Insulin: the other anabolic hormone of puberty

Abstract

To determine the effect of puberty on isulin action, we used the euglycaemic‐hyperinsulinaemic clamp technique in combination with stable isotopes and indirect calorimetry in lean preadolescents, adolescents and; adults. These studies indicated that the insulin resistance induced by normal puberty alters glucose metabolism but is insufficient to adversely affect insulin‐stimulated protein metabolism or to inhibit lipolysis. Using the hyperglycaemic clamp technique, we evaluated the impact of the insulin resistance on insulin secretion in pre‐adolescents, adolescents and young adults. These studies revealed that the insulin and C‐peptide responses to a standardized intravenous hyperglycaemic stimulus were two‐to threefold greater in adolescents than in preadolescent children and adults. As growth hormone (GH), insulin‐like growth factor 1 (IGF‐1) and insulin levels normally peak during puberty, we examined the influence of insulin on IGF‐1 regulation by measuring basal GH, total and free IGF‐I, and IGF binding protein (IGFBP) levels in lean adolescents and young adults. During the clamp studies, the adolescents exhibited low levels of IGFBP‐1 and ‐2 as well as a reduced insulin‐induced suppression of IGFBP‐1, compared with lean adults. Thus, we postulate that the insulin resistance of puberty induces compensatory hyperinsulinaemia, which in turn suppresses circulating levels of IGFBP‐1, which in turn leads to increased levels of free IGF‐I.