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Article
A Cancer Derived Mutation in the Retinoblastoma Gene with a Distinct Defect for LXCXE Dependent Interactions
Cancer Cell International
  • Shauna A. Henley, University of Western Ontario
  • Sarah M. Francis, University of Western Ontario
  • Jordan Demone, University of Western Ontario
  • Peter Ainsworth, London Health Sciences Centre, London, ON
  • Frederick A. Dick, University of Western Ontario
Document Type
Article
Publication Date
3-18-2010
URL with Digital Object Identifier
http://dx.doi.org/10.1186/1475-2867-10-8
Disciplines
Abstract

BACKGROUND: The interaction between viral oncoproteins such as Simian virus 40 TAg, adenovirus E1A, and human papilloma virus E7, and the retinoblastoma protein (pRB) occurs through a well characterized peptide sequence, LXCXE, on the viral protein and a well conserved groove in the pocket domain of pRB. Cellular proteins, such as histone deacetylases, also use this mechanism to interact with the retinoblastoma protein to repress transcription at cell cycle regulated genes. For these reasons this region of the pRB pocket domain is thought to play a critical role in growth suppression.

RESULTS: In this study, we identify and characterize a tumor derived allele of the retinoblastoma gene (RB1) that possesses a discrete defect in its ability to interact with LXCXE motif containing proteins that compromises proliferative control. To assess the frequency of similar mutations in the RB1 gene in human cancer, we screened blood and tumour samples for similar alleles. We screened almost 700 samples and did not detect additional mutations, indicating that this class of mutation is rare.

CONCLUSIONS: Our work provides proof of principal that alleles encoding distinct, partial loss of function mutations in the retinoblastoma gene that specifically lose LXCXE dependent interactions, are found in human cancer.

Citation Information
Shauna A. Henley, Sarah M. Francis, Jordan Demone, Peter Ainsworth, et al.. "A Cancer Derived Mutation in the Retinoblastoma Gene with a Distinct Defect for LXCXE Dependent Interactions" Cancer Cell International Vol. 10 Iss. 8 (2010)
Available at: http://works.bepress.com/peter-ainsworth/5/