Showing papers by "Peter Arner published in 1986"

Insulin action in human adipose tissue in acromegaly.

Abstract: The mechanisms underlying insulin resistance in acromegaly were investigated. Adipose tissue was obtained from nine patients with acromegaly who had in vivo insulin resistance and from 14 matched healthy control subjects. Receptor binding and the antilipolytic effect of insulin were determined in isolated fat cells. Insulin-induced glucose oxidation at a physiological hexose concentration was investigated in fat segments. In fat cells obtained from acromegaly patients after an overnight fast, insulin binding at low hormone concentrations was significantly reduced by 20-30%, insulin-induced antilipolysis was unchanged, but glucose oxidation was unresponsive to insulin. Since it has recently been observed that glucose feeding may rapidly modify insulin action in human adipocytes, fat cells were also obtained 60 min after an 100-g oral glucose load. In this situation, insulin binding at low hormone concentrations was further reduced to one-half of that in the control group, and the sensitivity of insulin-induced antilipolysis was markedly decreased in acromegaly. It is concluded that, in the fasting state, the action of insulin on glucose utilization but not on lipolysis is impaired in adipose tissue of acromegalic patients because of a postreceptor defect. After glucose ingestion, the resistance to insulin in acromegaly is further enhanced and antilipolysis is also impaired. Altered coupling between receptor and effector alone or in combination with an additional decrease in receptor binding may explain the enhancement of insulin resistance. These mechanisms may be essential factors in the pathogenesis of insulin resistance in acromegaly.

Studies of the human liver insulin receptor in noninsulin-dependent diabetes mellitus.

Abstract: The insulin binding characteristics and the structural components of the insulin receptor were studied in the purified liver plasma membranes from seven patients with noninsulin-dependent diabetes (NIDDM) and seven control subjects. In comparison to the controls, diabetic subjects had a 65% reduction in plasma insulin levels in response to an oral glucose load. Specific insulin binding by liver membranes from diabetic patients was, however, twofold greater than the binding activity by membranes from control subjects. This alteration resulted largely from an increase in the number of insulin receptors and a modest increase in receptor binding affinity. Holo (nonreduced) receptor species of similar molecular weights were detected by an affinity labeling technique in the two membrane preparations and sulfhydryl reduction demonstrated an insulin binding subunit of 125,000 mol wt. Overall, these results show that the hepatic insulin resistance of NIDDM cannot be explained by a deficiency in insulin binding.

Adrenergic Regulation of Lipolysis in Human Adipocytes: Findings in Hyper- and Hypothyroidism*

Abstract: In isolated sc adipocytes removed from hyperthyroid patients, the specific binding of [3H]dihydroalprenolol and [125I] iodocyanopindolol was greater than that in adipocytes from normal subjects. Based on Scatchard analysis of the [I25I] iodocyanopindolol data, this difference was due to a significant (P <0.01) increase in adrenoceptor number, which was 1.72 ±0.18 (±SEM) pmol/107 cells in the hyperthyroid patients and 0.94 ±0.16 pmol/107 cells in the normal subjects. When the patients were restudied when they were euthyroid, a significant decrease in the specific binding of the two radioligands was found. In hyperthyroidism, the lipolytic responsiveness (maximum effect) to norepinephrine was increased 57-fold, and that to isopropylnorepinephrine was increased 2-fold. No changes in either the binding of [3H]yohimbine or the antilipolytic effect of clonidine were found. In isolated adipocytes from hypothyroid patients, the specific binding of [3H]dihydroalprenolol and [125] iodocyanopindolol did not differ f...

Effects of Obesity, Hyperinsulinemia, and Glucose Intolerance on Insulin Action in Adipose Tissue of Sixty-Year-Old Men

Abstract: The relative effects of obesity alone, and in combination with fasting hyperinsulinemia and glucose intolerance, on the peripheral action of insulin in adipose tissue were investigated in twenty-four 60-yr-old men, who had been followed for 10 yr. They were divided into four groups of six subjects each on the basis of the following criteria: (1) normal body weight, normal fasting insulin level, and normal glucose tolerance; (2) moderate obesity, normal fasting insulin level, and normal glucose tolerance; (3) moderate obesity, fasting hyperinsulinemia, and normal glucose tolerance; and (4) moderate obesity, fasting hyperinsulinemia, and newly developed, moderate, untreated fasting hyperglycemia and/or glucose intolerance (i.e., mild type II diabetes mellitus). Specific adipocyte insulin binding and the effects of the hormone on adipose tissue lipolysis and glucose oxidation were determined. Insulin receptor binding per cell and per cell surface area were similar in all four groups. Regarding antilipolysis, the insulin sensitivity was the same in all groups and the maximum effect was significantly increased in the three obese groups, as compared with the normal-weight control group. In groups 1-3, insulin stimulated adipose tissue glucose oxidation in a dose-dependent way, and the sensitivity and responsiveness to insulin were comparable. In contrast, in the obese glucose-intolerant subjects (4) there was no significant effect of insulin on glucose oxidation when the hormone was added in increasing concentrations of less than or equal to 35 nmol/L. The basal glucose oxidation was similar in all four study groups. The in vivo insulin tolerance was gradually reduced in groups 2-4, as compared with the normal-weight control group.(ABSTRACT TRUNCATED AT 250 WORDS)