CONTEXT: The increased insulin secretion in response to reduced insulin sensitivity (SI) is heritable, but whether the genetic predisposition is restricted to members of high-risk Caucasian families is unknown. Furthermore, the relative importance of insulin resistance and defective beta-cell compensation in the increased prevalence of type 2 diabetes (T2DM) in African-American compared with Caucasian individuals is uncertain. OBJECTIVES: We tested whether obese individuals with a family history of T2DM have decreased beta-cell compensation compared with obese controls without a family history of T2DM. In addition, we compared S(I) and insulin secretion measures in African-American and Caucasian individuals. DESIGN: SI, acute insulin response to iv glucose (AIRg), maximally potentiated insulin response to arginine (AIRmax), and disposition indexes (DIs) (DI = SI * AIRg; DImax = SI * AIRmax) were compared among nondiabetic Caucasian and African-American individuals with and without a family history of diabetes. SETTING: This study was performed in an Ambulatory General Clinical Research Center. SUBJECTS: SUBJECTS were healthy, nondiabetic individuals with or without a family history of T2DM. INTERVENTIONS: There were no interventions. MAIN OUTCOME MEASURES: Comparison of SI, AIRg, AIRmax, DI, and DImax between Caucasians and African-Americans with or without a strong family history of T2DM were made. RESULTS: Obese subjects did not differ in SI, AIRg, or DI by family history of diabetes. African-Americans had 8% lower SI (P < 0.001), but 68% higher AIRg (P < 0.001) and 46% higher DI (P = 0.001) than age, gender, body mass index-matched Caucasian individuals. However, African-Americans had lower DImax compared with Caucasians. CONCLUSIONS: We found no reduction in insulin secretion in obese subjects with a family history of T2DM compared with controls, but in general, African-Americans were more insulin resistant and had lower maximal beta-cell response (DImax). The paradoxical increased DI could be explained by the reduced hepatic insulin extraction.
CONTEXT: The increased insulin secretion in response to reduced insulin sensitivity (SI) is heritable, but whether the genetic predisposition is restricted to members of high-risk Caucasian families is unknown. Furthermore, the relative importance of insulin resistance and defective beta-cell compensation in the increased prevalence of type 2 diabetes (T2DM) in African-American compared with Caucasian individuals is uncertain. OBJECTIVES: We tested whether obese individuals with a family history of T2DM have decreased beta-cell compensation compared with obese controls without a family history of T2DM. In addition, we compared S(I) and insulin secretion measures in African-American and Caucasian individuals. DESIGN: SI, acute insulin response to iv glucose (AIRg), maximally potentiated insulin response to arginine (AIRmax), and disposition indexes (DIs) (DI = SI * AIRg; DImax = SI * AIRmax) were compared among nondiabetic Caucasian and African-American individuals with and without a family history of diabetes. SETTING: This study was performed in an Ambulatory General Clinical Research Center. SUBJECTS: SUBJECTS were healthy, nondiabetic individuals with or without a family history of T2DM. INTERVENTIONS: There were no interventions. MAIN OUTCOME MEASURES: Comparison of SI, AIRg, AIRmax, DI, and DImax between Caucasians and African-Americans with or without a strong family history of T2DM were made. RESULTS:Obese subjects did not differ in SI, AIRg, or DI by family history of diabetes. African-Americans had 8% lower SI (P < 0.001), but 68% higher AIRg (P < 0.001) and 46% higher DI (P = 0.001) than age, gender, body mass index-matched Caucasian individuals. However, African-Americans had lower DImax compared with Caucasians. CONCLUSIONS: We found no reduction in insulin secretion in obese subjects with a family history of T2DM compared with controls, but in general, African-Americans were more insulin resistant and had lower maximal beta-cell response (DImax). The paradoxical increased DI could be explained by the reduced hepatic insulin extraction.
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