Association of the genetic variants in the nucleotide excision repair genes XPA and XPC with cisplatin-induced hearing loss in patients with osteosarcoma.

Abstract

10077 Background: Cisplatin is a widely used and effective chemotherapeutic agent in the treatment of osteosarcoma. However, cisplatin-induced ototoxicity is a serious problem, affecting more than 60% of patients and compromising language and cognitive development. Unfortunately, individuals at risk to develop ototoxicity cannot be identified upfront. Genetic variants in genes involved in the metabolism of cisplatin may predispose to cisplatin-induced hearing loss and help to identify patients at risk. Methods: In a candidate gene pathway approach, we selected 224 SNPs in 30 candidate genes related to Platinum-DNA repair pathways and genotyped for a discovery group of 105 patients with osteosarcoma for these variants. Cisplatin-induced ototoxicity (n = 47), defined as the development of grade 2–4 hearing impairment using Common Terminology Criteria for Adverse Events (CTCAE version 3), showing a hearing loss of >25 dB at frequencies of 4–8 kHz, was associated with genetic variation. A replication study was performed in a independent cohort of 51 patients with osteosarcoma. Genotyping was performed using the Illumina GoldenGate assay. Association analysis and meta-analysis were performed using the whole genome association analysis toolset PLINK. Results: In the discovery cohort a total of 13 SNPs were significantly (p value < 0.05) associated with ototoxicity. Upon meta-analysis, addition of the replication set resulted in lower p-values for 2 SNPs. The two SNPs showing a strong association with hearing loss in patients with osteosarcoma were rs2805835 in the gene XPA (p-value 0.01, OR=2.7 (95%CI: 1.20-6.15) and rs2227999 in XPC (p-value 0.02; OR=3.2 (95% CI:1.19-8.80). Conclusions: The Nucleotide Excision Repair (NER) genes XPA and XPC form an important molecular mechanism by which cisplatin DNA adducts can be repaired and it has recently been shown that these genes have a high expression in the cochlea. Our data suggest that genetic variants in these genes, may contribute to cisplatin ototoxicity. This study should be viewed as the first step in the development of genetic markers to predict cisplatin-induced ototoxicity in individual patients.