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ABSTRACT: ASK1 is a cellular stress-responsive MAPKKK which activates the JNK and p38 MAPK pathways that play a key role in the response of cardiac myocytes to redox stress following ischemia/reperfusion. ASK1 becomes incorporated into high-molecular weight complexes upon activation but this has not been investigated in cardiac myocytes. Here we examine the distribution of ASK1 in neonatal rat cardiomyocytes undergoing simulated ischemia and reperfusion. Simulated ischemia or redox stress in neonatal cardiac myocytes causes the translocation of ASK1 to distinct punctate cytoplasmic structures that are insoluble in Triton X-100. The translocation event is not dependent on ASK1 kinase activity, occurs subsequent to activation and is reversible upon removal of the cell stress. The structures to which ASK1 translocates in cardiac myocytes do not appear to correspond to the previously described ASK1 signalosome reported in other cell types.
Journal of Receptor and Signal Transduction Research 12/2011; 31(6):408-15. · 1.59 Impact Factor
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ABSTRACT: p38 MAPK is activated potently during cardiac ischaemia, although the precise mechanism by which it is activated is unclear. We used the isolated perfused rat heart to investigate the signalling pathways activated upstream of p38 during global cardiac ischaemia. Ischaemia strongly activated p38alpha but not the JNK pathway. The MAPKKs, MKK3, MKK4 and MKK6 have previously been identified as potential upstream activators of p38; however, in the ischaemic perfused heart, we saw activation of MKK3 and MKK6 but not MKK4. MKK3 and MKK6 showed different temporal patterns of activity, indicating distinct modes of activation and physiological function. Consistent with a lack of JNK activation, we saw no activation of MKK4 or MKK7 at any time point during ischaemia. A lack of MKK4 activation indicates, at least in the ischaemic heart, that MKK4 is not a physiologically relevant activator of p38. The MAPKKK, ASK1, was strongly activated late during ischaemia, with a similar time course to that of MKK6 and in ischaemic neonatal cardiac myocytes ASK1 expression preferentially activated MKK6 rather than MKK3. These observations suggest that during ischaemia ASK1 is coupled to p38 activation primarily via MKK6. Potent activation of ASK1 during ischaemia without JNK activation shows that during cardiac ischaemia, ASK1 preferentially activates the p38 pathway. These results demonstrate a specificity of responses seldom seen in previous studies and illustrate the benefits of using direct assays in intact tissues responding to physiologically relevant stimuli to unravel the complexities of MAPK signalling.
Biochimica et Biophysica Acta 09/2010; 1802(9):733-40. · 4.66 Impact Factor
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Berna S Sayan,
Ai Li Yang,
Franco Conforti,
Paola Tucci,
Maria Cristina Piro, Gareth J Browne,
Massimiliano Agostini,
Sergio Bernardini,
Richard A Knight,
Tak W Mak,
Gerry Melino
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ABSTRACT: p73 is a p53-related transcription factor with fundamental roles in development and tumor suppression. Transcription from two different promoters on the p73 gene results in generation of transcriptionally active TAp73 isoforms and dominant negative DeltaNp73 isoforms with opposing pro- and anti-apoptotic functions. Therefore, the relative ratio of each isoform is an important determinant of the cell fate. Proteasomal degradation of p73 is mediated by polyubiquitination-dependent and -independent processes both of which appear, thus far, to lack selectivity for the TAp73 and DeltaNp73 isoforms. Here, we describe the characterization of another transcriptional target of TAp73; a ring finger domain ubiquitin ligase p73 Induced RING 2 protein (PIR2). Although PIR2 was initially identified a p53-induced gene (p53RFP), low abundance of PIR2 transcript in mouse embryonic fibroblasts of TAp73 KO mice compared with WT mice and comparison of PIR2 mRNA and protein levels following TAp73 or p53 overexpression substantiate TAp73 isoforms as strong inducers of PIR2. Although PIR2 expression was induced by DNA damage, its expression did not alter apoptotic response or cell cycle profile per se. However, coexpression of PIR2 with TAp73 or DeltaNp73 resulted in an increase of the TA/DeltaNp73 ratio, due to preferential degradation of DeltaNp73. Finally, PIR2 was able to relieve the inhibitory effect of DeltaNp73 on TAp73 induced apoptosis following DNA damage. These results suggest that PIR2, by being induced by TAp73 and degrading DeltaNp73, differentially regulates TAp73/DeltaNp73 stability, and, hence, it may offer a therapeutic approach to enhance the chemosensitivity of tumor cells.
Proceedings of the National Academy of Sciences 07/2010; 107(29):12877-82. · 9.68 Impact Factor
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A Emre Sayan,
Thomas R Griffiths,
Raj Pal, Gareth J Browne,
Andrew Ruddick,
Tamer Yagci,
Richard Edwards,
Nick J Mayer,
Hasan Qazi,
Sandeep Goyal,
Serena Fernandez,
Kees Straatman,
George D D Jones,
Karen J Bowman,
Alexandra Colquhoun,
J Kilian Mellon,
Marina Kriajevska,
Eugene Tulchinsky
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ABSTRACT: The epithelial-mesenchymal transition (EMT) contributes to cancer metastasis. Two ZEB family members, ZEB1 and ZEB2(SIP1), inhibit transcription of the E-cadherin gene and induce EMT in vitro. However, their relevance to human cancer is insufficiently studied. Here, we performed a comparative study of SIP1 and ZEB1 proteins in cancer cell lines and in one form of human malignancy, carcinoma of the bladder. Whereas ZEB1 protein was expressed in all E-cadherin-negative carcinoma cell lines, being in part responsible for the high motility of bladder cancer cells, SIP1 was hardly ever detectable in carcinoma cells in culture. However, SIP1 represented an independent factor of poor prognosis (P = 0.005) in a series of bladder cancer specimens obtained from patients treated with radiotherapy. In contrast, ZEB1 was rarely expressed in tumor tissues; and E-cadherin status did not correlate with the patients' survival. SIP1 protected cells from UV- and cisplatin-induced apoptosis in vitro but had no effect on the level of DNA damage. The anti-apoptotic effect of SIP1 was independent of either cell cycle arrest or loss of cell-cell adhesion and was associated with reduced phosphorylation of ATM/ATR targets in UV-treated cells. The prognostic value of SIP1 and its role in DNA damage response establish a link between genetic instability and metastasis and suggest a potential importance for this protein as a therapeutic target. In addition, we conclude that the nature of an EMT pathway rather than the deregulation of E-cadherin per se is critical for the progression of the disease and patients' survival.
Proceedings of the National Academy of Sciences 09/2009; 106(35):14884-9. · 9.68 Impact Factor
