SUMMARY
The human gut is colonized by a large number of microorganisms (~1013 bacteria) that support various physiologic functions. A perturbation in healthy gut microbiome might leads to the development of inflammatory diseases including multiple sclerosis (MS). Therefore, gut commensals can provide promising therapeutic options for treating autoimmune diseases such as MS. We report identification of human gut–derived commensal bacteria, Prevotella histicola, which can suppress an autoimmune disease in HLA class-II transgenic model of experimental autoimmune encephalomyelitis (EAE); an animal model of MS. P. histicola suppresses disease through modulation of systemic immune responses. P. histicola challenge led to a decrease in pro-inflammatory Th1 and Th17 cells, and increase in the frequencies of CD4+FoxP3+ regulatory T cells, tolerogenic dendritic cells, and suppressive macrophage. Our study provides evidence that administration of gut commensals may regulate a systemic immune response and may, therefore, have a possible role in the treatment strategies for MS.
Celiac disease (CD) is a common chronic immune disease triggered by gluten. Gliadin peptides pass through the epithelial layers, either paracellularly or transcellularly, to launch a potent adaptive immune response in the lamina propria. This aberrant immune response leads to diverse gastrointestinal and extra-gastrointestinal symptoms. Currently, the only treatment for CD is a strict lifelong adherence to a gluten-free diet (GFD), which can be challenging. An early effect of gluten in CD is an increase in gut permeability. Larazotide acetate, also known as AT-1001, is a synthetic peptide developed as a permeability regulator primarily targeting CD. In vitro studies indicate that larazotide acetate is capable of inhibiting the actin rearrangement caused by gliadin and clinical studies have been conducted using this peptide as a therapy for CD.
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