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Neuronal GPR81 regulates developmental brain angiogenesis and promotes brain recovery after a hypoxic ischemic insult

Prabhas Chaudhari, Ankush Madaan, José Carlos Rivera, Iness Charfi, Tiffany Habelrih, Xin Hou, Mohammad Nezhady, Gregory Lodygensky, Graciela Pineyro, Thierry Muanza, Sylvain Chemtob

2022Journal of Cerebral Blood Flow & Metabolism48 citationsDOIOpen Access PDF

Abstract

Perinatal hypoxic/ischemic (HI) brain injury is a major clinical problem with devastating neurodevelopmental outcomes in neonates. During HI brain injury, dysregulated factor production contributes to microvascular impairment. Glycolysis-derived lactate accumulated during ischemia has been proposed to protect against ischemic injury, but its mechanism of action is poorly understood. Herein, we hypothesize that lactate via its G-protein coupled receptor (GPR81) controls postnatal brain angiogenesis and plays a protective role after HI injury. We show that GPR81 is predominantly expressed in neurons of the cerebral cortex and hippocampus. GPR81-null mice displayed a delay in cerebral microvascular development linked to reduced levels of various major angiogenic factors and augmented expression of anti-angiogenic Thrombospondin-1 (TSP-1) in comparison to their WT littermates. Coherently, lactate stimulation induced an increase in growth factors (VEGF, Ang1 and 2, PDGF) and reduced TSP-1 expression in neurons, which contributed to accelerating angiogenesis. HI injury in GPR81-null animals curtailed vascular density and consequently increased infarct size compared to changes seen in WT mice; conversely intracerebroventricular lactate injection increased vascular density and diminished infarct size in WT but not in GPR81-null mice. Collectively, we show that lactate acting via GPR81 participates in developmental brain angiogenesis, and attenuates HI injury by restoring compromised microvasculature.

Topics & Concepts

AngiogenesisIschemiaMedicineEndocrinologyReceptorInternal medicineStimulationCerebral cortexNeuroscienceIschemic injuryCortex (anatomy)Central nervous systemBrain ischemiaNeovascularizationBrain damageStroke (engine)Reperfusion injuryNeuroprotectionBiologySignal transductionRegeneration (biology)MicrocirculationAngiogenesis and VEGF in CancerNeonatal and fetal brain pathologyBarrier Structure and Function Studies
Neuronal GPR81 regulates developmental brain angiogenesis and promotes brain recovery after a hypoxic ischemic insult | Litcius