The Rsu-1-PINCH1-ILK complex is regulated by Ras activation in tumor cells

Dougherty, Gerard W.; Jose, Cynthia C.; Gimona, Mario; Cutler, Mary Lou

doi:10.1016/j.ejcb.2008.02.011

Cited by 76 publications

(99 citation statements)

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“…One of its subfamilies, Scribble (LAP4), regulates the MAP kinase cascade [67]. RSU1 regulates cell-adhesion and participates in the RAS signal transduction pathway, which is MAP kinasemediated [47]. SHOC2 is a regulatory subunit of phosphatase 1, and provides a scaffold for the interaction between M-Ras and Raf1, activating the MAPK cascade [48].…”

Section: Lrrc8 Proteins Might Organise Intracellular Ca 2þ -Sensitivementioning

confidence: 99%

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LRRC8 proteins share a common ancestor with pannexins, and may form hexameric channels involved in cell‐cell communication

2012

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Leucine-rich repeat-containing 8 (LRRC8) proteins are composed of four transmembrane helices and 17 leucine-rich repeats (LRR). Although LRRC8 proteins have been associated with important processes, like maturation of B cells or adipocyte differentiation, their biology and molecular function are largely unknown. We found that LRRC8 proteins originated from the combination of a pannexin and an LRR domain (most likely related to the SHOC2, LAP, RSU1 and LRRIQ4 protein families) before the diversification of chordates. We propose that, like pannexins, LRRC8 proteins form hexameric channels, which participate in cell-cell communication processes. According to the inferred topological model, and contrary to what was previously assumed, the six LRR domains are located in the cytoplasm, and could participate in the organisation of signalling cascades. By compiling available proteomics and gene expression data, and on the basis of the LRRC8 proposed hexameric channel structure, we present clues to the function of this family.

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Section: Lrrc8 Proteins Might Organise Intracellular Ca 2þ -Sensitivementioning

confidence: 99%

“…LANO lost the PDZ domain and is involved in homeostasis of epithelial tissues and tumour growth [46]. Ras suppressor protein 1 (RSU1) prevents Ras oncogene-induced transformation and may inhibit cell migration [47]. SHOC2 is a scaffold protein that modulates Ras-dependent activation of Raf1 [48].…”

Section: Lrrc8 Proteins May Form Hexameric Channelsmentioning

confidence: 99%

LRRC8 proteins share a common ancestor with pannexins, and may form hexameric channels involved in cell‐cell communication

2012

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“…We next sought to elucidate the mechanism by which PINCH-1 regulates JNK activity in PrE cells. PINCH-1 interacts with RSU-1, which was shown to negatively regulate the activity of JNK (Masuelli and Cutler, 1996;Kadrmas et al, 2004;Dougherty et al, 2008). To determine the level as well as spatial expression pattern of RSU-1 during peri-implantation, we performed immunostaining of E6.5 embryos and of 7-day-old cystic EBs using a specific antibody against RSU-1.…”

Section: Loss Of Pinch-1 Leads To Increased Jnk Activationmentioning

confidence: 99%

“…PINCH-1 can bind several actin modulating proteins (Legate et al, 2006;Wickström et al, 2010), the Ras suppressor protein 1 (RSU-1) and the protein phosphatase 1a (PP1a). The latter two interactions were shown to modulate MAPK and phosphoinositol 3-kinase (PI3K)/AKT signalling, respectively (Masuelli and Cutler, 1996;Dougherty et al, 2008;Eke et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

PINCH-1 promotes Bcl-2-dependent survival signalling and inhibits JNK-mediated apoptosis in the primitive endoderm.

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Tischner

et al. 2012

Journal of Cell Science

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SummaryThe focal adhesion (FA) protein PINCH-1 is required for the survival of primitive endoderm (PrE) cells. How PINCH-1 regulates this fundamental process is not known. Here, we use embryoid bodies (EBs) and isolated EB-derived PrE cells to investigate the mechanisms by which PINCH-1 promotes PrE survival. We report that loss of PINCH-1 in PrE cells leads to a sustained activity of JNK and the proapoptotic factor Bax. Mechanistically, the sustained JNK activation was due to diminished levels of the JNK inhibitory factor Ras suppressor protein-1 (RSU-1), whose stability was severely reduced upon loss of PINCH-1. Chemical inhibition of JNK attenuated apoptosis of PrE cells but failed to reduce Bax activity. The increased Bax activity was associated with reduced integrin signalling and diminished Bcl-2 levels, which were shown to inhibit Bax. Altogether our findings show that PINCH-1 is a pro-survival factor that prevents apoptosis of PrE cells by modulating two independent signalling pathways; PINCH-1 inhibits JNK-mediated apoptosis by stabilising the PINCH-1 binding protein RSU-1 and promotes Bcl-2-dependent pro-survival signalling downstream of integrins.

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“…Also, RSU-1 depletion resulted in reduced expression level of PINCH-1, a known binding partner of RSU-1, in one study, and in elevated expression of PINCH-1 in another study [15,20] . Finally, regarding other cellular functions in which RSU-1 is implicated, there are studies showing that RSU-1 promotes cell adhesion, spreading and migration, and promotes cancer cell invasion, while there is a study showing that RSU-1 inhibits cancer cell migration and invasion [16,20,21] .…”

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confidence: 99%