Role of astrocytes in cerebrovascular regulation

doi:10.1152/japplphysiol.00938.2005

Role of astrocytes in cerebrovascular regulation

Raymond C. Koehler,¹ Debebe Gebremedhin,² and David R. Harder²

¹Department of Anesthesiology and Critical Care Medicine, The Johns Hopkins University, Baltimore, Maryland; and ²Cardiovascular Research Center, Medical College of Wisconsin, Milwaukee, Wisconsin

Astrocytes send processes to synapses and blood vessels, communicatewith other astrocytes through gap junctions and by release ofATP, and thus are an integral component of the neurovascularunit. Electrical field stimulations in brain slices demonstratean increase in intracellular calcium in astrocyte cell bodiestransmitted to perivascular end-feet, followed by a decreasein vascular smooth muscle calcium oscillations and arteriolardilation. The increase in astrocyte calcium after neuronal activationis mediated, in part, by activation of metabotropic glutamatereceptors. Calcium signaling in vitro can also be influencedby adenosine acting on A_2B receptors and by epoxyeicosatrienoicacids (EETs) shown to be synthesized in astrocytes. Prostaglandins,EETs, arachidonic acid, and potassium ions are candidate mediatorsof communication between astrocyte end-feet and vascular smoothmuscle. In vivo evidence supports a role for cyclooxygenase-2metabolites, EETs, adenosine, and neuronally derived nitricoxide in the coupling of increased blood flow to increased neuronalactivity. Combined inhibition of the EETs, nitric oxide, andadenosine pathways indicates that signaling is not by parallel,independent pathways. Indirect pharmacological results are consistentwith astrocytes acting as intermediaries in neurovascular signalingwithin the neurovascular unit. For specific stimuli, astrocytesare also capable of transmitting signals to pial arterioleson the brain surface for ensuring adequate inflow pressure toparenchymal feeding arterioles. Therefore, evidence from brainslices and indirect evidence in vivo with pharmacological approachessuggest that astrocytes play a pivotal role in regulating thefundamental physiological response coupling dynamic changesin cerebral blood flow to neuronal synaptic activity. Futurework using in vivo imaging and genetic manipulation will berequired to provide more direct evidence for a role of astrocytesin neurovascular coupling.

adenosine; cerebral blood flow; epoxyeicosatrienoic acid; neuronal activation; nitric oxide; prostaglandin

Address for reprint requests and other correspondence: R. C. Koehler, Dept. of Anesthesiology and Critical Care Medicine, The Johns Hopkins Medical Institutions, 600 North Wolfe St., Blalock 1404, Baltimore, MD 21287 (e-mail: rkoehler{at}jhmi.edu)

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