Oxygen imaging of hypoxic pockets in the mouse cerebral cortex.
Felix Ralf Michael BeinlichAntonios AsiminasVerena UntietZuzanna BojarowskaVirginia PláBjörn SigurdssonVincenzo TimmelLukas GehrigMichael H GraberHajime HiraseMaiken NedergaardPublished in: Science (New York, N.Y.) (2024)
Consciousness is lost within seconds upon cessation of cerebral blood flow. The brain cannot store oxygen, and interruption of oxidative phosphorylation is fatal within minutes. Yet only rudimentary knowledge exists regarding cortical partial oxygen tension ( P o 2 ) dynamics under physiological conditions. Here we introduce Green enhanced Nano-lantern (GeNL), a genetically encoded bioluminescent oxygen indicator for P o 2 imaging. In awake behaving mice, we uncover the existence of spontaneous, spatially defined "hypoxic pockets" and demonstrate their linkage to the abrogation of local capillary flow. Exercise reduced the burden of hypoxic pockets by 52% compared with rest. The study provides insight into cortical oxygen dynamics in awake behaving animals and concurrently establishes a tool to delineate the importance of oxygen tension in physiological processes and neurological diseases.
Keyphrases
- cerebral blood flow
- high resolution
- healthcare
- deep brain stimulation
- multiple sclerosis
- high intensity
- gene expression
- insulin resistance
- subarachnoid hemorrhage
- dna methylation
- mass spectrometry
- white matter
- functional connectivity
- cerebral ischemia
- resistance training
- brain injury
- photodynamic therapy
- protein kinase
- high fat diet induced