Granulocytes, macrophages/microglia, and activated match are also found in the lesions, which could contribute to demyelination during acute relapses. match activation, and antibody-dependent cellular cytotoxicity. Activation of peripheral MOG-specific B cells through TLR activation or T follicular helper cells might help differentiate MOG antibody-producing plasma cells in the peripheral blood. Neuroinflammatory biomarkers (such as MBP, sNFL, GFAP, Tau) in MOGAD support that most axonal damage happens in the initial attack, whereas relapses are associated with increased myelin damage. Keywords: MOGAD, T cells, MOG (myelin oligodendrocyte glycoprotein), blood brain barrier (BBB), MOG-IgG, autoantibodies, pathophysiology-contemporary knowledge Introduction MOG is usually a transmembrane protein found on the outer surface of the central nervous system myelin and a marker of mature oligodendrocytes (1, 2). It constitutes only a small portion of the myelin (0.05%), and its possible functions include cell adhesion, microtubule stability, and receptor function (1, 3, 4). High titers of autoantibodies targeting MOG are recognized in various demyelinating diseases, including optic neuritis, transverse myelitis, acute disseminated encephalomyelitis (ADEM), and cerebral cortical encephalitis. These are now recognized as a spectrum of diseases associated AVX 13616 with MOG antibodies, MOGAD (5). DCN Despite heterogeneous presentation and clinical overlap between MOGAD, multiple sclerosis (MS), and neuromyelitis optica spectrum disease (AQP4-IgG+, NMOSD), unique radiologic, pathological, lab, and clinical features of MOGAD have been identified (Table 1), and most recently an international MOGAD diagnostical criteria has been proposed (63). Table 1 Distinctive features of MOGAD. = 606) (70). On the other hand, QAlb levels are reported variably for NMOSD (increased in up to 50C80% of patients), which implies implying blood-CSF barrier dysfunction in MOGAD may not be as severe as it is in NMOSD (45, 46, 71). CSF cytokine/chemokine profile of MOGAD shows increased proinflammatory cytokines (Physique 2, created with BioRender.com), including Th1 AVX 13616 (TNF-, IFN), Th2 (IL13), Th17 (IL6, IL8, G-CSF, GM-CSF), Treg (IL10) and B cell (CXCL12, APRIL, BAFF, CXCL13, CCL19) related and other (IL-1ra, MCP-1, MIP-1a) cytokines/chemokines (72, 73). Open in a separate window Physique 2 Pathophysiological actors in MOGAD. Autoimmune etiology of MOGAD The prevailing concept for autoimmunity in MOGAD is the outside-in model, where autoantibodies and activated immune cells in AVX 13616 the peripheral blood cross the blood-brain barrier at the time of attack/relapse (Physique 2) (41, 74). The central tolerance toward MOG may not be well developed in the thymus, preventing the removal of MOG reactive T cells by unfavorable selection (1, 75, 76). In the thymus, the expression of a self-antigen in the epithelial cells eliminates lymphocytes with a strong affinity to a self-antigen (central tolerance) and also allows some self-reactive T cells to develop into Tregs (peripheral tolerance) (77). MOG expression in the human thymus is usually variably reported. In two studies analyzing the thymus, MOG RNA was not detected, while in another study, MOG was detected in isolated medullary thymic epithelial cells (78C81). There is no protein-level study assessing MOG expression in human thymic tissue. Even if MOG expression in the thymus is usually low or present, central tolerance is not a perfect process, and peripheral tolerance mechanisms are needed to suppress self-reactive lymphocytes. Peripheral tolerance mechanisms include anergy or apoptosis of self-reactive T cells through the absence of costimulatory molecules or the presence of inhibitory molecules (such as PD1 or CTLA) and regulatory T cells (77). From MOG-induced EAE models and human MOGAD, we know that tolerance against MOG could be disrupted. MOG reactive T cells, present due to a compromised tolerance against MOG, could be activated AVX 13616 upon antigen-specific or non-specifically through mechanisms such as MOG peptide presentation, molecular mimicry, or bystander activation. MOG peptides could be present in the periphery, such as in cervical lymph nodes draining CNS, AVX 13616 or rarely in a tumor expression MOG (82, 83). MOG antibodies, on the other hand, could facilitate acknowledgement of trace amounts of MOG present in the periphery leading to T cell activation (84). Infections could cause bystander activation and molecular mimicry. Milk protein Butyrophilin and small Hepatitis B surface antigen are reported to have cross-immunoreactivity with MOG; however, pathophysiological consequences of these molecular mimicries have not been established (85, 86). Immunogenetics Genetic risk factors associated with the autoimmune etiology of MOGAD.