Hye Rim Chang1, Hae Jin Kim1,2, Xiaoyuan Xu1, Anthony W Ferrante1. 1. Department of Medicine, Naomi Berrie Diabetes Center, Columbia University, New York, New York, USA. 2. Department of Endocrinology and Metabolism, Ajou University School of Medicine, Suwon, Republic of Korea.
Abstract
OBJECTIVE: Insulin-like growth factor-1 (IGF1) regulates differentiation and growth of tissues and reduces stress and injury. IGF1 also in a tissue-specific manner modulates the differentiation and lipid storage capacity of adipocytes in vitro, but its roles in adipose tissue development and response to stress are not known. METHODS: To study IGF1 in vivo, the cellular sources of adipose tissue Igf1 expression were identified and mice were generated with targeted deletion in adipocytes and macrophages. The effects of adipocyte and macrophage deficiency of IGF1 on adipose tissue development and the response to chronic (high-fat feeding) and acute (cold challenge) stress were studied. RESULTS: The expression of Igf1 by adipose tissue was derived from multiple cell types including adipocytes and macrophages. In lean animals, adipocytes were the primary source of IGF1, but in obesity expression by adipocytes was reduced and by macrophages increased, so as to maintain overall adipose tissue Igf1 expression. Genetic deletion studies revealed that adipocyte-derived IGF1 regulated perigonadal but not subcutaneous adipose tissue mass during high-fat feeding and the development of obesity. Conversely, macrophage-derived IGF1 acutely modulated perigonadal adipose tissue mass during thermogenic challenges. CONCLUSIONS: Local IGF1 is not required in lean adipose tissue development but is required to maintain homeostasis during both chronic and acute metabolic stresses.
OBJECTIVE:Insulin-like growth factor-1 (IGF1) regulates differentiation and growth of tissues and reduces stress and injury. IGF1 also in a tissue-specific manner modulates the differentiation and lipid storage capacity of adipocytes in vitro, but its roles in adipose tissue development and response to stress are not known. METHODS: To study IGF1 in vivo, the cellular sources of adipose tissue Igf1 expression were identified and mice were generated with targeted deletion in adipocytes and macrophages. The effects of adipocyte and macrophage deficiency of IGF1 on adipose tissue development and the response to chronic (high-fat feeding) and acute (cold challenge) stress were studied. RESULTS: The expression of Igf1 by adipose tissue was derived from multiple cell types including adipocytes and macrophages. In lean animals, adipocytes were the primary source of IGF1, but in obesity expression by adipocytes was reduced and by macrophages increased, so as to maintain overall adipose tissue Igf1 expression. Genetic deletion studies revealed that adipocyte-derived IGF1 regulated perigonadal but not subcutaneous adipose tissue mass during high-fat feeding and the development of obesity. Conversely, macrophage-derived IGF1 acutely modulated perigonadal adipose tissue mass during thermogenic challenges. CONCLUSIONS: Local IGF1 is not required in lean adipose tissue development but is required to maintain homeostasis during both chronic and acute metabolic stresses.
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