Endocrine and cardiac paracrine actions of insulin-like growth factor-I (IGF-I) during thyroid dysfunction in the rat: is IGF-I implicated in the mechanism of heart weight/body weight change during abnormal thyroid function?

Abstract

Thyroid hormones are essential for the normal growth and development of many tissues. In the rat, hypothyroidism is associated with growth impairment, and hyperthyroidism with the development of a hypercatabolic state and skeletal muscle wasting but, paradoxically, cardiac hypertrophy. The mechanism by which thyroid hormone produces cardiac hypertrophy and myosin isoenzyme changes remains unclear. The role of IGF-I, an anabolic hormone with both paracrine and endocrine actions, in producing cardiac hypertrophy was investigated during this study in hyperthyroid, hypothyroid and control rats. A treated hypothyroid group was also included in order to assess the effect of acute normalization of thyroid function. Body weight was significantly lower in the hyperthyroid (mean±s.e.m.; 535·5±24·9 g, PPP−3, P−3, P−3). Serum IGF-I concentrations were similar in the control and hyperthyroid rats (0·91±0·07 vs 0·78±0·04 U/ml, P=0·26), but bioactivity was reduced by 70% in hyperthyroid serum, suggesting a circulating inhibitor of IGF. Serum IGF-I levels (0·12±0·03 U/ml, PPPPPPP<0·01) and was normalized in the treated hypothyroid group (0·11 ± 0·01 U/mg vs control, 0·13±0·01 U/mg). Low body mass during both hypothyroidism and hyperthyroidism is therefore associated with reduced systemic IGF bioactivity. In hypothyroidism there is a primary defect in the endocrine function of IGF-I, while in hyperthyroidism serum IGF bioactivity is reduced in the presence of normal endocrine production of this anabolic hormone. In contrast, the paracrine actions of IGF-I are increased in the heart during hyperthyroidism, and this hormone appears to play a part in the development of hyperthyroid cardiac hypertrophy.