UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The work reviewed in this article separates T cell development into four phases. First is an expansion phase prior to TCR rearrangement, which appears to be correlated with programming of at least some response genes for inducibility. This phase can occur to some extent outside of the thymus. However, the profound T cell deficit of nude mice indicates that the thymus is by far the most potent site for inducing the expansion per se, even if other sites can induce some response acquisition. Second is a controlled phase of TCR gene rearrangement. The details of the regulatory mechanism that selects particular loci for rearrangement are still not known. It seems that the rearrangement of the TCR gamma loci in the gamma delta lineage may not always take place at a developmental stage strictly equivalent to the rearrangement of TCR beta in the alpha beta lineage, and it is not clear just how early the two lineages diverge. In the TCR alpha beta lineage, however, the final gene rearrangement events are accompanied by rapid proliferation and an interruption in cellular response gene inducibility. The loss of conventional responsiveness is probably caused by alterations at the level of signaling, and may be a manifestation of the physiological state that is a precondition for selection. Third is the complex process of selection. Whereas peripheral T cells can undergo forms of positive selection (by antigen-driven clonal expansion) and negative selection (by abortive stimulation leading to anergy or death), neither is exactly the same phenomenon that occurs in the thymic cortex. Negative selection in the cortex appears to be a suicidal inversion of antigen responsiveness: instead of turning on IL-2 expression, the activated cell destroys its own chromatin. The genes that need to be induced for this response are not yet identified, but it is unquestionably a form of activation. It is interesting that in humans and rats, cortical thymocytes undergoing negative selection can still induce IL-2R alpha expression and even be rescued in vitro, if exogenous IL-2 is provided. Perhaps murine thymocytes are denied this form of rescue because they shut off IL-2R beta chain expression at an earlier stage or because they may be uncommonly Bcl-2 deficient (cf. Sentman et al., 1991; Strasser et al., 1991). Even so, medullary thymocytes remain at least partially susceptible to negative selection even as they continue to mature.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The development of functionally responsive T cells. 138 62

Negative selection during T cell ontogeny involves selective induction of apoptosis in thymocytes. In peripheral lymphoid cells, apoptosis may be mediated via the APO-1 pathway. Here we report that APO-1 is constitutively expressed on the vast majority of human thymocytes but down-regulated at a mature stage of thymocyte development (TCR(hi)). This stage of development is characterized by CD28hi, CD44hi, CD69hi and up-regulation of Bcl-2 protein. We define a new thymocyte subpopulation that expresses high levels of APO-1 and intermediate levels of T cell receptor alpha/beta (TCR(im)/APO-1hi). The TCR(im)/APO-1hi population contains a large fraction of dead cells, suggesting that the APO-1 pathway may be involved in negative selection of at least a fraction of thymocytes after intrathymic activation.
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PMID:Differential expression of APO-1 on human thymocytes: implications for negative selection? 751 Feb 44

T cell activation through the TCR can result in either cell proliferation or cell death. The role of costimulatory receptors in regulating T cell survival has not been defined. Here, we present data demonstrating that CD28 costimulation enhances the in vitro survival of activated T cells. One mechanism for this enhancement is the ability of CD28 costimulation to augment the production of IL-2, which acts as an extrinsic survival factor for T cells. In addition, CD28 costimulation augments the intrinsic ability of T cells to resist apoptosis. Although CD28 signal transduction had no effect on Bcl-2 expression, CD28 costimulation was found to augment the expression of Bcl-XL substantially. Transfection experiments demonstrated that this level of Bcl-XL could prevent T cell death in response to TCR cross-linking, Fas cross-linking, or IL-2 withdrawal. These data suggest that an important role of CD28 costimulation is to augment T cell survival during antigen activation.
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PMID:CD28 costimulation can promote T cell survival by enhancing the expression of Bcl-XL. 762 Oct 80

Bcl-2, a proto-oncogene that can block apoptosis, was found to be expressed throughout the thymic medulla, but in only scattered cells in the thymic cortex. In order to determine the precise distribution of Bcl-2 protein during thymocyte development, we utilized mAb specific for either mouse or human Bcl-2. Thymocyte subpopulations were assessed using three-color flow cytometry and a saponin-permeabilization method. Staining of adult mouse and human thymocytes was comparable, with 20 to 35% of cells expressing Bcl-2. Bcl-2 was expressed in nearly all CD4+ and CD8+, and CD3hi cells, but in only 5 to 10% of CD4+8+ cells. The CD4-8- population was more variable, with 25 to 40% of human cells and 65 to 80% of murine cells expressing Bcl-2. In sorted adult murine CD4-8- cells, the very immature Pgp-1+/IL-2R alpha- subset had a high percentage of Bcl-2+ cells. Bcl-2 expression was also examined during murine fetal development. At fetal day 15.5 to 16.5, 60 to 70% of total thymocytes expressed Bcl-2. By fetal day 17.5, overall Bcl-2 expression fell to adult levels of 20 to 30%. Bcl-2 was present in peripheral T cells from lymph node, spleen, and peripheral blood at uniformly high levels. In vitro stimulation with anti-CD3 or anti-TCR antibodies increased Bcl-2 expression in total thymocyte cultures, but could not induce Bcl-2 expression in CD4+8+ cells, even with the addition of a variety of cytokines. These data suggest that early double negative thymocytes express Bcl-2 but lose Bcl-2 with differentiation to the double positive stage. Thymocytes regain Bcl-2 during selection to a single positive state and retain Bcl-2 in the periphery.
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PMID:Expression of the Bcl-2 protein in murine and human thymocytes and in peripheral T lymphocytes. 836 Apr 76

A temperature-sensitive line of thymic nurse cells (tsTNC-1) that maintains the ability to selectively internalize immature alpha beta TCRloCD4+CD8+ thymocytes in vitro was used in long-term coincubation experiments to determine nurse cell function during the process of MHC restriction. The thymocyte subset released from its association with TNCs contained both viable and apoptotic cells. The cells that remained within intracytoplasmic vacuoles died through the process of programmed cell death. Surviving or rescued thymocytes in the released population displayed an increase in Bcl-2 protein expression. The rescue activity of TNCs was drastically reduced with the addition of antibodies against either class I or class II MHC antigens to cocultures. A subset of the TNC-rescued population matured from the alpha beta TCRloCD69- phenotype to alpha beta TCRhiCD(69+)-expressing cells only when IL-1 beta was added to cocultures. These results suggest that TNC rescue of early double-positive thymocytes from apoptosis is associated with an interaction between the TCR and the MHC and the onset of Bcl-2 expression. Maturation of thymocytes within the TNC-rescued population requires the costimulatory effects of IL-1 beta.
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PMID:Positive selection by thymic nurse cells requires IL-1 beta and is associated with an increased Bcl-2 expression. 862 May 45

Murine AIDS (MAIDS) induced by infection of C57BL/6 mice with a mixture of retroviruses known as LP-BM5 is characterized by lymphadenopathy, splenomegaly, and T and B cell dysfunction. By labeling with bromodeoxyuridine in vivo, we found vigorous CD4 T cell proliferation during the initial stages of infection, yet a loss in their ability to function both in vivo and in vitro. In addition, a significant fraction of the CD4 T cell population in infected mice undergoes spontaneous apoptosis in vivo. Upon in vitro stimulation with anti-CD3 plus PMA, anergic CD4 T cells from mice with MAIDS fail to progress through the cell cycle (G0/G1 arrest), and a fraction of the cells undergoes apoptosis. The addition of IL-2 along with TCR-mediated stimulation not only fails to rescue CD4 T cells from apoptosis, but enhances activation-induced cell death. To further understand the regulation of the suicide pathway(s) of anergic CD4 T cells vs the cytokine synthesis pathway(s) of normal CD4 T cells, we evaluated their expression of Bcl-2 protein. As infection progresses, the expression of Bcl-2 among CD4 T cells declines and drops further when CD4 T cells are restimulated through the TCR in vitro. These results suggest that this CD4 T cell immunodeficiency in MAIDS includes a TCR-induced program of activation-induced cell death and an uncoupling from cytokine synthesis pathways and proliferation of CD4 T cells. The decline in Bcl-2 expression may be in part responsible for this reprogramming.
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PMID:TCR triggering of anergic CD4 T cells in murine AIDS induces apoptosis rather than cytokine synthesis and proliferation. 875 10

CD28 has been demonstrated to play an important role in augmenting T cell proliferation and effector function. Costimulation through CD28 has also been reported to enhance human T cell survival. in this report, we have further investigated the role of CD28 in regulating T cell survival by comparing the survival characteristics of T cells from wild-type and CD28-deficient mice. CD28 costimulation of anti-CD3-activated cells augmented the viability of T cells from wild-type but not from CD28-deficient mice. CTLA4Ig treatment reduced wild-type T cell viability to a level comparable with CD28-deficient T cells. The ability of CD28 to enhance survival during T cell activation correlated positively with its ability to up-regulate the protein product of the cell survival gene bcl-xL. No differences in the expression of either Bcl-2 or Fas were observed between wild-type and CD28-deficient T cells. The CD28-dependent enhancement of cell survival during in vitro activation was found to be independent of Fas expression, as CD28 costimulation enhanced T cell survival to comparable levels in both wild-type and lpr animals. Cell death in CD28-deficient animals and in wild-type animals treated with CTLA4Ig displayed the morphologic characteristics of apoptosis. Additionally, inhibitors of ICE proteases could reverse cell death induced by TCR engagement in the absence of CD28 costimulation. Thus, CD28 costimulation not only enhances the proliferative expansion of cells activated through the TCR but also increases the likelihood that individual cells survive during T cell activation.
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PMID:CD28 costimulation prevents cell death during primary T cell activation. 875 11

Positive selection of T cells begins with TCR alpha beta lo thymic progenitors. Here, we show that the most efficient TCRlo progenitors are c-kit+ with intermediate levels of CD4 and CD8 (DPint). Positive selection of DPint TCRlo c-kit+ cells results in TCRmed CD69+ c-kit+ transitional intermediates that show increased TCRV beta frequencies to selecting superantigen (SAg) that are committed to the CD4 or CD8 pathway. The cells on the c-kit+ maturation pathway maintain Bcl-2 expression. Most DPint c-kit+ progenitors fail positive selection, and become DPhi c-kit- cells that lose Bcl-2 expression. Some DPhi c-kit blast cells can be salvaged to produce mature single-positive (SP) cells. DPint c-kit+ maturation to SP cells can occur in <12 hr in vitro on thymic stromal monolayers.
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PMID:The c-kit+ maturation pathway in mouse thymic T cell development: lineages and selection. 876 78

Immature CD4/CD8 double-positive (DP) thymocytes expressing self MHC-restricted TCR are positively selected in response to TCR signals to survive and differentiate into functionally competent CD4 or CD8 single positive (SP) T cells. In contrast, DP precursors expressing autoreactive TCR are clonally deleted in response to TCR signals. We show here that in vitro TCR engagement of TCR(low) DP thymocytes rapidly triggers a variety of events considered to be hallmarks of positive selection in vivo. These include increased expression of CD5 and Bcl-2, termination of RAG-1 and pre-T(alpha) gene expression, and a switch in lck promoter usage. We also demonstrate that CD4- or CD28-mediated signals synergize with TCR signals to induce these outcomes. Finally, we show that the response of DP thymocytes to TCR engagement is selective in that clonal deletion, CD4/CD8 lineage commitment, and other events associated with maturation, such as changes in expression of Thy-1, HSA, MHC class I, and CD45-RB, were not induced. Thus, only subsets of maturational processes associated with positive selection in vivo were shown to be directly coupled to TCR signaling pathways at the DP stage. These observations support conclusions from in vivo systems suggesting that multiple, temporally separated TCR engagements are required to effect the entire spectrum of developmental changes associated with positive selection, and provide a conceptual and experimental framework for unraveling the complexity of positive selection.
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PMID:TCR engagement of CD4+CD8+ thymocytes in vitro induces early aspects of positive selection, but not apoptosis. 897 76

Chimpanzees are one of the few species, along with humans, susceptible to persistent HIV-1 infection. However, HIV-infected chimpanzees do not exhibit the marked immune system alterations seen in humans and remain relatively resistant to AIDS. In humans, HIV infection leads to unresponsiveness of T cells in response to TCR stimulation, associated with increased T cell death by apoptosis. In an effort to understand some of the mechanisms used to limit lentivirus infection in African nonhuman primates, we compared apoptosis in infected humans vs chimpanzees in CD4 and CD8 T cells in relation with the expression of Bcl-2 and Fas molecules. The intensity of apoptosis in CD4 and CD8 T cells from infected chimpanzees was very low, was not inducible by several TCR-dependent activators, and was comparable to that detected in noninfected chimpanzees. Moreover, CD45RO+ and HLA-DR+ subsets, which were shown to exhibit ex vivo a high propensity to undergo apoptosis in infected humans, were not modified in infected chimpanzees. Interestingly, in contrast to the situation found in infected humans, Fas ligation by agonistic Abs or recombinant human Fas ligand on CD4 and CD8 T cells from infected chimpanzees did not induce apoptosis in these subsets even when Bcl-2 was down-regulated. Finally, this resistance to apoptosis was associated with the predominance of CD3 T cells with a Th1 phenotype. Together these observations argue for a strong relationship among the absence of chronic immune stimulation in HIV-1-infected chimpanzees, the normal control of lymphocyte survival, and the resistance to disease progression.
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PMID:Lack of chronic immune activation in HIV-infected chimpanzees correlates with the resistance of T cells to Fas/Apo-1 (CD95)-induced apoptosis and preservation of a T helper 1 phenotype. 905 36

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