Kirsten Drejer scite author profile

Biol Chem 253:2769-2776, 1978. Zapf J, Schoenle E, and Froesch ER: Insulin-like growth factors I and 11: some biological actions and receptor binding characteristics of two purified constituents of nonsuppressible insulinlike activity of human serum. Eur ] Biochem 87:285-296, 1978. Rechler MM, Zapf J, Nissley SP, Froesch ER, Moses AC, Podskalny JM, Schilling EE, and Humbel RE: Interactions of insulin-like growth factor I and I1 and multiplication-stimulating activity with receptors and serum carrier proteins.

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Receptor Binding and Tyrosine Kinase Activation by Insulin Analogues With Extreme Affinities Studied in Human Hepatoma HepG2 Cells

Drejer

Kruse

Larsen

et al. 1991

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The insulin-receptor affinity of five human insulin analogues with one to four amino acid substitutions was measured with human hepatoma cells (HepG2). The binding affinities ranged from 0.05% for AspB25 insulin, 18% for AspB9, GluB27 insulin, 80% for AspB28 insulin, and 327% for AspB10 insulin to 687% for HisA8, HisB4, GluB10, HisB27 insulin relative to human insulin. Binding constants obtained by competition experiments at steady state with [125I]TyrA14-labeled insulin and unlabeled analogues and by kinetic studies with [125I]TyrA14-labeled analogues and insulin gave essentially the same values. The kinetic studies showed that differences in affinity between analogues were due to differences in both dissociation and association rate constants. The affinity for insulinlike growth factor I receptor was low, ranging from less than 0.005% for AspB25 insulin to 0.6% for HisA8, HisB4, GluB10, HisB27 insulin. The potencies of insulin analogues in activation of the tyrosine kinase of solubilized and partially purified insulin receptors from HepG2 cells, measured with the exogenous substrate poly(Glu80-Tyr20), ranked in the same order as the binding affinities, the actual values being somewhat elevated for the high-affinity analogues, however. We conclude that these human insulin analogues are active in insulin-receptor binding and tyrosine kinase stimulation but show wide variation in affinity.

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A Prospective Study of Young Men at High Risk for Alcoholism: Neuropsychological Assessment

Drejer

Theikjaard

Teasdale

et al. 1985

Alcoholism Clin & Exp Res

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As part of the first phase of a prospective longitudinal study on alcoholism, a battery of neuropsychological tests covering general intelligence, memory, attention, field-dependence, categorizing ability, and organizing and planning, was administered to 204 18-19-year-old males. Of these, 134 subjects are the sons of alcoholic fathers and are thereby themselves at high risk for becoming alcoholic. The remaining 70 subjects comprise a control group matched for several social and familial variables. The high risk group was found to have a relatively poorer vocabulary and to perform worse on tests of categorizing ability and organization and planning. All of these findings concur with other results from this study. The anticipated future alcoholics from among the high risk subjects may prove to be those who differed most on these tests.

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In Vitro and In Vivo Potency of Insulin Analogues Designed for Clinical Use

et al. 1991

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Analogues of human insulin designed to have improved absorption properties after subcutaneous injection have been prepared by recombinant DNA technology. Five rapidly absorbed analogues, being predominantly in mono- or di-meric states in the pharmaceutical preparation, and a hexameric analogue with very low solubility at neutral pH and slow absorption, were studied. Receptor binding assays with HEP-G2 cells showed overall agreement with mouse free adipocyte assays. Two analogues, B28Asp and A21Gly + B27Arg + B30Thr-NH2, had nearly the same molar in vitro potency as human insulin. Another two showed increased adipocyte potency and receptor binding, B10Asp 194% and 333% and A8His + B4His + B10Glu + B27His 575% and 511%, while B9Asp + B27Glu showed 29% and 18% and the B25Asp analogue only 0.12% and 0.05% potency. Bioassays in mice or rabbits of the analogues except B25Asp showed that they had the same in vivo potency as human insulin 1.00 IU = 6.00 nmol. Thus the variation had the same in vivo potency as human insulin 1.00 IU = 6.00 nmol. Thus the variation in in vivo potency reflects the differences in receptor binding affinity. Relative to human insulin a low concentration is sufficient for a high affinity analogue to produce a given receptor complex formation and metabolic response. In conclusion, human insulin and analogues with markedly different in vitro potencies were equipotent in terms of hypoglycaemic effect. This is in agreement with the concept that elimination of insulin from blood and its subsequent degradation is mediated by insulin receptors.

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Kirsten Drejer

The bioactivity of insulin analogues from in vitro receptor binding to in vivo glucose uptake

Receptor Binding and Tyrosine Kinase Activation by Insulin Analogues With Extreme Affinities Studied in Human Hepatoma HepG2 Cells

A Prospective Study of Young Men at High Risk for Alcoholism: Neuropsychological Assessment

In Vitro and In Vivo Potency of Insulin Analogues Designed for Clinical Use

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