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  • Title: Insulin-like growth factor-I suppresses degradation of the pro-survival transcription factor myocyte enhancer factor 2D (MEF2D) during neuronal apoptosis.
    Author: Butts BD, Linseman DA, Le SS, Laessig TA, Heidenreich KA.
    Journal: Horm Metab Res; 2003; 35(11-12):763-70. PubMed ID: 14710356.
    Abstract:
    Cultured rat cerebellar granule neurons (CGNs) require depolarization-mediated calcium influx for survival. Calcium regulates the activity of the pro-survival transcription factor, myocyte enhancer factor 2D (MEF2D). MEF2D is hyperphosphorylated and degraded in CGNs undergoing apoptosis induced by lowering the extracellular potassium concentration from 25 mM to 5 mM. Since insulin-like growth factor-I (IGF-I) is known to protect CGNs from apoptotic cell death, we investigated the effects of IGF-I on MEF2D processing during apoptosis. IGF-I administered during the apoptotic insult did not prevent the hyperphosphorylation of MEF2D and consequential loss of DNA binding. However, IGF-I significantly blocked the degradation of MEF2D. Furthermore, IGF-I had no effect on the initial loss of MEF2 transcriptional activity following hyperphosphorylation, but the recovery of MEF2 activity following restoration of intracellular calcium was significantly increased by IGF-I. We conclude that IGF-I blocks the degradation of MEF2D and enhances recovery of MEF2 activity by protecting MEF2D from caspase-dependent cleavage during apoptosis. These results suggest that IGF-I can prolong the time of commitment to irreversible cell death and enhance the recovery of neurons subjected to an acute apoptotic stimulus by preserving the activity of the pro-survival factor MEF2D.
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