Advances in cellular and integrative control of oxygen homeostasis within the central nervous system.

Advances in cellular and integrative control of oxygen homeostasis within the central nervous system. J Physiol. 2018 May 09;: Authors: Ramirez JM, Severs L, Ramirez SC, Agosto-Marlin IM Abstract Mammals must continuously regulate the levels of O2 and CO2 , which is particularly important for the brain. Failure to maintain adequate O2 /CO2 homeostasis has been associated with numerous disorders including sleep apnea, Rett syndrome, and sudden infant death syndrome (SIDS). But, O2 /CO2 homeostasis poses major regulatory challenges, even in the healthy brain. Neuronal activities change in a differentiated, spatially and temporally complex manner, which is reflected in equally complex changes in O2 demand. This raises important questions: Is oxygen sensing an emergent property, locally generated within all active neuronal networks, and/or the property of specialized O2 -sensitive CNS regions? Increasing evidence suggests that the regulation of the brain's redox state involves properties that are intrinsic to many networks, but that specialized regions in the brainstem orchestrate the integrated control of respiratory and cardiovascular functions. Although the levels of O2 in arterial blood and the CNS are very different, neuro-glial interactions and purinergic signalling are critical for both peripheral and CNS chemosensation. Indeed, the specificity of neuroglial interactions seems to determine the differential responses to O2 , CO2 , ...
Source: The Journal of Physiology - Category: Physiology Authors: Tags: J Physiol Source Type: research