Cell type specificity of neurovascular coupling in cerebral cortex.
Hana UhlirovaKıvılcım KılıçPeifang TianMartin ThunemannMichèle DesjardinsPayam A SaisanSava SakadžićTorbjørn V NessCeline MateoQun ChengKimberly L WeldyFlorence RazouxMatthieu VandenbergheJonathan A CremonesiChristopher Gl FerriKrystal NizarVishnu B SridharTyler C SteedMaxim AbashinYeshaiahu FainmanEliezer MasliahSrdjan DjurovicOle A AndreassenGabriel A SilvaDavid A BoasDavid KleinfeldRichard B BuxtonGaute Tomas EinevollAnders M DaleAnna DevorPublished in: eLife (2016)
Identification of the cellular players and molecular messengers that communicate neuronal activity to the vasculature driving cerebral hemodynamics is important for (1) the basic understanding of cerebrovascular regulation and (2) interpretation of functional Magnetic Resonance Imaging (fMRI) signals. Using a combination of optogenetic stimulation and 2-photon imaging in mice, we demonstrate that selective activation of cortical excitation and inhibition elicits distinct vascular responses and identify the vasoconstrictive mechanism as Neuropeptide Y (NPY) acting on Y1 receptors. The latter implies that task-related negative Blood Oxygenation Level Dependent (BOLD) fMRI signals in the cerebral cortex under normal physiological conditions may be mainly driven by the NPY-positive inhibitory neurons. Further, the NPY-Y1 pathway may offer a potential therapeutic target in cerebrovascular disease.
Keyphrases
- functional connectivity
- resting state
- subarachnoid hemorrhage
- magnetic resonance imaging
- cerebral ischemia
- high resolution
- brain injury
- computed tomography
- spinal cord
- cerebral blood flow
- insulin resistance
- high fat diet induced
- blood brain barrier
- magnetic resonance
- room temperature
- skeletal muscle
- blood flow
- mass spectrometry
- photodynamic therapy
- ionic liquid
- human health
- energy transfer
- climate change
- drug induced