UNIPROT:P42574 - FACTA Search

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice that lack the transcription factors encoded by the E2A gene or the receptor for interleukin 7 (IL-7R) have severe overlapping defects in lymphocyte development. Here, we show that E2A proteins are required for the survival of early T-lineage cells; however, they function through a pathway that is distinct from the survival pathway initiated by IL-7R signaling. While E2A proteins are required to suppress caspase 3 activation, ectopic expression of the anti-apoptotic protein Bcl-2 is not sufficient to overcome the lymphopoietic defects observed in the absence of E2A. Remarkably, mice that lack both IL-7Ralpha and E47 display a synergistic decrease in the number of T-cell, NK-cell and multipotent progenitors in the thymus, indicating that these distinct survival pathways converge to promote the development of multipotent lymphoid progenitors.
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PMID:IL-7Ralpha and E47: independent pathways required for development of multipotent lymphoid progenitors. 1178 30

Stressful stimuli can elicit 2 distinct reactive cellular responses, the heat shock (stress) response and the activation of cell death pathways. Most studies on the effects of hyperthermia on the mammalian nervous system have focused on the heat shock response, characterized by the transient induction of Hsps, which play roles in repair and protective mechanisms. This study examines the effect of hyperthermia on the induction of cell death via apoptosis, assayed by terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling and active caspase 3 cytochemistry, in the adult rat brain, testis, and thymus. Results show that a fever-like increase in temperature triggered apoptosis in dividing cell populations of testis and thymus, but not in mature, postmitotic cells of the adult cerebellum. These differential apoptotic responses did not correlate with whole-tissue levels of Hsp70 induction. We further investigated whether dividing neural cells were more sensitive to heat-induced apoptosis by examining the external granule cell layer of the cerebellum at postnatal day 7 and the neuroepithelial layers of the neocortex and tectum at embryonic day 17. These proliferative neural regions were highly susceptible to hyperthermia-induced apoptosis, suggesting that actively dividing cell populations are more prone to cell death induced by hyperthermia than fully differentiated postmitotic neural cells.
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PMID:The effect of hyperthermia on the induction of cell death in brain, testis, and thymus of the adult and developing rat. 1189 90

Apoptosis plays a crucial role in clonal deletion in the thymus, and NO has been shown to prevent apoptosis in some cell types. Therefore, we examined the effect of NO on gamma-irradiation-induced thymocyte apoptosis. Treatment of 5 Gy gamma-irradiated thymocytes with 1 mM SNAP reduced cell death from 78 to 49% after 8 h incubation (spontaneous cell death in medium control cells was 26%). Coincubation with ZVAD blocked both the spontaneous cell death and the cell death induced by SNAP or gamma-irradiation. The gamma-irradiation-induced increase in caspase 3 and 6 activities was inhibited in the presence of SNAP. The increase in cytosolic cytochrome c as well as the decrease in mitochondrial membrane potential after gamma-irradiation was inhibited in the presence of SNAP. SNAP treatment also decreased the p53 upregulation in gamma-irradiated cells. In summary, we found that NO exerts a protective effect on mouse thymocyte apoptosis induced by gamma-irradiation. The mechanism of this protective effect may involve inhibition of p53 upregulation and reduction in mitochondrial damage, with subsequent inhibition of downstream caspase activation.
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PMID:Nitric oxide protects thymocytes from gamma-irradiation-induced apoptosis in correlation with inhibition of p53 upregulation and mitochondrial damage. 1190 31

Thymocytes expressing self-reactive T-cell receptors (TCR) are eliminated in the thymus through a TCR-mediated signal. This cell death signal (negative selection) generates nuclear morphological change and DNA fragmentation in thymocytes. However, the pathway leading to DNA fragmentation of thymocytes following TCR engagement remains obscure. In this study, we investigated the localization and function of caspase-activated DNAse (CAD) and its inhibitor (ICAD) in thymocytes prior to or after in vivo TCR stimulation. We showed that CAD and ICAD are co-localized in microsome, nuclei and cytosol in unstimulated thymocytes. Following in vivo TCR engagement, ICAD located in cytosol and microsome was degraded and the resulting activated CAD induced chromosomal DNA fragmentation. CAD present in cytosol and microsome of unstimulated thymocytes was activated by recombinant caspase-3, and microsomal CAD was released to the cytosol. These results demonstrate that TCR engagement of thymocytes induces caspase-3-dependent activation of CAD localized in both cytosol and microsome, leading to DNA fragmentation in harmony.
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PMID:The regulation of DNAse activities in subcellular compartments of activated thymocytes. 1198 60

Chemokine receptors are members of the G protein coupled receptor (GPCR) supergene family whose expression is highly restricted to hematopoietic cells. Although the primary role of chemokine and chemokine receptor interaction is believed to be regulation of chemotaxis of leukocytes, subsequent information clearly suggests that multiple immune regulatory functions are attributed to chemokine receptor signaling. We recently showed that activation of the CC chemokine 9 receptor (CCR9), a thymus-specific chemokine receptor, led to potent cFLIP(L)-independent resistance to cycloheximide-induced apoptosis and modest resistance to Fas-mediated apoptosis possibly via activation of multiple signaling components involving Akt and glycogen synthase kinase 3beta. The fact that these two apoptotic signals involve activation of similar arrays of death execution machinery such as caspase-8, caspase-9, or caspase-3, suggests that chemokine receptor signaling may provide a wide range of antiapoptotic activities to hematopoietic cells under certain biological conditions. GPCR is a large family of cell surface receptors, many of which are critically involved in hormonal and behavioral control. Recent observations also suggest that GPCR signaling plays a pivotal role in immune cell activation. Heterotrimeric G protein is an integral part of GPCR signaling. Thus, dissection of signaling components involved in the CCR9-mediated antiapoptosis could be a framework for cell survival mechanisms and may provide options for therapeutic interventions for neurdegenerative diseases or T cell malfunctioning.
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PMID:Role of the CC chemokine receptor 9/TECK interaction in apoptosis. 1199 71

Clinical and experimental studies have demonstrated that excessive alcohol consumption can result in impairment of the immune system, and can impact several immune functions including immune tolerance and host defense against opportunistic infections, and development of certain tumors. Although multiple factors are involved in the effects of ethanol on the immune system, several studies implicate chronic activation of immune cells and impairment of thymus-derived lymphocytes (T lymphocytes). Helper CD4+ T lymphocytes are the central regulators of the immune system and depletion of these lymphocytes is a major contributing factor in ethanol-induced immune dysfunction and exacerbation of HIV and/or HCV pathogenesis. However, the mechanisms involved in the ethanol induced CD4+ T cell depletion have only recently begun to be elucidated. Our work demonstrates that exposure of human CD4+ T cells to physiologically relevant concentrations of ethanol leads to the (i) enhanced activation of TNFalpha-inducible NFkappaB, the transcriptional regulator of the Fas promoter and ii) increased susceptibility to Fas-and activation-induced apoptotic death via augmentation of caspase 3 activity. Work done by us, and others, on the effects of ethanol on CD4+ T cell function and survival strongly suggests that alcohol plays a significant role as a co-factor in HIV and/or HCV pathogenesis.
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PMID:Mechanisms of alcohol-mediated CD4+ T lymphocyte death: relevance to HIV and HCV pathogenesis. 1208 12

Caspase-3, a major player in apoptosis, engages apoptosis-activated cells into an irreversible pathway leading to cell death. In this article, we report that caspase-3 protein is absent from rat and mouse adult skeletal muscles, despite the abundant presence of its mRNA. During skeletal muscle development, caspase-3 protein is present in neonatal animals, but its expression gradually decreases, and disappears completely by 1 month of age, when there is still abundant caspase-3 mRNA. This discordance between caspase-3 message and protein expression is unique to skeletal muscle, as in all other analyzed tissues the protein presence correlates with the presence of the mRNA. The only circumstance in which caspase-3 protein appears in adults is in regenerating muscles; once regeneration is complete, however, it again becomes undetectable in repaired muscles. We conclude that caspase-3 protein in skeletal muscle is uniquely regulated at the post-transcriptional level, unseen in other tissues such as brain, heart, lung, kidney, thymus, spleen, liver, or testis. The post-transcriptional regulation of caspase-3 might serve as a fail-safe mechanism to avoid accidental cell death.
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PMID:Development-dependent disappearance of caspase-3 in skeletal muscle is post-transcriptionally regulated. 1211 12

3-Amino-1,4-dimethyl-5H-pyrido[4,3-b]indole (Trp-P-1), a contaminant in our daily diet, induces apoptosis in cultured immunocytes. In this study, Trp-P-1 (1 mg/kg) was injected intraperitoneally into male Wistar rats to investigate whether Trp-P-1 induces apoptosis in immune tissues in vivo. In the thymus, Trp-P-1 induced DNA fragmentation and morphological changes. Trp-P-1 also activated the initiator and executioner caspases, caspase-8 and -3, respectively, and activated caspase-3 in turn cleaved its intracellular substrate poly(ADP-ribose) polymerase 1 hr after injection. On the other hand, Trp-P-1 upregulated anti-apoptotic factors Bcl-2 and Bcl-XL and downregulated pro-apoptotic factor Bax in mitochondria 1 hr after injection, indicating that Trp-P-1 also stimulated anti-apoptotic signals. Trp-P-1 activated the serine-threonine protein kinase Akt, which is known to be an anti-apoptotic protein, and increased the DNA binding activities of apoptosis-associated transcription factors NF-kappaB and AP-1. In addition to the thymus, increases in the activities of these transcription factors were also observed in the spleen and in mononuclear cells from the blood. Therefore, Trp-P-1 activates both pro- and anti-apoptotic signals in vivo in the immune system, particularly in the thymus, and the former signal overcomes the latter.
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PMID:Apoptosis in the thymus after intraperitoneal injection of rats with Trp-P-1. 1235 51

We demonstrated selective activation of caspases in the thymus during heat shock, i.e. primary activation of initiator caspase 9 (but not caspase 8) and effector caspase 3 (but not caspase 6). Preadaptation to heat improved animal survival after heat shock and reduced heat shock-induced activation of both initiator and effector caspases. Hence, adaptation to heat produced an antiapoptotic effect, which was not selective towards receptor-dependent or mitochondrial pathway of the caspase cascade activation.
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PMID:Adaptation to heat limits stress-induced activation of caspases in the thymus. 1253 48

Mammalian STE20-like kinase 2 (MST2), a member of the STE20-like kinase family, has been shown in previous studies to undergo proteolytic activation by caspase-3 during cell apoptosis. A few studies have also implicated protein phosphorylation reactions in MST2 regulation. In this study, we examined the mechanism of MST2 regulation with an emphasis on the relationship between caspase-3 cleavage and protein phosphorylation. Both the full-length MST2 and the caspase-3-truncated form of MST2 overexpressed in 293T cells exist in a phosphorylated state. On the other hand, the endogenous full-length MST2 from rat thymus or from proliferating cells is mainly unphosphorylated whereas the caspase-3-truncated endogenous MST2 from apoptotic cells is highly phosphorylated. Cell transfection studies using mutant MST2 constructs indicate that MST2 depends on the autophosphorylation of a unique threonine residue, Thr(180), for kinase activity. The autophosphorylation reaction shows strong dependence on MST2 concentration suggesting that it is an intermolecular reaction. While both the full-length MST2 and the caspase-3-truncated form of MST2 undergo autophosphorylation, the two forms of the phosphorylated MST2 display marked difference in susceptibility to protein phosphatases. The full-length phospho-MST2 is rapidly dephosphorylated by protein phosphatase 1 or protein phosphatase 2A whereas the truncated MST2 is remarkably resistant to the dephosphorylation. Based on the present results, a novel molecular mechanism for MST2 regulation in apoptotic cells is postulated. In normal cells, because of the low concentration and the ready reversal of the autophosphorylation by protein phosphatases, MST2 is present mainly in the unphosphorylated and inactive state. During cell apoptosis, MST2 is cleaved by caspase-3 and undergoes irreversible autophosphorylation, thus resulting in the accumulation of active MST2.
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PMID:Regulation of mammalian STE20-like kinase 2 (MST2) by protein phosphorylation/dephosphorylation and proteolysis. 1255 36

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