Literature DB >> 26714229

Hypoxia Increases IGFBP-1 Phosphorylation Mediated by mTOR Inhibition.

Ian Damerill1, Kyle K Biggar1, Majida Abu Shehab1, Shawn Shun-Cheng Li1, Thomas Jansson1, Madhulika B Gupta1.   

Abstract

In fetal growth restriction (FGR), fetal growth is limited by reduced nutrient and oxygen supply. Insulin-like growth factor I (IGF-I) is a key regulator of fetal growth and IGF binding protein -1(IGFBP-1) is the principal regulator of fetal IGF-I bioavailability. Phosphorylation enhances IGFBP-1's affinity for IGF-I. Hypoxia induces IGFBP-1 hyperphosphorylation, markedly decreasing IGF-I bioavailability. We recently reported that fetal liver IGFBP-1 hyperphosphorylation is associated with inhibition of the mechanistic target of rapamycin (mTOR) in a nonhuman primate model of FGR. Here, we test the hypothesis that IGFBP-1 hyperphosphorylation in response to hypoxia is mediated by mTOR inhibition. We inhibited mTOR either by rapamycin or small interfering RNA (siRNA) targeting raptor (mTOR complex [mTORC]1) and/or rictor (mTORC2) in HepG2 cells cultured under hypoxia (1% O2) or basal (20% O2) conditions. Conversely, we activated mTORC1 or mTORC1+mTORC2 by silencing endogenous mTOR inhibitors (tuberous sclerosis complex 2/DEP-domain-containing and mTOR-interacting protein). Immunoblot analysis demonstrated that both hypoxia and inhibition of mTORC1 and/or mTORC2 induced similar degrees of IGFBP-1 phosphorylation at Ser101/119/169 and reduced IGF-I receptor autophosphorylation. Activation of mTORC1+mTORC2 or mTORC1 alone prevented IGFBP-1 hyperphosphorylation in response to hypoxia. Multiple reaction monitoring-mass spectrometry showed that rapamycin and/or hypoxia increased phosphorylation also at Ser98 and at a novel site Ser174. In silico structural analysis indicated that Ser174 was in close proximity to the IGF-binding site. Together, we demonstrate that signaling through the mTORC1 or mTORC2 pathway is sufficient to induce IGFBP-1 hyperphosphorylation in response to hypoxia. This study provides novel understanding of the cellular mechanism that controls fetal IGFBP-1 phosphorylation in hypoxia, and we propose that mTOR inhibition constitutes a mechanistic link between hypoxia, reduced IGF-I bioavailability and FGR.

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Year:  2015        PMID: 26714229      PMCID: PMC4792228          DOI: 10.1210/me.2015-1194

Source DB:  PubMed          Journal:  Mol Endocrinol        ISSN: 0888-8809


  64 in total

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2.  Multiple reaction monitoring to identify sites of protein phosphorylation with high sensitivity.

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4.  mTORC1 signaling under hypoxic conditions is controlled by ATM-dependent phosphorylation of HIF-1α.

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Authors:  Dos D Sarbassov; Siraj M Ali; Shomit Sengupta; Joon-Ho Sheen; Peggy P Hsu; Alex F Bagley; Andrew L Markhard; David M Sabatini
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  17 in total

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5.  IUGR Is Associated With Marked Hyperphosphorylation of Decidual and Maternal Plasma IGFBP-1.

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7.  Exposure of decidualized HIESC to low oxygen tension and leucine deprivation results in increased IGFBP-1 phosphorylation and reduced IGF-I bioactivity.

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8.  Mechanisms linking hypoxia to phosphorylation of insulin-like growth factor binding protein-1 in baboon fetuses with intrauterine growth restriction and in cell culture.

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10.  IGFBP-1 hyperphosphorylation in response to nutrient deprivation is mediated by activation of protein kinase Cα (PKCα).

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Journal:  Mol Cell Endocrinol       Date:  2021-07-24       Impact factor: 4.369
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