Claude Charles Andre Bernard scite author profile

Objective Clinical studies indicate that anti-CD20 B cell depletion may be an effective multiple sclerosis therapy. We investigated mechanisms of its immune modulation using two paradigms of experimental autoimmune encephalomyelitis (EAE). Methods Murine EAE was induced by either recombinant myelin oligodendrocyte glycoprotein (rMOG), a model in which B cells are considered to contribute pathogenically, or MOG peptide (p)35–55, a model that does not require B cells. Results In EAE induced by rMOG, B cells became activated and, when serving as antigen presenting cells (APC), promoted differentiation of proinflammatory MOG-specific Th1 and Th17 cells. B cell depletion prevented or reversed established rMOG-induced EAE, which was associated with less CNS inflammation, elimination of meningeal B cells, and reduction of MOG-specific Th1 and Th17 cells. In contrast, in EAE induced by MOG p35–55, B cells did not become activated or efficiently polarize proinflammatory MOG-specific T cells, similar to naïve B cells. In this EAE setting, anti-CD20 treatment exacerbated EAE, and did not impede development of Th1 or Th17 cells. Irrespective of the EAE model used, B cell depletion reduced the frequency of regulatory T cells, and increased the capacity of remaining APC to promote development of encephalitogenic T cells. Interpretation Our study highlights distinct roles for B cells in pathogenesis and regulation of CNS autoimmune disease. Clinical benefit from depletion of antigen-activated B cells may relate primarily to abrogation of proinflammatory B cell APC function. However, in certain clinical settings, elimination of unactivated B cells, which participate in regulation of T cells and other APC, may be undesirable.

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The Directed Differentiation of Human iPS Cells into Kidney Podocytes

Song

et al. 2012

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The loss of glomerular podocytes is a key event in the progression of chronic kidney disease resulting in proteinuria and declining function. Podocytes are slow cycling cells that are considered terminally differentiated. Here we provide the first report of the directed differentiation of induced pluripotent stem (iPS) cells to generate kidney cells with podocyte features. The iPS-derived podocytes share a morphological phenotype analogous with cultured human podocytes. Following 10 days of directed differentiation, iPS podocytes had an up-regulated expression of mRNA and protein localization for podocyte markers including synaptopodin, nephrin and Wilm’s tumour protein (WT1), combined with a down-regulation of the stem cell marker OCT3/4. In contrast to human podocytes that become quiescent in culture, iPS-derived cells maintain a proliferative capacity suggestive of a more immature phenotype. The transduction of iPS podocytes with fluorescent labeled-talin that were immunostained with podocin showed a cytoplasmic contractile response to angiotensin II (AII). A permeability assay provided functional evidence of albumin uptake in the cytoplasm of iPS podocytes comparable to human podocytes. Moreover, labeled iPS-derived podocytes were found to integrate into reaggregated metanephric kidney explants where they incorporated into developing glomeruli and co-expressed WT1. This study establishes the differentiation of iPS cells to kidney podocytes that will be useful for screening new treatments, understanding podocyte pathogenesis, and offering possibilities for regenerative medicine.

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Granulocyte Macrophage Colony-Stimulating Factor

et al. 2001

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Experimental autoimmune encephalomyelitis (EAE), a model for multiple sclerosis, can be induced by immunization with a number of myelin antigens. In particular, myelin oligodendrocyte glycoprotein, a central nervous system (CNS)-specific antigen expressed on the myelin surface, is able to induce a paralytic MS-like disease with extensive CNS inflammation and demyelination in several strains of animals. Although not well understood, the egress of immune cells into the CNS in EAE is governed by a complex interplay between pro and antiinflammatory cytokines and chemokines. The hematopoietic growth factor, granulocyte macrophage colony-stimulating factor (GM-CSF), is considered to play a central role in maintaining chronic inflammation. The present study was designed to investigate the previously unexplored role of GM-CSF in autoimmune-mediated demyelination. GM-CSF−/− mice are resistant to EAE, display decreased antigen-specific proliferation of splenocytes, and fail to sustain immune cell infiltrates in the CNS, thus revealing key activities for GM-CSF in the development of inflammatory demyelinating lesions and control of migration and/or proliferation of leukocytes within the CNS. These results hold implications for the pathogenesis of inflammatory and demyelinating diseases and may provide the basis for more effective therapies for inflammatory diseases, and more specifically for multiple sclerosis.

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