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ABSTRACT: MST1, mammalian STE20-like kinase 1, is a serine/threonine kinase that is cleaved and activated by caspases during apoptosis. MST1 is capable of inducing apoptotic morphological changes such as chromatin condensation upon overexpression. In this study, we show that MST1 contains two functional nuclear export signals (NESs) in the C-terminal domain, which is released from the N-terminal kinase domain upon caspase-mediated cleavage. Full-length MST1 is excluded from the nucleus and localized to the cytoplasm. However, either truncation of the C-terminal domain, point mutation of the two putative NESs, or treatment with leptomycin B, an inhibitor of the NES receptor, results in nuclear localization of MST1. Staurosporine treatment induces chromatin condensation, MST1 cleavage, and nuclear translocation. Staurosporine-induced chromatin condensation is partially inhibited by expressing a kinase-negative mutant of MST1, suggesting an important role of MST1 in this process. Significantly, MST1 is more efficient at inducing chromatin condensation when it is constitutively localized to the nucleus by mutation of its NESs. Moreover, inhibition of MST1 nuclear translocation by mutation of its cleavage sites reduces its ability to induce chromatin condensation. Taken together, these results suggest that truncation of the C-terminal domain of MST1 by caspases may result in translocation of MST1 into the nucleus, where it promotes chromatin condensation.
Proceedings of the National Academy of Sciences 09/2001; 98(18):10148-53. · 9.68 Impact Factor
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ABSTRACT: The balance between cell survival and cell death is critical for normal lymphoid development. This balance is maintained by signals through lymphocyte antigen receptors and death receptors such as CD95/Fas. In some cells, ligating the B cell antigen receptor can protect the cell from apoptosis induced by CD95. Here we report that ligation of CD95 inhibits antigen receptor-mediated signaling. Pretreating CD40-stimulated tonsillar B cells with anti-CD95 abolished B cell antigen receptor-mediated calcium mobilization. Furthermore, CD95 ligation led to the caspase-dependent inhibition of antigen receptor-induced calcium mobilization and to the activation of mitogen-activated protein kinase pathways in B and T cell lines. A target of CD95-mediated caspase 3-like activity early in the apoptotic process is the adaptor protein GrpL/Gads. GrpL constitutively interacts with SLP-76 via its C-terminal SH3 domain to regulate transcription factors such as NF-AT. Cleavage of GrpL removes the C-terminal SH3 domain so that it is no longer capable of recruiting SLP-76 to the membrane. Transfection of a truncated form of GrpL into Jurkat T cells blocked T cell antigen receptor-induced activation of NF-AT. These results suggest that CD95 signaling can desensitize antigen receptors, in part via cleavage of the GrpL adaptor.
Proceedings of the National Academy of Sciences 07/2001; 98(12):6789-93. · 9.68 Impact Factor
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ABSTRACT: MST1 is an upstream kinase of the JNK and p38 MAPK pathways whose expression induces apoptotic morphological changes such as nuclear condensation. During apoptosis, caspase cleavage of MST1 removes a C-terminal regulatory domain, increasing the kinase activity of the MST1 N-terminal domain. Downstream pathways of MST1 in the induction of apoptosis remain to be clarified.
In this study, we found that the expression of MST1 resulted in caspase-3 activation. Therefore, MST1 is not only a target of caspases but also an activator of caspases. This caspase activation and apoptotic changes occur through JNK, since the co-expression of a dominant-negative mutant of JNK inhibited MST1-induced morphological changes as well as caspase activation. In contrast, neither a dominant-negative p38 nor the p38 inhibitor SB203580 inhibited them. MST1 induced nucleosomal DNA fragmentation, which was suppressed by caspase inhibitors or ICAD (Inhibitor of Caspase-Activated DNase). Surprisingly, however, other changes such as membrane blebbing and chromatin condensation were not inhibited by caspase inhibitors.
These results suggest that MST1 most likely promotes two events through JNK activation; first, MST1 induces the activation of caspases, resulting in CAD-mediated DNA fragmentation, and second, MST1 induces chromatin condensation and membrane blebbing without utilizing downstream caspases.
Genes to Cells 07/2001; 6(6):519-30. · 2.68 Impact Factor
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ABSTRACT: The serine/threonine kinase Mst1, a mammalian homolog of the budding yeast Ste20 kinase, is cleaved by caspase-mediated proteolysis in response to apoptotic stimuli such as ligation of CD95/Fas or treatment with staurosporine. Furthermore, overexpression of Mst1 induces morphological changes characteristic of apoptosis in human B lymphoma cells. Mst1 may therefore represent an important target for caspases during cell death which serves to amplify the apoptotic response. Here we report that Mst1 has two caspase cleavage sites, and we present evidence indicating that cleavage may occur in an ordered fashion and be mediated by distinct caspases. We also show that caspase-mediated cleavage alone is insufficient to activate Mst1, suggesting that full activation of Mst1 during apoptosis requires both phosphorylation and proteolysis. Another role of phosphorylation may be to influence the susceptibility of Mst1 to proteolysis. Autophosphorylation of Mst1 on a serine residue close to one of the caspase sites inhibited caspase-mediated cleavage in vitro. Finally, Mst1 appears to function upstream of the protein kinase MEKK1 in the SAPK pathway. In conclusion, Mst1 activity is regulated by both phosphorylation and proteolysis, suggesting that protein kinase and caspase pathways work in concert to regulate cell death.
Journal of Biological Chemistry 06/2001; 276(18):14909-15. · 4.77 Impact Factor
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Advances in Enzyme Regulation 02/2000; 40:441-70.
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ABSTRACT: We have investigated the activation of the p38 MAPK pathway in response to CD40 engagement in multiple B cell lines and in human tonsillar B cells to define the role of p38 MAPK in proliferation, NF-kappaB activation and gene expression. Cross-linking CD40 rapidly stimulates both p38 MAPK and its downstream effector, MAPKAPK-2. Inhibition of p38 MAPK activity in vivo with the specific cell-permeable inhibitor, SB203580, under conditions that completely prevented MAPKAPK-2 activation, strongly perturbed CD40-induced tonsillar B cell proliferation while potentiating the B cell receptor (BCR)-driven proliferative response. SB203580 also significantly reduced expression of a reporter gene driven by a minimal promoter containing four NF-kappaB elements, indicating a requirement for the p38 MAPK pathway in CD40-induced NF-kappaB activation. However, CD40-mediated NF-kappaB binding was not affected by SB203580, suggesting that NF-kappaB may not be a direct target for the CD40-induced p38 MAPK pathway. In addition, SB203580 selectively reduced CD40-induced CD54/ICAM-1 expression, whereas CD40-dependent expression of CD40 and CD95/Fas and four newly defined CD40-responsive genes cIAP2, TRAF1, TRAF4/CART and DR3 were unaffected. Our observations show that the p38 MAPK pathway is required for CD40-induced proliferation and that CD40 induces gene expression via both p38 MAPK-dependent and -independent pathways.
The Journal of Immunology 11/1998; 161(7):3225-36. · 5.79 Impact Factor
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ABSTRACT: To define how the signaling pathways that mediate the B cell receptor (BCR) death pathway differ from those responsible for CD95/Fas-mediated death, we compared the BCR and Fas death pathways in two human B cell lines, B104 and BJAB. Both BCR- and Fas-induced apoptosis are blocked by the peptide cysteine protease inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone (ZVAD (mlz)), demonstrating a common requirement caspase activity. Despite this common characteristic, the ability of actinomycin D and cycloheximide to block BCR-induced apoptosis, but not apoptosis induced by Fas cross-linking, suggests that a major difference between these two pathways is their differential requirements for new gene and protein synthesis. BCR- and Fas-mediated apoptosis are both accompanied by activation of stress-activated protein kinase and p38 mitogen-activated protein kinase (MAPK). Activation of both stress-activated protein kinase and p38 MAPK was inhibited by ZVAD (mlz), suggesting the involvement of caspases. To determine the role of p38 MAPK activation in BCR- and Fas-induced apoptosis, we employed SB203580, a specific inhibitor of p38 MAPK. SB203580 inhibited BCR-induced apoptosis, but not apoptosis induced by cross-linking Fas. Furthermore, both actinomycin D and SB203580 inhibited BCR-induced, but not Fas-induced, activation of caspase. Collectively, these findings establish a role for p38 MAPK in BCR-induced apoptosis both upstream and downstream of caspase activity. The p38 MAPK pathway may function to regulate transcriptional or translational events that are critical for BCR-induced apoptosis.
The Journal of Immunology 08/1998; 161(1):168-74. · 5.79 Impact Factor
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ABSTRACT: Mst1 is a ubiquitously expressed serine-threonine kinase, homologous to the budding yeast Ste20, whose physiological regulation and cellular function are unknown. In this paper we show that Mst1 is specifically cleaved by a caspase 3-like activity during apoptosis induced by either cross-linking CD95/Fas or by staurosporine treatment. CD95/Fas-induced cleavage of Mst1 was blocked by the cysteine protease inhibitor ZVAD-fmk, the more selective caspase inhibitor DEVD-CHO and by the viral serpin CrmA. Caspase-mediated cleavage of Mst1 removes the C-terminal regulatory domain and correlates with an increase in Mst1 activity in vivo, consistent with caspase-mediated cleavage activating Mst1. Overexpression of either wild-type Mst1 or a truncated mutant induces morphological changes characteristic of apoptosis. Furthermore, exogenously expressed Mst1 is cleaved, indicating that Mst1 can activate caspases that result in its cleavage. Kinase-dead Mst1 did not induce morphological alterations and was not cleaved upon overexpression, indicating that Mst1 must be catalytically active in order to mediate these effects. Mst1 activates MKK6, p38 MAPK, MKK7 and SAPK in co-transfection assays, suggesting that Mst1 may activate these pathways. Our findings suggest the existence of a positive feedback loop involving Mst1, and possibly the SAPK and p38 MAPK pathways, which serves to amplify the apoptotic response.
The EMBO Journal 04/1998; 17(8):2224-34. · 9.20 Impact Factor
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ABSTRACT: Despite intensive efforts, the intracellular signaling pathways that mediate apoptosis remain unclear. The human B lymphoma cell line, B104, possesses characteristics that make it an attractive model for analysis of receptor-mediated apoptosis. Although these cells express both membrane IgM (mIgM) and membrane IgD (mIgD) crosslinking mIgM results in significant apoptosis while crosslinking mIgD does not. Our results show that crosslinking mIgM but not mIgD induced a delayed and sustained activation of the mitogen-activated protein kinase (MAPK) family members stress-activated protein kinase (SAPK) and p38 MAPK. The calcium ionophore ionomycin, which also induces apoptosis in B104 cells, stimulated a similar SAPK and p38 MAPK response. Cyclosporin A, a potent inhibitor of apoptosis induced by either mIgM or ionomycin, inhibited activation of both SAPK and p38 MAPK, suggesting that stimulation of these kinases may be required for induction of apoptosis. Collectively, our results indicate that SAPK and p38 MAPK may be downstream targets during mIgM-induced, calcium-mediated, apoptosis in human B lymphocytes.
Proceedings of the National Academy of Sciences 12/1996; 93(24):13814-8. · 9.68 Impact Factor
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Annals of the New York Academy of Sciences 10/1995; 766:320-43. · 3.15 Impact Factor
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Recent Progress in Hormone Research 02/1995; 50:131-59.
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ABSTRACT: T-lymphocyte activation via the antigen receptor complex (TCR) results in accumulation of p21ras in the active GTP-bound state. Stimulation of protein kinase C (PKC) can also activate p21ras, and it has been proposed that the TCR effect on p21ras occurs as a consequence of TCR regulation of PKC. To test the role of PKC in TCR regulation of p21ras, a permeabilized cell system was used to examine TCR regulation of p21ras under conditions in which TCR activation of PKC was blocked, first by using a PKC pseudosubstrate peptide inhibitor and second by using ionic conditions that prevent phosphatidyl inositol hydrolysis and hence diacylglycerol production and PKC stimulation. The data show that TCR-induced p21ras activation is not mediated exclusively by PKC. Thus, in the absence of PKC stimulation, the TCR was still able to induce accumulation of p21ras-GTP complexes, and this stimulation correlated with an inactivation of p21ras GTPase-activating proteins. The protein tyrosine kinase inhibitor herbimycin could prevent the non-PKC-mediated, TCR-induced stimulation of p21ras. These data indicate that two mechanisms for p21ras regulation coexist in T cells: one PKC mediated and one not. The TCR can apparently couple to p21ras via a non-PKC-controlled route that may involve tyrosine kinases.
Molecular and Cellular Biology 08/1992; 12(7):3305-12. · 5.53 Impact Factor
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ABSTRACT: The T cell growth factor IL-2 induces T cell progression through the cell cycle and ultimately controls T cell mitosis. Here we show that the guanine nucleotide-binding proteins p21ras may be involved in IL-2 signal transduction pathways. IL-2 causes a rapid and prolonged activation of p21ras in both murine and human T cells. The concentration-dependence of IL-2-mediated stimulation of p21ras correlated with IL-2 stimulation of T cell proliferation, which indicates that p21ras activity can be controlled by signals generated via the interaction between IL-2 and its high affinity cellular receptor. These results suggest that p21ras may play a role in the regulation of T cell growth by IL-2.
The Journal of Immunology 05/1992; 148(8):2417-22. · 5.79 Impact Factor
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ABSTRACT: Activation of T lymphocytes results in immediate biochemical changes including increases in intracellular calcium levels, activation of protein kinase C (PKC) and changes in tyrosine phosphorylation. In T cells recent studies have indicated that activation of the guanine nucleotide-binding proteins p21ras is mediated by PKC, which suggests that the p21ras proteins may regulate intracellular signalling events downstream of PKC. The p21ras proteins can be activated in T cells by signals generated by triggering of the T cell antigen receptor (TCR), the CD2 antigen and the interleukin 2 receptor. Experiments using a PKC pseudosubstrate inhibitor indicate that PKC does not mediate TCR-induced activation of p21ras. These results imply that an alternative signal transduction pathway not involving PKC can regulate the activity of p21ras proteins in T cells.
Ciba Foundation symposium 02/1992; 164:208-18; discussion 218-22.
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ABSTRACT: T cell stimulation via the TCR complex (TCR/CD3 complex) results in activation of the guanine nucleotide binding proteins encoded by the ras protooncogenes (p21ras). In the present study we show that the activation state of p21ras in T lymphocytes can also be controlled by triggering of the CD2 Ag. The activation state of p21ras is controlled by GTP levels on p21ras. In T cells stimulation of protein kinase C is able to induce an accumulation of "active" p21ras-GTP complexes due to an inhibitory effect of protein kinase C stimulation on the intrinsic GTPase activity of p21ras. The regulatory effect of protein kinase C on p21ras GTPase activity appears to be mediated via regulation of GAP, the GTPase activating protein of p21ras. In the present report, we demonstrate that the TCR/CD3 complex and the CD2 Ag control the accumulation of p21ras-GTP complexes via a regulatory effect on p21ras GTPase activity. The TCR/CD3 complex and CD2 Ag are also able to control the cellular activity of GAP. These data demonstrate that p21ras is part of the signal transduction responses controlled by the CD2 Ag, and reveal that the TCR/CD3 complex and CD2 Ag control the activation state of p21ras via a similar mechanism.
The Journal of Immunology 07/1991; 146(11):3709-12. · 5.79 Impact Factor
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ABSTRACT: In permeabilized human T lymphocytes, phospholipase C (PLC)-mediated metabolism of polyphosphatidylinositols can be stimulated by triggering the T cell antigen receptor/CD3 antigen complex (Ti/CD3) with the CD3 antibody UCHT1 or by activation of G proteins with the non-hydrolyzable guanine nucleotide analogue, guanosine 5'-O-(3-thiotrisphosphate) (GTP[S]). Ti/CD3 induction of inositol phosphate production demonstrated no dependence on exogenous guanine nucleotides. Furthermore, Ti/CD3 stimulation did not influence the kinetics or dose-response of GTP[S]-induced inositol phosphate production, suggesting that the Ti/CD3 complex does not regulate guanine nucleotide exchange on the G protein pool stimulated by GTP[S]. These data indicate that the Ti/CD3 complex is not G protein-linked to PLC in a manner analogous to the G protein linkage of receptors to adenylate cyclase. However, the inhibitory guanine nucleotide, GDP, antagonizes not only GTP[S]-induced polyphosphatidylinositol hydrolysis but also UCHT1-induced inositol phosphate production. These data infer that a G protein can modulate the coupling of the Ti/CD3 complex to PLC and that there may be some "cross-talk" between Ti/CD3 and G protein PLC coupling mechanisms.
The Journal of Immunology 05/1991; 146(7):2102-7. · 5.79 Impact Factor
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ABSTRACT: External signals that control the activity of proteins encoded by the ras proto-oncogenes have not previously been characterized. It is now shown that stimulation of the antigen receptor of T lymphocytes causes a rapid activation of p21ras. The mechanism seems to involve a decrease in the activity of GAP, the GTPase-activating protein, on stimulation of protein kinase C. In lymphocytes, p21ras may therefore be an important mediator of the action of protein kinase C.
Nature 09/1990; 346(6286):719-23. · 36.28 Impact Factor
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ABSTRACT: Activation of protein kinase C (PKC) in human T lymphocytes is an immediate consequence of mitogenic signalling via the antigen-receptor complex and CD2 antigen. In order to investigate further the signal-transduction pathways which result in PKC activation, we have established a novel PKC assay system using streptolysin-O-permeabilized T cells. Known peptide substrates of PKC were introduced into permeabilized cells in the presence of [gamma-32P]ATP, 3 mM-Mg2+ and 150 nM free Ca2+. The peptide found to have the lowest background phosphorylation had the sequence Pro-Leu-Ser-Arg-Thr-Leu-Ser-Val-Ala-Ala-Lys-Lys (peptide GS), and the phosphorylation of the peptide was increased up to 6-fold by direct activation of PKC with phorbol 12,13-dibutyrate. Induction of PKC activation with the UCHT1 antibody against the CD3 antigen, or with phytohaemagglutinin (PHA) or guanosine 5'-[gamma-thio]triphosphate (GTP[S]), increased peptide-GS phosphorylation by 2-3 fold. The specificity of PKC action on peptide GS was demonstrated by blocking increases in phosphorylation with a pseudosubstrate peptide PKC inhibitor. PKC activation by this technique could be detected within 1 min of adding external ligand. Dose-response curves revealed that PHA-induced production of inositol phosphates correlated closely with PKC activities, whereas only a partial correlation between these parameters was observed with GTP[S]. Our data are consistent with the presence of more than one G-protein-mediated pathway of PKC regulation in T cells. The quantitative PKC assay system described is both simple and reproducible, and its potential application to a wide range of cell types should prove useful in further investigations of PKC activation mechanisms.
Biochemical Journal 07/1990; 268(2):303-8. · 4.90 Impact Factor
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ABSTRACT: The purpose of the present study was to examine protein kinase C (PKC) isotype expression in T lymphoblasts derived from peripheral blood and the T leukaemic cell Jurkat. Using antisera reactive with PKC alpha, beta 1, and beta 2 and gamma, it was observed that T cells expressed two PKC isotypes, PKC alpha and beta 1. No PKC gamma was detected in T lymphocytes. In lymphoblasts, high levels of PKC beta compared to PKC alpha were found whereas Jurkat cells expressed high levels of alpha compared to PKC beta. Differences in the calcium sensitivity of phorbol ester-induced phosphorylation were observed in Jurkat and T lymphoblasts which correlated with the relative levels of PKC alpha and beta isotypes expressed by the cells.
FEBS Letters 02/1990; 260(1):53-6. · 3.54 Impact Factor
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ABSTRACT: A method of membrane permeabilization of T lymphocytes with the bacterial cytotoxin streptolysin O has allowed the effect of guanine nucleotide analogues on phosphatidylinositol metabolism and protein kinase C (PKC) activation to be investigated. The data demonstrate that, in permeabilized cells, phosphorylation of the gamma subunit of the CD3 antigen can be induced in response to the PKC activator phorbol 12,13-dibutyrate, the polyclonal mitogen phytohaemagglutinin (PHA) and the stimulatory guanine nucleotide analogue guanosine 5'-[gamma-thio]triphosphate (GTP[S]). Application of a pseudo-substrate inhibitor of PKC indicated that CD3gamma-chain phosphorylation induced in response to all three agonists was mediated by PKC. PHA and GTP[S] also stimulated inositol phospholipid turnover and inositol phosphate accumulation. The kinetics and concentration-dependence of PHA-induced inositol phospholipid hydrolysis correlated with PHA-induced CD3gamma phosphorylation, suggesting that PHA may regulate CD3gamma phosphorylation via diacylglycerol produced as a consequence of inositol phospholipid hydrolysis. However, there was an inconsistency in that PHA induced greater (greater than 200%) levels of inositol phospholipid turnover than did GTP[S], but much weaker (less than 50%) levels of CD3-antigen phosphorylation. There was also a discrepancy between GTP[S] effects on phosphatidylinositol turnover and PKC activation, in that the half-maximal GTP[S] concentration for inositol phosphate production and CD3gamma-chain phosphorylation was 0.75 microM and 75 microM respectively. Moreover, 10 microM-GTP[S] induced maximal inositol phosphate production, but only 10% of maximal CD3gamma-chain phosphorylation. The data are consistent with the idea that other signal-transduction pathways, in addition to those involving inositol phosphate production, exist for the regulation of PKC in T lymphocytes.
Biochemical Journal 02/1990; 265(2):407-13. · 4.90 Impact Factor
