Insulin Receptor Substrate-1 Activation Mediated p53 Downregulation Protects Against Hypoxic-Ischemia in the Neonatal Brain

Yi Fang Tu, Si Tse Jiang, Yen Hung Chow, Chao Ching Huang, Chien Jung Ho, Ya Ping Chou

研究成果: 雜誌貢獻文章同行評審

11 引文 斯高帕斯(Scopus)

摘要

This study determined if dietary restriction (DR) protects against hypoxic-ischemia (HI) in the neonatal brain via insulin receptor substrate-1 (IRS-1)/Akt pathway-mediated downregulation of p53 in the neurovascular unit. On postnatal (P) day 7, HI was induced in rat pups grouped from P1 into normal litter size (NL, 12 pups/dam) and increased litter size (DR, 18 pups/dam). In vivo IRS-1 anti-sense oligonucleotide and IRS-1 overexpressed recombinant adenovirus were given, and neurovascular damage was assessed. In vitro models of oxygen-glucose deprivation (OGD) examined the inhibition and overexpression of IRS-1 on p53 and cell death in neurons and endothelial cells. Compared to NL pups, DR pups had significantly higher IRS-1, p-IRS-1, and pAkt levels, decreased p53, more tight junction proteins, reduced blood-brain barrier (BBB) damage after HI, and less infarct volumes at P21. Immunofluorescence revealed that IRS-1 was upregulated in the endothelial cells and neurons of DR pups. IRS-1 downregulation in DR pups reduced p-Akt, increased p53, worsened BBB damage, and increased brain injury, whereas IRS-1 overexpression in NL pups upregulated p-Akt, decreased p53, attenuated BBB damage, and decreased brain injury. In vitro, IRS-1 downregulation aggravated cell death in neurons and endothelial cells and is associated with decreased p-Akt and increased p53. In contrast, IRS-1 overexpression reduced cell death in endothelial cells with increased p-Akt and decreased p53. In conclusion, DR reduces neurovascular damage after HI in the neonatal brain through an IRS-1/Akt-mediated p53 downregulation, suggesting that IRS-1 signaling is a therapeutic target for hypoxic brain injury in neonates.
原文英語
頁(從 - 到)3658-3669
頁數12
期刊Molecular Neurobiology
53
發行號6
DOIs
出版狀態已發佈 - 8月 1 2016

ASJC Scopus subject areas

  • 神經科學(雜項)
  • 神經內科
  • 細胞與分子神經科學

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