O-GlcNAc Misregulation and Aneuploidy in Breast Cancer

Abstract

We have identified the miR-99 family of microRNAs as being downregulated in more advanced cancer cell lines, having expression that inversely correlates with radiation resistance. The miR-99 family is transiently upgregulated following DNA damage, and when expressed exogenously can sensitize cells to ionizing radiation. Through its target, 5NF2H, the miR-99 family can reduce BRACA1 foci formation at sites of DNA damage, and reduce the rate of DNA repair follow damage by IR. Furthermore, exogenous miR-99a and miR-100 can reduce the overall efficiency of double strand break repair by both homologous recombination as well as non-homologous end joining. When exposed to ionizing radiation, the transient up regulation of the miR-99 family leads to cells less efficiently recruiting BRACA1 to DNA damage foci after repeated exposure to radiation, an effect that is abrogated by antisense inhibition of miR-99 induction. This downregulation of the efficiency of DNA repair may represent a mechanism by which normal cells abort repair and survival after repeated mutagenic events, and whose loss confers resistance to DNA damaging radiation and chemotherapy in advanced cancer cells.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2011

Accession Number

ADA545785

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