Malignant Genome Reprogramming by ATAD2

Overview

Journal Biochim Biophys Acta

Specialties Biochemistry
Biophysics

Date 2013 Jul 9

PMID 23831842

Citations 46

Authors

Faycal Boussouar

Mahya Jamshidikia

Yuichi Morozumi

Sophie Rousseaux

Saadi Khochbin

Affiliations

Soon will be listed here.

Abstract

Background: Unscheduled expression of critical cellular regulators could be central to malignant genome reprogramming and tumor establishment. One such factor appears to be ATAD2, a remarkably conserved protein normally predominantly expressed in germ cells but almost systematically over-expressed in a variety of unrelated cancers. The presence of a bromodomain adjacent to an AAA type ATPase domain, points to ATAD2 as a factor preliminarily acting on chromatin structure and function. Accordingly, ATAD2 has been shown to cooperate with a series of transcription factors and chromatin modifiers to regulate specific set of genes.

Scope Of Review: Here we discuss our knowledge on ATAD2 to evaluate its role as a cancer driver and its value as a new anti-cancer target.

Major Conclusions: Upon its activation, ATAD2 through its interaction with defined transcription factors, initiates a loop of transcriptional stimulation of target genes, including ATAD2 itself, leading to enhanced cell proliferation and resistance to apoptosis in an ATAD2-dependent manner. Approaches aiming at neutralizing ATAD2 activity in cancer, including the use of small molecule inhibitors of its two "druggable" domains, AAA ATPase and bromodomain, could become part of a promising anti-cancer strategy.

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