Official Title
Study to Understand the Genetics of the Acute Response to Metformin and Glipizide in Humans
Phase
Phase 1Lead Sponsor
Harvard UniversityStudy Type
InterventionalStatus
Unknown statusIndication/Condition
Diabetes Mellitus, Type 2Intervention/Treatment
glipizide sitagliptin glucose ...Study Participants
1000The SUGAR-MGH investigators are studying the influence of inherited gene variants on the response to two commonly prescribed type 2 diabetes medications, metformin and glipizide. They hypothesize that variants in genes that are associated with type 2 diabetes or related traits may impact the effect of anti-diabetic medications. In addition, physiological responses to an insulin secretagogue or an insulin sensitizer may shed light on the mechanism of action of reported genetic associations.
Several common genetic variants have been reliably associated with type 2 diabetes and related glycemic traits. Study investigators hypothesize that variants in genes that are reproducibly associated with type 2 diabetes or related glycemic traits may impact the effect of anti-diabetic medications. In particular, sulfonylureas may have differential effects on individuals depending on the allelic variant they carry at KCNJ11 E23K; conversely, because TCF7L2 is postulated to influence insulin secretion by regulating the action of glucagon-like peptide 1 (GLP-1), and sulfonylureas act at a different step in the insulin secretion pathway, the effect of sulfonylureas on insulin secretion could be independent of genetic variation at TCF7L2. In addition, physiological responses to an insulin secretagogue or an insulin sensitizer may shed light on the mechanism of action of reported genetic associations.
Despite the convincing associations of several genetic variants with type 2 diabetes and their involvement in physiological pathways involved in drug response, their impact on pharmacological interventions has not been systematically examined. The completion of the Human Genome Project and the high-density characterization of common human variation in four different ethnic groups highlight the promise of genomic medicine. The elucidation of the genetic architecture of complex phenotypes may help clinicians understand disease heterogeneity, uncover new pathophysiological mechanisms, open the opportunity for novel therapeutic interventions, provide predictive diagnostic and prognostic information, and allow for individually tailored therapy that takes into account both the probability of response and the incidence of drug-induced complications.
On day 1, subjects will receive a single oral dose of glipizide 5 mg, and will have blood drawn at various time points for up to 240 minutes. During study days 2-7, the participants will fill out a dietary intake food record, including 3 weekdays and one weekend day. During days 6-8, the subject will receive a short-course metformin treatment of four 500-mg doses. On the morning of study day 8, 60 minutes after taking the fourth metformin dose, the subject will do a 75g Oral Glucose Tolerance Test. Blood draws will again be taken at time points for 120 minutes.
Inclusion Criteria: Male or non-pregnant female > 18 years of age Investigators will target preferentially people at risk of diabetes or requiring diabetes meds The first tier of risk will be illustrated by one of the following variables (e.g. established type 2 diabetes on diet therapy alone, elevated random glucose in electronic medical record, PCOS, metabolic syndrome, obesity, history of gestational diabetes, etc.) The second tier of risk will be illustrated by other features that correlate with diabetes risk, such as a history of hypertension or dyslipidemia Otherwise healthy subjects may also be candidates for the study. Able and willing to give consent relevant to genetic investigation Exclusion Criteria: Pregnant, nursing or at risk of becoming pregnant Currently taking any medications for the treatment of diabetes Currently on metformin for any other indication (e.g. PCOS) Onset of diabetes in a family member before age 25, with autosomal transmission of diabetes across three generations History of liver or kidney disease Known severe allergic reactions to sulfonamides History of porphyria Documented estimated glomerular filtration rate (GFR) < 60 ml/min/1.73 m2, based on the most recent serum creatinine measurement available in the electronic medical record, and calculated by the Modification of Diet in Renal Disease equation (49) available at http://www.nephron.com/cgi-bin/MDRD_GFR.cgi Currently taking medications known to affect glycemic parameters, such as glucocorticoids, growth hormone or fluoroquinolones Planned radiologic or angiographic study requiring contrast within one week of completion of this study Established coronary artery disease (CAD), defined as: History of myocardial infarction. History of revascularization (coronary artery bypass grafting, percutaneous coronary intervention (e.g. stenting or balloon angioplasty). Evidence of ischemia on cardiac stress test. Enrolled in any other interventional study at time of screening through completion of study protocol History of bariatric surgery History of seizures History of stroke/CVA