Nancy Yeh scite author profile

How proteins participate in tumorigenesis can be obscured by their multifunctional nature. For example, depending on the cellular context, the cdk inhibitors can affect cell proliferation, cell motility, apoptosis, receptor tyrosine kinase signaling, and transcription. Thus, to determine how a protein contributes to tumorigenesis, we need to evaluate which functions are required in the developing tumor. Here we demonstrate that the RCAS/ TvA system, originally developed to introduce oncogenes into somatic cells of mice, can be adapted to allow us to define the contribution that different functional domains make to tumor development. Studying the development of growth-factor-induced oligodendroglioma, we identified a critical role for the Cy elements in p21, and we showed that cyclin D1T286A, which accumulates in the nucleus of p21-deficient cells and binds to cdk4, could bypass the requirement for p21 during tumor development. These genetic results suggest that p21 acts through the cyclin D1-cdk4 complex to support tumor growth, and establish the utility of using a somatic cell modeling system for defining the contribution proteins make to tumor development.

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TRIM3, a tumor suppressor linked to regulation of p21Waf1/Cip1

Liu

Raheja

Yeh

et al. 2013

Oncogene

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The TRIM family of genes is largely studied because of their roles in development, differentiation and host cell anti-viral defenses; however, roles in cancer biology are emerging. Loss of heterozygosity of the TRIM3 locus in approximately 20% of human glioblastomas raised the possibility that this NHL containing member of the TRIM gene family might be a mammalian tumor suppressor. Consistent with this, reducing TRIM3 expression increased the incidence of and accelerated the development of PDGF-induced glioma in mice. Furthermore, TRIM3 can bind to the cdk inhibitor p21WAF1/CIP1. Thus, we conclude that TRIM3 is a tumor suppressor mapping to chromosome 11p15.5 and that it can block tumor growth by sequestering p21 and preventing it from facilitating the accumulation of cyclin D1-cdk4.

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Interweaving the Cell Cycle Machinery with Cell Differentiation

Miller¹,

Yeh²,

Vidal³

et al. 2007

Cell Cycle

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The ability of TRIM3 to induce growth arrest depends on RING-dependent E3 ligase activity

Raheja

Liu

Hukkelhoven

et al. 2014

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Mutation of the TRIM (tripartite motif)-NHL family members brat and mei-P26 perturb the differentiation of transit-amplifying progenitor cells resulting in tumour-like phenotypes. The NHL (named after the NCL1, HT2A and LIN41 repeat) domain is essential for their growth suppressive activity, and they can induce cell-cycle exit in a RING-independent manner. TRIM3 is the only bona fide tumour suppressor in the mammalian TRIM-NHL subfamily and similar to the other members of this family, its ability to inhibit cell proliferation depends on the NHL domain. However, whether the RING domain was required for TRIM3-dependent cell-cycle exit had not been investigated. In the present study, we establish that the RING domain is required for TRIM3-induced growth suppression. Furthermore, we show that this domain is necessary to promote ubiquitination of p21 in a reconstituted in vitro system where UbcH5a is the preferred E2. Thus the ability of TRIM3 to suppress growth is associated with its ability to ubiquitinate proteins.

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Cooperation between p27 and p107 during Endochondral Ossification Suggests a Genetic Pathway Controlled by p27 and p130

Yeh

Miller

Gaur

et al. 2007

Molecular and Cellular Biology

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Pocket proteins and cyclin-dependent kinase (CDK) inhibitors negatively regulate cell proliferation and can promote differentiation. However, which members of these gene families, which cell type they interact in, and what they do to promote differentiation in that cell type during mouse development are largely unknown. To identify the cell types in which p107 and p27 interact, we generated compound mutant mice. These mice were null for p107 and had a deletion in p27 that prevented its binding to cyclin-CDK complexes. Although a fraction of these animals survived into adulthood and looked similar to single p27 mutant mice, a larger number of animals died at birth or within a few weeks thereafter. These animals displayed defects in chondrocyte maturation and endochondral bone formation. Proliferation of chondrocytes was increased, and ectopic ossification was observed. Uncommitted mouse embryo fibroblasts could be induced into the chondrocytic lineage ex vivo, but these cells failed to mature normally. These results demonstrate that p27 carries out overlapping functions with p107 in controlling cell cycle exit during chondrocyte maturation. The phenotypic similarities between p107 ؊/؊ p27 D51/D51 and p107 ؊/؊ p130 ؊/؊ mice and the cells derived from them suggest that p27 and p130 act in an analogous pathway during chondrocyte maturation.

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Nancy Yeh

Somatic cell type specific gene transfer reveals a tumor-promoting function for p21Waf1/Cip1

TRIM3, a tumor suppressor linked to regulation of p21Waf1/Cip1

Interweaving the Cell Cycle Machinery with Cell Differentiation

The ability of TRIM3 to induce growth arrest depends on RING-dependent E3 ligase activity

Cooperation between p27 and p107 during Endochondral Ossification Suggests a Genetic Pathway Controlled by p27 and p130

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