Mechanisms of CO2/H+ Sensitivity of Astrocytes.
Egor TurovskyShefeeq M TheparambilVitaly A KasymovJoachim W DeitmerAna Gutierrez Del ArroyoGareth L AcklandJason J CorneveauxApril N AllenMatthew J HuentelmanSergey KasparovNephtali MarinaAlexander V GourinePublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
Brainstem astrocytes detect physiological changes in pH, activate neurons of the neighboring respiratory network, and contribute to the development of adaptive respiratory responses to the increases in the level of blood and brain PCO2/[H+]. The mechanisms underlying astroglial pH sensitivity remained unknown and here we show that in brainstem astrocytes acidification activates Na+/HCO3- cotransport, which brings Na+ inside the cell. Raising [Na+]i activates the Na+/Ca2+ exchanger to operate in a reverse mode leading to Ca2+ entry. This identifies a plausible mechanism of functional CO2/H+ sensitivity of brainstem astrocytes, which play an important role in homeostatic regulation of brain pH and control of breathing.