P Chen scite author profile

P Chen

2Publications

18Citation Statements Received

76Citation Statements Given

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University of North Carolina at Chapel Hill

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Failure of HPV E6 to rapidly degrade p53 in human HeLa×PNET cell hybrids

et al. 1997

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The ability of the E6 protein from high risk human papillomaviruses (HPVs) to degrade p53 via the ubiquitin pathway plays a major role in the development of cervical carcinomas. We have previously generated cell hybrids between a p53 null peripheral neuroepithelioma (PNET) cell line and a cervical carcinoma HeLa cell line which exhibits ecient E6-mediated degradation of p53. All of the resulting hybrids expressed HPV 18 E6 from the HeLa parent and some of the hybrids additionally expressed HPV 16 E6. Surprisingly, in spite of abundant E6 expression, the hybrids expressed relatively high steady-state levels of the wild-type p53 protein. We then examined the hybrids to determine whether other components of the E6-mediated degradation pathway were missing or nonfunctional. Speci®cally, we determined that the E6-associated protein (E6-AP), essential for E6-mediated degradation, was expressed. We further veri®ed that these hybrids had a functional ubiquitination pathway, which suggests that this phenomenon is not due to a general defect in this pathway. We therefore conclude that other unidenti®ed, possibly cellspeci®c factors can play a role in the E6-mediated degradative process and may act to inhibit this process.

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Functional evidence for a second tumor suppressor gene on human chromosome 17

Chen

Ellmore

Weissman

1994

Molecular and Cellular Biology

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The development and progression of human tumors often involves inactivation of tumor suppressor gene function. Observations that specific chromosome deletions correlate with distinct groups of cancer suggest that some types of tumors may share common defective tumor suppressor genes. In support of this notion, our initial studies showed that four human carcinoma cell lines belong to the same complementation group for tumorigenic potential. In this investigation, we have extended these studies to six human soft tissue sarcoma cell lines. Our data showed that hybrid cells between a peripheral neuroepithelioma (PNET) cell line and normal human fibroblasts or HeLa cells were nontumorigenic. However, hybrid cells between the PNET cell line and five other soft tissue sarcoma cell lines remained highly tumorigenic, suggesting at least one common genetic defect in the control of tumorigenic potential in these cells. To determine the location of this common tumor suppressor gene, we examined biochemical and molecular polymorphic markers in matched pairs of tumorigenic and nontumorigenic hybrid cells between the PNET cell line and a normal human fibroblast. The data showed that loss of the fibroblast-derived chromosome 17 correlated with the conversion from nontumorigenic to tumorigenic cells. Transfer of two different chromosome 17s containing a mutant form of the p53 gene into the PNET cell line caused suppression of tumorigenic potential, implying the presence of a second tumor suppressor gene on chromosome 17.

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P Chen

Failure of HPV E6 to rapidly degrade p53 in human HeLa×PNET cell hybrids

Functional evidence for a second tumor suppressor gene on human chromosome 17

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