury) are defined this could provide molecular targets for the development of new therapies Both humoral and cellular immune systems are believed to be involved in the pathogenesis of AIDP and CIDP. We asked whether modulation of activating FcγRs can alter disease induction and/or nerve injury in a model of T-cell induced inflammatory demyelinating neuropathy This issue was studied by a genetic approach in spontaneous autoimmune peripheral polyneuropathy (SAPP) B7-2-null non-obese diabetic (NOD) mice, a mouse model pathologically reminiscent of acquired inflammatory demyelinating neuropathies [13]. The accumulation of endoneurial inflammatory cells, i.e., lymphocytes and macrophages were significantly decreased, whereas, systemically the frequency of regulatory T cells (Tregs) and expression of anti-inflammatory cytokine, IL-10, was markedly increased and frequency of natural killer cells decreased in B72/ Fcer1g-double nulls compared to B7-2-single nulls
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