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Hypoxia enhances platelet-derived growth factor signaling in the pulmonary vasculature by down-regulation of protein tyrosine phosphatases. | LitMetric

AI Article Synopsis

  • - Hypoxia enhances the signaling of the platelet-derived growth factor beta receptor (βPDGFR) in pulmonary vascular cells, leading to increased cell proliferation and movement, especially in the context of pulmonary hypertension (PH).
  • - In experiments, chronic hypoxia was shown to increase the phosphorylation of βPDGFR without changing its expression, while also reducing the activity and levels of protein tyrosine phosphatases (PTPs) that normally help to deactivate the receptor.
  • - This hypoxia-induced effect on βPDGFR signaling is regulated by hypoxia-inducible factor (HIF)-1α, indicating a significant mechanism that may contribute to the progression of pulmonary hypertension due to altered cellular responses to PDGF in low oxygen conditions

Article Abstract

Rationale: Platelet-derived growth factor (PDGF) plays a pivotal role in the pathobiology of pulmonary hypertension (PH) because it promotes pulmonary vascular remodeling. PH is frequently associated with pulmonary hypoxia.

Objectives: To investigate whether hypoxia alters PDGF β receptor (βPDGFR) signaling in the pulmonary vasculature.

Methods: The impact of chronic hypoxia on signal transduction by the βPDGFR was measured in human pulmonary arterial smooth muscle cells (hPASMC) in vitro, and in mice with hypoxia-induced PH in vivo.

Measurements And Main Results: Chronic hypoxia significantly enhanced PDGF-BB-dependent proliferation and chemotaxis of hPASMC. Pharmacologic inhibition of PI3 kinase (PI3K) and PLCγ abrogated these events under both normoxia and hypoxia. Although hypoxia did not affect βPDGFR expression, it increased the ligand-induced tyrosine phosphorylation of the receptor, particularly at binding sites for PI3K (Y751) and PLCγ (Y1021). The activated βPDGFR is dephosphorylated by protein tyrosine phosphatases (PTPs). Interestingly, hypoxia decreased expression of numerous PTPs (T cell PTP, density-enhanced phosphatase-1, PTP1B, and SH2 domain-containing phosphatase-2), resulting in reduced PTP activity. Hypoxia-inducible factor (HIF)-1α is involved in this regulation of gene expression, because hypoxia-induced βPDGFR hyperphosphorylation and PTP down-regulation were abolished by HIF-1α siRNA and by the HIF-1α inhibitor 2-methoxyestradiol. βPDGFR hyperphosphorylation and PTP down-regulation were also present in vivo in mice with chronic hypoxia-induced PH.

Conclusions: Hypoxia reduces expression and activity of βPDGFR-antagonizing PTPs in a HIF-1α-dependent manner, thereby enhancing receptor activation and proliferation and chemotaxis of hPASMC. Because hyperphosphorylation of the βPDGFR and down-regulation of PTPs occur in vivo, this mechanism likely has significant impact on the development and progression of PH and other hypoxia-associated diseases.

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Source
http://dx.doi.org/10.1164/rccm.200911-1663OCDOI Listing

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