Conditional Knockout of Mouse Insulin-Like Growth Factor-1 Gene Using the Cre/loxP System

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Review Article

Conditional Knockout of Mouse Insulin-Like Growth Factor-1 Gene Using the Cre/loxP System

Jun-Li Liu, Shoshana Yakar and Derek LeRoith¹^,

Clinical Endocrinology Branch, NIDDK, National Institutes of Health, Bethesda, Maryland 20892–1758

Insulin-like growth factor-1 (IGF-1) is an essential growthfactor for normal intrauterine development and postnatal growth.Mice with a complete deficiency of IGF-1 (IGF-1–null mice),created by homologous recombination, were found to exhibit postnatallethality, growth retardation, infertility, and profound defectsin the development of major organ systems. Furthermore, IGF-1–nullmice were resistant to growth hormone (GH) treatment in peri-pubertalsomatic growth. Using the Cre/loxP-induced conditional knockoutsystem, we generated a mouse that lacks IGF-1 specifically inthe liver, the primary site of IGF-1 production. Interestingly,although circulating and serum levels of IGF-1 were decreasedby ${approx}$ 75% in these mice, they exhibited no defect in growth ordevelopment. When administered exogenously, GH stimulated IGF-1production in several extra-hepatic tissues as well as bodygrowth. The "Somatomedin hypothesis" originally proposed thatcirculating IGF-1 acting in various tissues mediate the effectsof GH. These striking in vivo results, obtained using homologousrecombination technology, call for a major modification of theSomatomedin hypothesis. These gene targeting studies confirmthat IGF-1 is essential for GH-stimulated postnatal body growth.However, liver-derived (endocrine) IGF-1 is not essential fornormal postnatal growth, though it does exert a negative feedbackon GH secretion. Instead, local production of IGF-1, actingin a paracrine/autocrine fashion, appears to mediate GH-inducedsomatic growth. This review will discuss the effects of tissue-specificIGF-1 gene deficiency created by the Cre/loxP system versusthe conventional IGF-1 knockout.

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