Resistance to therapy caused by intragenic deletion in BRCA2.

Cells with loss of BRCA2 function are defective in homologous recombination (HR) and are highly sensitive to inhibitors of poly(ADP-ribose) polymerase (PARP), which provides the basis for a new therapeutic approach. Here we show that resistance to PARP inhibition can be acquired by deletion of a mutation in BRCA2. We derived PARP-inhibitor-resistant (PIR) clones from the human CAPAN1 pancreatic cancer cell line, which carries the protein-truncating c.6174delT frameshift mutation. PIR clones could form DNA-damage-induced RAD51 nuclear foci and were able to limit genotoxin-induced genomic instability, both hallmarks of a competent HR pathway. New BRCA2 isoforms were expressed in the resistant lines as a result of intragenic deletion of the c.6174delT mutation and restoration of the open reading frame (ORF). Reconstitution of BRCA2-deficient cells with these revertant BRCA2 alleles rescued PARP inhibitor sensitivity and HR deficiency. Most of the deletions in BRCA2 were associated with small tracts of homology, and possibly arose from error-prone repair caused by BRCA2 deficiency. Similar ORF-restoring mutations were present in carboplatin-resistant ovarian tumours from c.6174delT mutation carriers. These observations have implications for understanding drug resistance in BRCA mutation carriers as well as in defining functionally important domains within BRCA2.

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Diseases in OMIM

BRCA2 GENE; BRCA2(OMIM - 600185)

Gene Ontology Annotation Project

https://www.ebi.ac.uk/QuickGO/annotations?reference=18264088

Protein interactions in IntAct

brca2-rad51-39(IntAct - EBI-15684031)

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https://www.cellosaurus.org/CVCL_0237

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Breast Cancer Now (1)

Breast Cancer Now Research Centre
Professor Mitchell Dowsett, Breakthrough Toby Robins Breast Cancer Research Centre
Grant ID: BREAST CANCER NOW RESEARCH CENTRE
621 publications

Cancer Research UK (1)

Cancer Susceptibility Genes
Professor Alan Ashworth, Institute of Cancer Research
Grant ID: A8363
29 publications

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Resistance to therapy caused by intragenic deletion in BRCA2.

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