Roles for the coactivators CBP and p300 and the APC/C E3 ubiquitin ligase in E1A-dependent cell transformation

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Abstract

Adenovirus early region 1A ( E1A) possesses potent transforming activity when expressed in concert with activated ras or E1B genes in in vitro tissue culture systems such as embryonic human retinal neuroepithelial cells or embryonic rodent epithelial and fibroblast cells. Early region 1A has thus been used extensively and very effectively as a tool to determine the molecular mechanisms that underlie the basis of cellular transformation. In this regard, roles for the E1A-binding proteins pRb, p107, p130, cyclic AMP response element-binding protein (CBP)/p300, p400, TRRAP and CtBP in cellular transformation have been established. However, the mechanisms by which E1A promotes transformation through interaction with these partner proteins are not fully delineated. In this review, we focus on recent advances in our understanding of CBP/p300 function, particularly with regard to its relationship to the anaphase-promoting complex/cyclosome E3 ubiquitin ligase, which has recently been shown to interact and affect the activity of CBP/p300 through interaction domains that are evolutionarily conserved in E1A.

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Most cited references 33

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CBP/p300 in cell growth, transformation, and development.

Richard H. Goodman, Sarah Smolik (2000)

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p300/CBP and cancer.

Narayanan Gopalakrishna Iyer, Hilal Özdağ, Carlos Caldas (2004)

p300 and cyclic AMP response element-binding protein (CBP) are adenoviral E1A-binding proteins involved in multiple cellular processes, and function as transcriptional co-factors and histone acetyltransferases. Germline mutation of CBP results in Rubinstein-Taybi syndrome, which is characterized by an increased predisposition to childhood malignancies. Furthermore, somatic mutations of p300 and CBP occur in a number of malignancies. Chromosome translocations target CBP and, less commonly, p300 in acute myeloid leukemia and treatment-related hematological disorders. p300 mutations in solid tumors result in truncated p300 protein products or amino-acid substitutions in critical protein domains, and these are often associated with inactivation of the second allele. A mouse model confirms that p300 and CBP function as suppressors of hematological tumor formation. The involvement of these proteins in critical tumorigenic pathways (including TGF-beta, p53 and Rb) provides a mechanistic route as to how their inactivation could result in cancer.

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Molecular cloning and functional analysis of the adenovirus E1A-associated 300-kD protein (p300) reveals a protein with properties of a transcriptional adaptor.

James D Livingston, James DeCaprio, Antje Gerdes … (1994)

The growth-controlling functions of the adenovirus E1A oncoprotein depend on its ability ot interact with a set of cellular proteins. Among these are the retinoblastoma protein, p107, p130, and p300. We have isolated a cDNA encoding full-length human p300 and mapped the chromosomal location of the gene to chromosome 22q13. p300 contains three cysteine- and histidine-rich regions of which the most carboxy-terminal region interacts specifically with E1A. In its center, p300 contains a bromodomain, a hallmark of certain transcriptional coactivators. We have examined the ability of p300 to overcome the repressive effect of E1A on the SV40 enhancer. We show that p300 molecules lacking an intact E1A-binding site can bypass E1A repression and restore to a significant extent the activity of the SV40 enhancer, even in the presence of high levels of E1A protein. These results imply that p300 may function as a transcriptional adaptor protein for certain complex transcriptional regulatory elements.

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Author and article information

Journal

Journal ID (nlm-ta): Br J Cancer

Title: British Journal of Cancer

ISSN (Print): 0007-0920

ISSN (Electronic): 1532-1827

Publication date (Electronic): 29 August 2006

Publication date (Print): 04 September 2006

Volume: 95

Issue: 5

Pages: 555-560

Affiliations

[1 ]Cancer Research UK Institute for Cancer Studies, The Medical School, The University of Birmingham , Edgbaston, Birmingham B15 2TT, UK

[2 ]Departments of Oncology and Microbiology & Immunology, University of Western Ontario , London, Ontario, Canada N6A 4L6

Author notes

[* ]Author for correspondence: A.S.Turnell@ 123456bham.ac.uk

[* ]Author for correspondence: jmymryk@ 123456uwo.ca

Article

Publisher Item ID: 6603304

DOI: 10.1038/sj.bjc.6603304

PMC ID: 2360682

PubMed ID: 16880778

SO-VID: ea5bf34c-0a3d-4541-bee1-495e48a7cf8b

History

Date received : 28 April 2006

Date revision received : 07 July 2006

Date accepted : 11 July 2006

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