The RASSF1A tumor suppressor

Donninger, Howard; Vos, Michele D.; Clark, Geoffrey J.

doi:10.1242/jcs.010389

Cited by 390 publications

(488 citation statements)

References 115 publications

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“…Significantly, mammalian homologs of each component of the Drosophila Hippo-LATS pathway have been identified [Fat4 for Fat, Merlin for Merlin, Ex for Ex, RASSF1A for dRASSF, hWW45 for Sav, Mst1 and Mst2 for Hippo, LATS1 and LATS2 for LATS, MOB1 (Msp1 one binder) for Mats, and YAP (Yesassociated protein) and TAZ (transcriptional coactivator with PDZ-binding motif) for Yorkie] (12). We and others recently showed that part of the Hippo-LATS signaling pathway discovered in Drosophila are conserved in mammals and that many members of the pathway could be confirmed as either tumor suppressors (Fat4, Merlin, RASSF1A, Mst1/2, LATS1/2, MOB1) or oncogenes (YAP and TAZ) in human cancers (15)(16)(17)(18)(19). Therefore, further characterization of Hippo-LATS pathway and its regulators in mammals will have great implication for not only our understanding the molecular mechanism of tumorigenesis, but also for future targeting of this pathway for cancer therapies.…”

Section: T7-r1(d505v)-yfp 35s:plc2-cfpmentioning

confidence: 97%

Itch E3 ubiquitin ligase regulates large tumor suppressor 1 stability

Zhou

She

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

113

109

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The large tumor suppressor 1 (LATS1) is a serine/threonine kinase and tumor suppressor found down-regulated in a broad spectrum of human cancers. LATS1 is a central player of the emerging Hippo-LATS suppressor pathway, which plays important roles in cell proliferation, apoptosis, and stem cell differentiation. Despite the ample data supporting a role for LATS1 in tumor suppression, how LATS1 is regulated at the molecular level remains largely unknown. In this study, we have identified Itch, a HECT class E3 ubiquitin ligase, as a unique binding partner of LATS1. Itch can complex with LATS1 both in vitro and in vivo through the PPxY motifs of LATS1 and the WW domains of Itch. Significantly, we found that overexpression of Itch promoted LATS1 degradation by polyubiquitination through the 26S proteasome pathway. On the other hand, knockdown of endogenous Itch by shRNAs provoked stabilization of endogenous LATS1 proteins. Finally, through several functional assays, we also revealed that change of Itch abundance alone is sufficient for altering LATS1-mediated downstream signaling, negative regulation of cell proliferation, and induction of apoptosis. Taking these data together, our study identifies E3 ubiquitin ligase Itch as a unique negative regulator of LATS1 and presents a possibility of targeting LATS1/Itch interaction as a therapeutic strategy in cancer.

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Section: T7-r1(d505v)-yfp 35s:plc2-cfpmentioning

confidence: 97%

Itch E3 ubiquitin ligase regulates large tumor suppressor 1 stability

Zhou

She

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

113

109

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“…RASSF1A, 1C, 5 and 7 have been demonstrated to associate with the microtubular network (Moshnikova et al, 2006(Moshnikova et al, , 2008Donninger et al, 2007;Sherwood et al, 2008;Richter et al, 2009). All have been shown to associate with centrosomal elements and, in the case of RASSF1A, with a-, g and b-tubulins.…”

Section: Introductionmentioning

confidence: 99%

Functional importance of RASSF1A microtubule localization and polymorphisms

2010

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Ras association domain family protein 1A (RASSF1A) is one of the more heavily methylated genes in human cancers. In addition to promoter-specific methylation, RASSF1A polymorphisms have been identified in cancer patients. RASSF1A is a tumor suppressor protein involved in death receptor-dependent apoptosis and it is localized to microtubules. Currently, the biological importance of RASSF1A microtubule localization and the functional consequences of RASSF1A polymorphisms is not understood. In this study, we have investigated both RASSF1A microtubule association and polymorphisms. Loss of RASSF1A microtubule association resulted in the nuclear appearance of RASSF1A and the loss of association with a-, c-and b-tubulin. Moreover, the loss of microtubule localization of RASSF1A resulted in enhanced tumorpromoting potential, as determined by a xenograft transplantation model in nude mice. It is surprising that, several RASSF1A polymorphisms also lost the ability to associate with a-, c-and b-tubulin and lost the ability to prevent tumor formation in a xenograft nude mouse model when compared with wild-type RASSF1A. Our results demonstrate a role for RASSF1A microtubule localization in eliciting its tumor suppressor function. In addition, some RASSF1A polymorphisms lack the tumor suppressor function of RASSF1A and, if present in patients, may be tumorigenic.

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“…Biologically, RASSF1A is also the best-characterized member of the group. RASSF1A is a bona fide tumor suppressor gene; RASSF1A knockout mice are prone to tumor development (Tommasi et al, 2005;van der Weyden et al, 2005), whereas RASSF1A protein is involved in microtubule stability, cell cycle progression, regulation of apoptosis, cell migration and forms a part of the mammalian Hippo tumor suppressor network (Donninger et al, 2007;Hesson et al, 2007b;Dallol et al, 2009). Some of the classical RASSF members have been shown to bind RAS proteins and hence may act as RAS effectors.…”

Section: Introductionmentioning

confidence: 99%

Epigenetic inactivation of the RASSF10 candidate tumor suppressor gene is a frequent and an early event in gliomagenesis

et al. 2010

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We have recently described the N-terminal RAS association domain family of genes, RASSF7-10. Previously, we cloned the N-terminal RASSF10 gene and demonstrated frequent methylation of the associated 5 0 -CpG island in acute lymphoblastic leukemia. To characterize RASSF10 gene expression, we demonstrate that in developing Xenopus embryos, RASSF10 shows a very striking pattern in the rhombencephalon (hind brain). It is also expressed in other parts of the brain and other organs. Due to the well-defined expression pattern in the brain of Xenopus embryos, we analyzed the methylation status of the RASSF10-associated 5 0 -CpG island in astrocytic gliomas. RASSF10 was frequently methylated in WHO grade II-III astrocytomas and WHO grade IV primary glioblastomas (67.5%), but was unmethylated in grade I astrocytomas and in DNA from age matched control brain samples. RASSF10 gene expression both at the mRNA and protein levels could be switched back on in methylated glioma cell lines after treatment with 5-aza-2 0 -deoxycytidine. In secondary glioblastomas (sGBM), RASSF10 methylation was an independent prognostic factor associated with worst progression-free survival and overall survival and occurred at an early stage in their development. In cell culture experiments, overexpression of RASSF10 mediated a reduction in the colony forming ability of two RASSF10-methylated glioma cell lines. Conversely, RNAi-mediated knockdown of RASSF10-stimulated anchorage-independent growth of U87 glioma cells, increased their viability and caused an increase in the cells' proliferative ability. We generated and characterized a RASSF10-specific antibody and demonstrated for the first time that RASSF10 subcellular localization is cell-cycle dependent with RASSF10 colocalizing to centrosomes and associated microtubules during mitosis. This is the first report demonstrating that RASSF10 can act as a tumor suppressor gene and is frequently methylated in gliomas and can potentially be developed into a prognostic marker for sGBM.

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The RASSF1A tumor suppressor

Cited by 390 publications

References 115 publications

Itch E3 ubiquitin ligase regulates large tumor suppressor 1 stability

Itch E3 ubiquitin ligase regulates large tumor suppressor 1 stability

Functional importance of RASSF1A microtubule localization and polymorphisms

Epigenetic inactivation of the RASSF10 candidate tumor suppressor gene is a frequent and an early event in gliomagenesis

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