Mouse Gene Set: SARTIPY_NORMAL_AT_INSULIN_RESISTANCE_DN

For the Human gene set with the same name, see SARTIPY_NORMAL_AT_INSULIN_RESISTANCE_DN

Standard name SARTIPY_NORMAL_AT_INSULIN_RESISTANCE_DN
Systematic name MM695
Brief description Genes down-regulated in 3T3-L1 cells (adipocyte) by insulin [GeneID=3630] which continued to respond normally to insulin in the insulin resistant cells.
Full description or abstract We have employed microarray technology using RNA from normal 3T3-L1 adipocytes and from 3T3-L1 adipocytes made insulin-resistant by treatment with tumor necrosis factor-alpha to identify a new class of insulin-responsive genes. These genes continued to respond normally to insulin even though the adipocytes themselves were metabolically insulin-resistant, i.e. they displayed a significantly decreased rate of insulin-stimulated glucose uptake. Approximately 12,000 genes/expressed sequence tags (ESTs) were screened. Of these, 40 genes/ESTs were identified that became insulin-resistant as expected (e.g. Socs-3, junB, and matrix metalloproteinase-11). However, 61 genes/ESTs continued to respond normally to insulin. Although some of these genes were previously shown to be regulated by insulin (e.g. Glut-1 and beta3-adrenergic receptor), other novel insulin-sensitive genes were also identified (e.g. Egr-1, epiregulin, Fra-1, and ABCA1). Real-time reverse transcription-PCR analysis confirmed the expression patterns of several of the differentially expressed genes. One gene that remained insulin-sensitive in the insulin-resistant adipocytes is the transcription factor Egr-1. Using an antisense strategy, we show that tissue factor and macrophage colony-stimulating factor, two cardiovascular risk factors, are downstream EGR-1 target genes in the adipocyte. Taken together, these data support the hypothesis that some signaling pathways remain insulin-sensitive in metabolically insulin-resistant adipocytes. These pathways may promote abnormal gene expression in hyperinsulinemic states like obesity and type II diabetes and thus may contribute to pathologies associated with these conditions.
Collection M2: Curated
      CGP: Chemical and Genetic Perturbations
Source publication Pubmed 14530283   Authors: Sartipy P,Loskutoff DJ
Exact source Table 3
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Source species Mus musculus
Contributed by John Newman (University of Washington)
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MOUSE_SEQ_ACCESSION
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Version history 2022.1.Mm: First Introduced.

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