Abstract
Identifying patients prior to treatment who are more likely to benefit from chemotherapeutic agents or more likely to experience adverse events is an aim of personalized medicine. Pharmacogenomics offers a potential means of achieving this goal through the discovery of predictive germline genetic biomarkers. When applied particularly to the treatment of head and neck cancers, such information could offer significant benefit to patients as a means of potentially reducing morbidity associated with platinum-based chemotherapy. We developed a genome-wide, cell-based approach to identify single nucleotide polymorphisms (SNPs) associated with platinum susceptibility and then evaluated these SNPs as predictors for response and toxicity in head and neck cancer patients treated with platinum-based therapy as part of a phase II clinical trial. Sixty head and neck cancer patients were evaluated. Of 45 genome-wide SNPs examined, we found that 2 SNPs, rs6870861 (P = 0.004; false discovery rate [FDR] < 0.05) and rs2551038 (P = 0.005; FDR < 0.05), were associated significantly with overall response to carboplatin-based induction chemotherapy when incorporated into a model along with total carboplatin exposure. Interestingly, these 2 SNPs are associated strongly with the baseline expression of 20 genes (all P ≤ 10-4), and that 2 genes (SLC22A5 and SLCO4C1) are important organic cation/anion transporters known to affect platinum uptake and clearance. Several other SNPs were associated nominally with carboplatin-related hematologic toxicities. These findings demonstrate importantly that a genome-wide, cell-based model can identify novel germline genetic biomarkers of platinum susceptibility, which are replicable in a clinical setting with treated cancer patients and seem clinically meaningful for potentially enabling future personalization of care in such patients.
Original language | English (US) |
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Pages (from-to) | 265-272 |
Number of pages | 8 |
Journal | Translational Research |
Volume | 157 |
Issue number | 5 |
DOIs | |
State | Published - May 2011 |
Bibliographical note
Funding Information:Supported by Grant U01GM61393 from the NIH/NIGMS Pharmacogenomics of Anticancer Agents , Grant K08GM89941 , Grant P50 CA125183 from the University of Chicago Breast Cancer SPORE , and by Grant U01CA63187 from the NCI to the University of Chicago Comprehensive Cancer Center .