16 research outputs found
Expression of interleukin (IL)-2 and IL-7 receptors discriminates between human regulatory and activated T cells
Abnormalities in CD4+CD25+Foxp3+ regulatory T (T reg) cells have been implicated in susceptibility to allergic, autoimmune, and immunoinflammatory conditions. However, phenotypic and functional assessment of human T reg cells has been hampered by difficulty in distinguishing between CD25-expressing activated and regulatory T cells. Here, we show that expression of CD127, the α chain of the interleukin-7 receptor, allows an unambiguous flow cytometry–based distinction to be made between CD127lo T reg cells and CD127hi conventional T cells within the CD25+CD45RO+RA− effector/memory and CD45RA+RO− naive compartments in peripheral blood and lymph node. In healthy volunteers, peripheral blood CD25+CD127lo cells comprised 6.35 ± 0.26% of CD4+ T cells, of which 2.05 ± 0.14% expressed the naive subset marker CD45RA. Expression of FoxP3 protein and the CD127lo phenotype were highly correlated within the CD4+CD25+ population. Moreover, both effector/memory and naive CD25+CD127lo cells manifested suppressive activity in vitro, whereas CD25+CD127hi cells did not. Cell surface expression of CD127 therefore allows accurate estimation of T reg cell numbers and isolation of pure populations for in vitro studies and should contribute to our understanding of regulatory abnormalities in immunopathic diseases
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Antiretroviral treatment simplification with two-drug regimens: Impact of transmitted drug resistance mutations
The frequency of clinically relevant transmitted drug resistance mutations (DRMs) against drugs used for 2-drug regimens was 15.6%, but only 2% were not eligible for 1 or more 2-drug regimens. More than 50% of patients harboring any clinically relevant DRMs were found to be part of genetic transmission clusters
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Antiretroviral Treatment Simplification With 2-Drug Regimens: Impact of Transmitted Drug Resistance Mutations.
The frequency of clinically relevant transmitted drug resistance mutations (DRMs) against drugs used for 2-drug regimens was 15.6%, but only 2% were not eligible for 1 or more 2-drug regimens. More than 50% of patients harboring any clinically relevant DRMs were found to be part of genetic transmission clusters
Persistence of naive CD43RA+ regulatory T cells in adult life
Regulatory T cells (TREGs) constitutively expressing CD4, CD25, and the transcription
factor Foxp3 can prevent a wide range of experimental and spontaneous autoimmune diseases in mice. In humans, CD4+CD25bright T cells, predominantly within the CD45RO+ activated/memory subset in adults and the CD45RA+ naive T-cell subset in infants, are considered to be the equivalent subset. Using novel combinations of monoclonal antibodies (mAbs), we examined
expression of CD25 in human infant thymus, cord blood, adult peripheral blood, lymph node, and spleen. In addition to the CD4+CD25bright T cells, subfractionation on the basis of CD45 splice variants indicated that all samples contained a second distinct population of cells expressing a slightly lower level of CD25. In adult peripheral blood, this population expressed a naive CD45RA+ phenotype. The corresponding population in lymph node, spleen, and cord blood showed some evidence of activation, and expressed markers characteristic of
TREGs, such as cytotoxic T lymphocyte–associated antigen 4 (CTLA-4). Sorted CD4+CD25+CD45RA+ T cells from both cord and adult blood expressed very high levels of mRNA for Foxp3 and manifested equivalent suppressive activity in vitro, indicating that they are bone fide members of the regulatory T-cell lineage. Targeting naive TREGs in adults may offer new means of preventing and treating autoimmune disease