Benedikt Fritzsching scite author profile

Immunoregulatory T cells of CD4 + CD25 + phenotype suppress T cell function and protect rodents from organ-specific autoimmune disease. The human counterpart of this subset of T cells expresses high levels of CD25 and its role in human autoimmune disorders is currently under intense investigation. In multiple sclerosis (MS), a chronic inflammatory disease of the central nervous system (CNS), the activation of circulating self-reactive T cells with specificity for myelin components is considered to be an important disease initiating event. Here, we investigated whether MS is associated with an altered ability of CD4 + CD25 high regulatory T cells (T reg ) to confer suppression of myelin-specific immune responses. Whereas T reg frequencies were equally distributed in blood and cerebrospinal fluid of MS patients and did not differ compared to healthy controls, the suppressive potency of patient-derived CD4 + CD25 high T lymphocytes was impaired. Their inhibitory effect on antigen-specific T cell proliferation induced by human recombinant myelin oligodendrocyte protein as well as on immune responses elicited by polyclonal and allogeneic stimuli was significantly reduced compared to healthy individuals. The effect was persistent and not due to responder cell resistance or altered survival of T reg , suggesting that a defective immunoregulation of peripheral T cells mediated by CD4 + CD25 high T lymphocytes promotes CNS autoimmunity in MS.

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Prevalence of Newly Generated Naive Regulatory T Cells (Treg) Is Critical for Treg Suppressive Function and Determines Treg Dysfunction in Multiple Sclerosis

Haas

et al. 2007

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The suppressive function of regulatory T cells (Treg) is impaired in multiple sclerosis (MS) patients. The mechanism underlying the Treg functional defect is unknown. Treg mature in the thymus and the majority of cells circulating in the periphery rapidly adopt a memory phenotype. Because our own previous findings suggest that the thymic output of T cells is impaired in MS, we hypothesized that an altered Treg generation may contribute to the suppressive deficiency. We therefore determined the role of Treg that enter the circulation as recent thymic emigrants (RTE) and, unlike their CD45RO+ memory counterparts, express CD31 as typical surface marker. We show that the numbers of CD31+-coexpressing CD4+CD25+CD45RA+CD45RO−FOXP3+ Treg (RTE-Treg) within peripheral blood decline with age and are significantly reduced in MS patients. The reduced de novo generation of RTE-Treg is compensated by higher proportions of memory Treg, resulting in a stable cell count of the total Treg population. Depletion of CD31+ cells from Treg diminishes the suppressive capacity of donor but not patient Treg and neutralizes the difference in inhibitory potencies between the two groups. Overall, there was a clear correlation between Treg-mediated suppression and the prevalence of RTE-Treg, indicating that CD31-expressing naive Treg contribute to the functional properties of the entire Treg population. Furthermore, patient-derived Treg, but not healthy Treg, exhibit a contracted TCR Vβ repertoire. These observations suggest that a shift in the homeostatic composition of Treg subsets related to a reduced thymic-dependent de novo generation of RTE-Treg with a compensatory expansion of memory Treg may contribute to the Treg defect associated with MS.

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Benedikt Fritzsching

Reduced suppressive effect of CD4+CD25high regulatory T cells on the T cell immune response against myelin oligodendrocyte glycoprotein in patients with multiple sclerosis

Prevalence of Newly Generated Naive Regulatory T Cells (Treg) Is Critical for Treg Suppressive Function and Determines Treg Dysfunction in Multiple Sclerosis

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