Literature DB >> 28018974

Hypoxia sensing through β-adrenergic receptors.

Hoi I Cheong1,2, Kewal Asosingh1, Olivia R Stephens1,2, Kimberly A Queisser1, Weiling Xu1, Belinda Willard3, Bo Hu4, Josephine Kam Tai Dermawan5, George R Stark6, Sathyamangla V Naga Prasad7, Serpil C Erzurum1,8.   

Abstract

Life-sustaining responses to low oxygen, or hypoxia, depend on signal transduction by HIFs, but the underlying mechanisms by which cells sense hypoxia are not completely understood. Based on prior studies suggesting a link between the β-adrenergic receptor (β-AR) and hypoxia responses, we hypothesized that the β-AR mediates hypoxia sensing and is necessary for HIF-1α accumulation. Beta blocker treatment of mice suppressed hypoxia induction of renal HIF-1α accumulation, erythropoietin production, and erythropoiesis in vivo. Likewise, beta blocker treatment of primary human endothelial cells in vitro decreased hypoxia-mediated HIF-1α accumulation and binding to target genes and the downstream hypoxia-inducible gene expression. In mechanistic studies, cAMP-activated PKA and/or GPCR kinases (GRK), which both participate in β-AR signal transduction, were investigated. Direct activation of cAMP/PKA pathways did not induce HIF-1α accumulation, and inhibition of PKA did not blunt HIF-1α induction by hypoxia. In contrast, pharmacological inhibition of GRK, or expression of a GRK phosphorylation-deficient β-AR mutant in cells, blocked hypoxia-mediated HIF-1α accumulation. Mass spectrometry-based quantitative analyses revealed a hypoxia-mediated β-AR phosphorylation barcode that was different from the classical agonist phosphorylation barcode. These findings indicate that the β-AR is fundamental to the molecular and physiological responses to hypoxia.

Entities:  

Year:  2016        PMID: 28018974      PMCID: PMC5161214          DOI: 10.1172/jci.insight.90240

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  45 in total

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Journal:  Circulation       Date:  2000-04-11       Impact factor: 29.690

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Journal:  J Pharmacol Exp Ther       Date:  1980-03       Impact factor: 4.030

3.  Colloquium paper: bioenergetics, the origins of complexity, and the ascent of man.

Authors:  Douglas C Wallace
Journal:  Proc Natl Acad Sci U S A       Date:  2010-05-05       Impact factor: 11.205

4.  Effects of carvedilol on right ventricular function in chronic heart failure.

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Journal:  Am J Cardiol       Date:  1998-01-15       Impact factor: 2.778

Review 5.  Lung cell hypoxia: role of mitochondrial reactive oxygen species signaling in triggering responses.

Authors:  Paul T Schumacker
Journal:  Proc Am Thorac Soc       Date:  2011-11

6.  Targeting of HIF-alpha to the von Hippel-Lindau ubiquitylation complex by O2-regulated prolyl hydroxylation.

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Journal:  Science       Date:  2001-04-05       Impact factor: 47.728

7.  Acute and 7-day portal pressure response to carvedilol and propranolol in cirrhotics.

Authors:  Binay K De; Debasish Das; Sambit Sen; Pranab K Biswas; Sanjay K Mandal; Debasis Majumdar; Ajit K Maity
Journal:  J Gastroenterol Hepatol       Date:  2002-02       Impact factor: 4.029

8.  Chronic hypoxia increases blood pressure and noradrenaline spillover in healthy humans.

Authors:  Jose A L Calbet
Journal:  J Physiol       Date:  2003-07-04       Impact factor: 5.182

9.  Quantitative analysis of murine terminal erythroid differentiation in vivo: novel method to study normal and disordered erythropoiesis.

Authors:  Jing Liu; Jianhua Zhang; Yelena Ginzburg; Huihui Li; Fumin Xue; Lucia De Franceschi; Joel Anne Chasis; Narla Mohandas; Xiuli An
Journal:  Blood       Date:  2013-01-03       Impact factor: 22.113

10.  Decreased catecholamine sensitivity and beta-adrenergic-receptor density in failing human hearts.

Authors:  M R Bristow; R Ginsburg; W Minobe; R S Cubicciotti; W S Sageman; K Lurie; M E Billingham; D C Harrison; E B Stinson
Journal:  N Engl J Med       Date:  1982-07-22       Impact factor: 91.245
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  16 in total

1.  The effects of normoxic endurance exercise on erythropoietin (EPO) production and the impact of selective β1 and non-selective β1 + β2 adrenergic receptor blockade.

Authors:  Rod J Azadan; Nadia H Agha; Hawley E Kunz; Forrest L Baker; Preteesh L Mylabathula; Tracy A Ledoux; Daniel P O'Connor; Charles R Pedlar; Richard J Simpson
Journal:  Eur J Appl Physiol       Date:  2021-03-01       Impact factor: 3.078

2.  Pulmonary arterial hypertension treatment with carvedilol for heart failure: a randomized controlled trial.

Authors:  Samar Farha; Didem Saygin; Margaret M Park; Hoi I Cheong; Kewal Asosingh; Suzy Aa Comhair; Olivia R Stephens; Emir C Roach; Jacqueline Sharp; Kristin B Highland; Frank P DiFilippo; Donald R Neumann; W H Wilson Tang; Serpil C Erzurum
Journal:  JCI Insight       Date:  2017-08-17

3.  Interdependence of hypoxia and β-adrenergic receptor signaling in pulmonary arterial hypertension.

Authors:  Olivia R Stephens; Kelly Weiss; Matthew Frimel; Jonathan A Rose; Yu Sun; Kewal Asosingh; Samar Farha; Kristin B Highland; Sathyamangla V Naga Prasad; Serpil C Erzurum
Journal:  Am J Physiol Lung Cell Mol Physiol       Date:  2019-06-26       Impact factor: 5.464

4.  Impact of paroxetine on proximal β-adrenergic receptor signaling.

Authors:  Shuchi Guo; Rhonda L Carter; Laurel A Grisanti; Walter J Koch; Douglas G Tilley
Journal:  Cell Signal       Date:  2017-07-12       Impact factor: 4.315

5.  Integrative proteomics and phosphoproteomics in pulmonary arterial hypertension.

Authors:  Weiling Xu; Suzy A A Comhair; Ruoying Chen; Bo Hu; Yuan Hou; Yadi Zhou; Lori A Mavrakis; Allison J Janocha; Ling Li; Dongmei Zhang; Belinda B Willard; Kewal Asosingh; Feixiong Cheng; Serpil C Erzurum
Journal:  Sci Rep       Date:  2019-12-09       Impact factor: 4.379

6.  Impairment of Hypoxia-Induced CA IX by Beta-Blocker Propranolol-Impact on Progression and Metastatic Potential of Colorectal Cancer Cells.

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Journal:  Int J Mol Sci       Date:  2020-11-19       Impact factor: 5.923

Review 7.  Metabolism in Pulmonary Hypertension.

Authors:  Weiling Xu; Allison J Janocha; Serpil C Erzurum
Journal:  Annu Rev Physiol       Date:  2021-02-10       Impact factor: 19.318

8.  Hypoxia and the hypoxia inducible factor 1α activate protein kinase A by repressing RII beta subunit transcription.

Authors:  Kristin Lucia; Yonghe Wu; Jose Monteserin Garcia; Anne Barlier; Michael Buchfelder; Wolfgang Saeger; Ulrich Renner; Günter K Stalla; Marily Theodoropoulou
Journal:  Oncogene       Date:  2020-02-28       Impact factor: 9.867

9.  GRK2-Dependent HuR Phosphorylation Regulates HIF1α Activation under Hypoxia or Adrenergic Stress.

Authors:  Clara Reglero; Vanesa Lafarga; Verónica Rivas; Ángela Albitre; Paula Ramos; Susana R Berciano; Olga Tapia; María L Martínez-Chantar; Federico Mayor; Petronila Penela
Journal:  Cancers (Basel)       Date:  2020-05-13       Impact factor: 6.639

10.  Intermittent Hypoxia Triggers Early Cardiac Remodeling and Contractile Dysfunction in the Time-Course of Ischemic Cardiomyopathy in Rats.

Authors:  Guillaume Bourdier; Maximin Détrait; Sophie Bouyon; Emeline Lemarié; Sandrine Brasseur; Stéphane Doutreleau; Jean-Louis Pépin; Diane Godin-Ribuot; Elise Belaidi; Claire Arnaud
Journal:  J Am Heart Assoc       Date:  2020-08-04       Impact factor: 5.501
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