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  • Title: Insulin-like growth factor-I and central nervous system development.
    Author: Anlar B, Sullivan KA, Feldman EL.
    Journal: Horm Metab Res; 1999; 31(2-3):120-5. PubMed ID: 10226791.
    Abstract:
    Insulin-like growth factor-I (IGF-I), a 70-amino acid-protein structurally similar to insulin, promotes cell proliferation and differentiation in multiple tissues. Most of its effects are mediated by the Type I IGF receptor (IGF-IR), a heterotetramer that has tyrosine kinase activity and phosphorylates insulin receptor substrates (IRS-1 and 2) which leads to the activation of two downstream signaling cascades: the MAP kinase and the phosphatidylinositol 3-kinase (P3K) cascades. The growth-promoting effects of IGF-I are prominent in the nervous system, qualifying this molecule as a neurotrophin. Although the primary regulator of IGF-I expression is growth hormone (GH), the developmental expression of IGF-I in various tissues precedes that of GH, supporting an independent role of IGF-I in embryonic and fetal life [1]. This review will examine the effect of IGF-I on central nervous system (CNS) development. The specialized structure of the CNS is the product of a complex series of biological events which result from the interaction between the cells' genetic program and environmental influences. CNS development begins in the embryo with dorsal ectodermal cell proliferation to form the neural plate, and, with its closure, the neural tube, followed by the rapid division of pluripotential cells, their migration to the periphery of the neural tube, and differentiation into neural or glial cells. During the latter stages, cells form special structures such as nuclei, ganglia, cerebral cortical layers, and they also develop a network with their cytoplasmic extensions, neurites. Many more cells and connections are generated in fetal life than are found in the mature organism. This excessive production of some cell groups and neurites may compensate for tissue loss due to various injuries, and their selective elimination also constitutes an efficient way to organize the architecture of the CNS. This elimination is believed to be accomplished by apoptosis. The cells' intrinsic program for development includes the expression of various genes at different times. Environmental influences, such as extracellular matrix (ECM) molecules that attract or repel cells, afferent inputs, and target-derived diffusible molecules modify and modulate cellular behavior. IGF-I is among the molecules which affect several steps involved in development.
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