Abstract PR01: Mechanisms of regulation of the tumor suppressor PALB2

One typical mechanism to promote genomic instability, a hallmark of cancer, is to inactivate tumor suppressors, such as PALB2. It has recently been reported that mutations in PALB2 increase the risk of breast cancer by 8-9 fold. PALB2 was identified BRCA2 interacting protein, essential for BRCA2 anchorage to nuclear structures and for its function in double-strand break repair. Inherited mutations in PALB2 are associated with a predisposition for ovarian, breast and pancreatic cancers. The basis of the tumorigenic potential of PALB2 is thought to be related to functions in homologous recombination.Therefore, the regulation of PALB2 during the DNA damage response and the effect of cancer-causing mutation is of high interest. Two mechanisms of regulation of PALB2 will be presented. The first mechanism regulates PALB2 localization to DNA damage sites in S-phase through ATR-mediated phosphorylation. We have found specific phosphorylated residues in PALB2 that promote BRCA1-PALB2 interaction after DNA damage.To date, predicting the functional consequences of PALB2 mutations has been challenging as they lead to different aggressive phenotypes. We performed a structure-function analysis of PALB2 using PALB2 truncated mutants (R170fs, L531fs, Q775X and W1038X), and uncovered a second PALB2 regulation mechanism. Our data explains the tumorigenesis associated with some PALB2 mutations, a concept that also applies to other WD40-containing proteins.This abstract is also being presented a...
Source: Molecular Cancer Research - Category: Cancer & Oncology Authors: Tags: DNA Damage Signaling: Oral Presentations - Proffered Abstracts Source Type: research