In Vivo Insulin Action Is Familial Characteristic in Nondiabetic Pima Indians

Non-insulin-dependent diabetes mellitus (NIDDM) is a genetic disorder characterized by two major pathogenic processes: reduced insulin action and a relative or absolute decrease in plasma insulin concentrations. We studied 116 nondiabetic siblings from 45 families to determine if in vivo insulin action showed any aggregation among siblings. Subjects were Pima Indians from the Gila River Indian Community in Arizona who, as a group, have the highest reported incidence and prevalence of NIDDM in the world. In vivo insulin action was determined by the euglycemic-clamp technique at two rates of insulin infusion in each subject with resulting mean plasma insulin concentrations of 119 and 1938 μU/ml. After adjustment for age, sex, and degree of obesity, there was significant aggregation among siblings of in vivo insulin action at the high insulin infusion rate (P < .0001). Family membership independently accounted for ∼34% of the variance in this measure of insulin action. Glucose uptake at the lower insulin infusion rate also showed familial aggregation (P < .01), with family membership independently accounting for ∼15% of the variance of this measurement. We conclude that in vivo insulin action is a familial characteristic. The familial component of insulin action occurs in addition to the effects of obesity, age, and sex on insulin action. Therefore it is not sufficient to simply know that an individual is lean or obese to predict his/her in vivo insulin resistance, because it must also be known whether he/she is from an insulin-resistant or insulin-sensitive family. An alteration of insulin action may be an underlying and potentially genetically determined abnormality in Pima Indians that could help explain the familial aggregation of diabetes in this population. Such a genetic mechanism might also operate in populations with Native American admixture (e.g., Mexicans) as well as other populations.

[1]  A. Golay,et al.  Effect of differences in glucose tolerance on insulin's ability to regulate carbohydrate and free fatty acid metabolism in obese individuals. , 1986, The Journal of clinical endocrinology and metabolism.

[2]  S. Lillioja,et al.  Glucose storage is a major determinant of in vivo "insulin resistance" in subjects with normal glucose tolerance. , 1986, The Journal of clinical endocrinology and metabolism.

[3]  G. Grodsky,et al.  The Third Phase of In Vitro Insulin Secretion: Evidence For Glucose Insensitivity , 1986, Diabetes.

[4]  J. Leahy,et al.  Chronic hyperglycemia is associated with impaired glucose influence on insulin secretion. A study in normal rats using chronic in vivo glucose infusions. , 1986, The Journal of clinical investigation.

[5]  A. Stunkard,et al.  An adoption study of human obesity. , 1986, The New England journal of medicine.

[6]  D. James,et al.  Heterogeneity of insulin action in individual muscles in vivo: euglycemic clamp studies in rats. , 1985, The American journal of physiology.

[7]  I. Longini,et al.  Genetic and environmental sources of familial aggregation of body mass in Tecumseh, Michigan. , 1984, Human biology.

[8]  J. Halter,et al.  Diminished B cell secretory capacity in patients with noninsulin-dependent diabetes mellitus. , 1984, The Journal of clinical investigation.

[9]  A. Kissebah,et al.  Relationship between skeletal muscle insulin resistance, insulin-mediated glucose disposal, and insulin binding. Effects of obesity and body fat topography. , 1984, The Journal of clinical investigation.

[10]  I. Longini,et al.  Environmental and genetic sources of familial aggregation of blood pressure in Tecumseh, Michigan. , 1984, American journal of epidemiology.

[11]  S. Lillioja,et al.  Correlation between muscle glycogen synthase activity and in vivo insulin action in man. , 1984, The Journal of clinical investigation.

[12]  R. Havlik,et al.  Family resemblances in height and relative weight in the Framingham Heart Study. , 1984, International journal of obesity.

[13]  E. Ravussin,et al.  Effect of muscle glycogen depletion on in vivo insulin action in man. , 1983, The Journal of clinical investigation.

[14]  R. Williams,et al.  Diabetes mellitus in the Pima Indians: genetic and evolutionary considerations. , 1983, American journal of physical anthropology.

[15]  S. Margolis,et al.  Hyperinsulinemia of obesity is due to decreased clearance of insulin. , 1983, The American journal of physiology.

[16]  R. DeFronzo,et al.  Splanchnic and Peripheral Disposal of Oral Glucose in Man , 1983, Diabetes.

[17]  S. Bonner-Weir,et al.  Partial pancreatectomy in the rat and subsequent defect in glucose-induced insulin release. , 1983, The Journal of clinical investigation.

[18]  R. Casamitjana,et al.  Reduced hepatic insulin extraction in obesity: relationship with plasma insulin levels. , 1983, The Journal of clinical endocrinology and metabolism.

[19]  J. A. Scarlett,et al.  Insulin action and resistance in obesity and noninsulin-dependent type II diabetes mellitus. , 1982, The American journal of physiology.

[20]  J. Halter,et al.  The Effect of Chronic Sulfonylurea Therapy on Hepatic Glucose Production in Non-insulin-dependent Diabetes , 1982, Diabetes.

[21]  R. Turner,et al.  Islet Changes Induced by Hyperglycemia in Rats: Effect of Insulin or Chlorpropamide Therapy , 1982, Diabetes.

[22]  B. Portha,et al.  Insulin Treatment Improves the Spontaneous Remission of Neonatal Streptozotocin Diabetes in the Rat , 1982, Diabetes.

[23]  S. Aronoff,et al.  Improvement of insulin secretion but not insulin resistance after short term control of plasma glucose in obese type II diabetics. , 1982, The Journal of clinical endocrinology and metabolism.

[24]  R. DeFronzo,et al.  The Effect of Insulin on the Disposal of Intravenous Glucose: Results from Indirect Calorimetry and Hepatic and Femoral Venous Catheterization , 1981, Diabetes.

[25]  L. Mandarino,et al.  Dose-response characteristics for effects of insulin on production and utilization of glucose in man. , 1981, The American journal of physiology.

[26]  P. Savage,et al.  Diabetes incidence in Pima indians: contributions of obesity and parental diabetes. , 1981, American journal of epidemiology.

[27]  M Feinleib,et al.  Weight changes in adult twins. , 1980, Acta geneticae medicae et gemellologiae.

[28]  J. Olefsky,et al.  Mechanisms of insulin resistance in human obesity: evidence for receptor and postreceptor defects. , 1980, The Journal of clinical investigation.

[29]  G. Reaven,et al.  Insulin-independent diabetes mellitus: metabolic characteristics. , 1980, Metabolism: clinical and experimental.

[30]  Classification and Diagnosis of Diabetes Mellitus and Other Categories of Glucose Intolerance , 1979, Diabetes.

[31]  R. DeFronzo,et al.  Glucose clamp technique: a method for quantifying insulin secretion and resistance. , 1979, The American journal of physiology.

[32]  P. Savage,et al.  Diet-induced improvement of abnormalities in insulin and glucagon secretion and in insulin receptor binding in diabetes mellitus. , 1979, The Journal of clinical endocrinology and metabolism.

[33]  C. Kahn Insulin resistance, insulin insensitivity, and insulin unresponsiveness: a necessary distinction. , 1978, Metabolism: clinical and experimental.

[34]  C. Sing,et al.  Analysis of genetic and environmental sources of variation in serum cholesterol in Tecumseh, Michigan. IV. Separation of polygene from common environment effects. , 1978, American journal of human genetics.

[35]  G. Reaven,et al.  The role of insulin resistance in the pathogenesis of diabetes mellitus. , 1978, Advances in metabolic disorders.

[36]  A. Thorstensson,et al.  Skeletal muscle fibres and muscle enzyme activities in monozygous and dizygous twins of both sexes. , 1977, Acta physiologica Scandinavica.

[37]  D. Rimoin,et al.  Inheritance of diabetes mellitus. , 1971, The New England journal of medicine.

[38]  P. Bennett,et al.  Epidemiologic studies of diabetes in the Pima Indians. , 1976, Recent progress in hormone research.

[39]  I. Bihler,et al.  Membrane transport: its relation to cellular metabolic rates. , 1975, Science.

[40]  P. Savage,et al.  Hyperinsulinemia and Hypoinsulinemia: Insulin Responses to Oral Carbohydrate Over a Wide Spectrum of Glucose Tolerance , 1975, Diabetes.

[41]  V. Barnett,et al.  Applied Linear Statistical Models , 1975 .

[42]  K. Johansen,et al.  Insulin, growth hormone, and glucagon in prediabetes mellitus--a review. , 1974, Metabolism: clinical and experimental.

[43]  S. Bocadoro [Prevention of diabetes]. , 1972, Professioni infermieristiche.

[44]  P. Åstrand,et al.  Textbook of Work Physiology , 1970 .

[45]  P. Sönksen,et al.  Changes of carbohydrate tolerance in acromegaly with progress of the disease and in response to treatment. , 1967, The Journal of clinical endocrinology and metabolism.

[46]  V. Herbert,et al.  Coated charcoal immunoassay of insulin. , 1965, The Journal of clinical endocrinology and metabolism.

[47]  H. Seltzer,et al.  Exhaustion of Insulogenic Reserve in Maturity-onset Diabetic Patients During Prolonged and Continuous Hyperglycemic Stress , 1964, Diabetes.

[48]  R. Steele,et al.  INFLUENCES OF GLUCOSE LOADING AND OF INJECTED INSULIN ON HEPATIC GLUCOSE OUTPUT * , 1959, Annals of the New York Academy of Sciences.

[49]  H. Harris,et al.  The Rat , 1958, Nature.

[50]  A. Keys,et al.  Body fat in adult man. , 1953, Physiological reviews.

[51]  E. Watson DIABETES MELLITUS IN TWINS. , 1934, Canadian Medical Association journal.