Spots Global Cancer Trial Database for Prospective Study of UDP-gluconoryltransferase 2B17 Genotype as a Predictive Marker of Exemestane PK and PD

The following info and data is provided "as is" to help patients around the globe.
We do not endorse or review these studies in any way.

Trial Identification

Brief Title: Prospective Study of UDP-gluconoryltransferase 2B17 Genotype as a Predictive Marker of Exemestane PK and PD

Official Title: Prospective Study of UDP-gluconoryltransferase (UGT) 2B17 Genotype as a Predictive Marker of Exemestane Pharmacokinetics and Pharmacodynamics in Asian Women With Hormone Receptor-positive Advanced Breast Cancer

Study ID: NCT01655004

Conditions

Breast Carcinoma

Interventions

Exemestane

Study Description

Brief Summary: Aromatase inhibitors have led to significant improvements in clinical outcomes for women with postmenopausal hormone receptor-positive advanced breast cancer. However, there is a notable absence of phase III comparisons among the three agents and therefore no clear indication of the superiority of one AI over the others. Furthermore, there remains a distinct lack of predictive biomarkers of AI efficacy and toxicity to inform clinical decisions. The metabolic pathways of exemestane have recently been delineated and UGT2B17 is the most active hepatic gluconoryltransferase responsible for the glucuronidation of the crucial active exemestane metabolite, 17-dihydroxyexemestane. The UGT2B17\*2/\*2 deletion genotype is associated with markedly reduced glucuronidation of 17-dihydroxyexemestane in vitro and is found more commonly in Asians than Caucasians (60-70% vs less than 10%). Our research group recently demonstrated significant reduction in glucuronidation of vorinostat, a UGT2B17 substrate, with a trend towards improved clinical benefit rate and progression-free survival in Asian breast cancer patients who were UGT2B17\*2 homozygotes treated with this compound. In-vivo studies correlating UGT2B17\*2 genotype with exemestane pharmacokinetics and pharmacodynamics are lacking. We hypothesize that individuals with UGT2B17\*2/\*2 genotype have reduced glucuronidation of 17-dihydroxyexemestane and therefore have increased exposure to the active drug, resulting in improved treatment efficacy. We propose a study of exemestane in hormone receptor positive post-menopausal advanced breast cancer patients with prospective correlation of treatment outcome by UGT2B17 genotype. The primary endpoint is the correlation of genotype (UGT2B17\*2/\*2 vs those with at least one wild-type variant) with clinical benefit rate, and secondary endpoints include its association with exemestane pharmacokinetics, progression-free survival, overall survival and musculoskeletal toxicities.

Detailed Description: This is a prospective non-randomised open-label study of exemestane in post-menopausal, hormone receptor positive advanced breast cancer patients, with pre-specified analysis of exemestane pharmacokinetics and pharmacodynamics according to UGT2B17 genotype (UGT2B17\*2/\*2 versus those with at least one wild-type allele). A total of 110 patients will be enrolled over a period of 30 months. Eligible patients will receive exemestane 25mg daily orally (as part of standard care) until progression of disease or intolerable toxicities. At the time of study entry, blood samples will be drawn for genotyping studies (for research purposes) but investigators will be blinded to the results. Pharmacokinetic sampling for exemestane and its metabolites will be performed at baseline and on day 29 (+/- 3 days) before dosing and 0.5, 1, 2, 4, 6, 8 and 24 hours after exemestane ingestion. Patients will be evaluated on an 8-weekly basis for toxicities and efficacy assessments during the first 6 months of treatment, followed by 12-weekly thereafter until disease progression, unacceptable toxicities, or patient withdrawal.