Insulin binding to the insulin receptor triggers intracellular signaling cascades involving the activation of protein and lipid kinases. As a result, multiple biological functions of the cells are changed. Here, we analyzed the regulation and signaling cascades leading to insulin-induced activation of the stimulus-responsive transcription factors. For the analyses, we used chromatin-embedded reporter genes having a cellular nucleosomal organisation, and fibroblasts expressing human insulin receptors (HIRcB cells). The results show that stimulation of the insulin receptor induced the expression of the transcription factor Egr-1. Attenuation of Egr-1 promoter activation was observed following expression of a dominant-negative mutant of the ternary complex factor Elk-1. These data were corroborated by experiments showing that insulin receptor stimulation increased the transcriptional activation potential of Elk-1. In addition, the transcriptional activity of AP-1 was significantly elevated in insulin-stimulated HIRcB cells. Expression of the dominant-negative mutant of Elk-1 reduced insulin-induced activation of AP-1, indicating that Elk-1 controls both serum response element and AP-1-regulated transcription. Moreover, we show that stimulation of the insulin receptor activates cyclic AMP response element (CRE)-controlled transcription, involving the transcription factor CREB. Insulin-induced transcription of Elk-1 and CREB-controlled reporter genes was attenuated by overexpression of MAP kinase phosphatase-1 or a constitutively active mutant of calcineurin A, indicating that both phosphatases are part of a negative feedback loop for reducing insulin-mediated gene transcription. Finally, we show that expression of the adenoviral protein E1A selectively reduced CRE-mediated transcription following stimulation of the insulin receptor. These data indicate that insulin-regulated transcription of CRE-containing genes is under epigenetic control.
Keywords: AP-1; CREB; Calcineurin; E1A; Egr-1; Elk-1; MKP-1; Porcine insulin; PubChem CID: 118,984,380.
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