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PTPRG is an ischemia risk locus essential for HCO3–-dependent regulation of endothelial function and tissue perfusion

Kristoffer Berg‐Hansen, Christian Staehr, Palle Duun Rohde, Casper Homilius, Sukhan Kim, Mette Nyegaard, Vladimir V. Matchkov, Ebbe Boedtkjer

2020eLife19 citationsDOIOpen Access PDF

Abstract

Acid-base conditions modify artery tone and tissue perfusion but the involved vascular-sensing mechanisms and disease consequences remain unclear. We experimentally investigated transgenic mice and performed genetic studies in a UK-based human cohort. We show that endothelial cells express the putative HCO 3 – -sensor receptor-type tyrosine-protein phosphatase RPTPγ, which enhances endothelial intracellular Ca 2+ -responses in resistance arteries and facilitates endothelium-dependent vasorelaxation only when CO 2 /HCO 3 – is present. Consistent with waning RPTPγ-dependent vasorelaxation at low [HCO 3 – ], RPTPγ limits increases in cerebral perfusion during neuronal activity and augments decreases in cerebral perfusion during hyperventilation. RPTPγ does not influence resting blood pressure but amplifies hyperventilation-induced blood pressure elevations. Loss-of-function variants in PTPRG , encoding RPTPγ, are associated with increased risk of cerebral infarction, heart attack, and reduced cardiac ejection fraction. We conclude that PTPRG is an ischemia susceptibility locus; and RPTPγ-dependent sensing of HCO 3 – adjusts endothelium-mediated vasorelaxation, microvascular perfusion, and blood pressure during acid-base disturbances and altered tissue metabolism.

Topics & Concepts

IschemiaPerfusionLocus (genetics)Function (biology)BiologyCell biologyInternal medicineCardiologyNeuroscienceGeneticsMedicineGeneEicosanoids and Hypertension PharmacologyMitochondrial Function and PathologyCancer, Hypoxia, and Metabolism