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  • Title: Calcium dynamics in cortical astrocytes and arterioles during neurovascular coupling.
    Author: Filosa JA, Bonev AD, Nelson MT.
    Journal: Circ Res; 2004 Nov 12; 95(10):e73-81. PubMed ID: 15499024.
    Abstract:
    Neuronal activity in the brain is thought to be coupled to cerebral arterioles (functional hyperemia) through Ca2+ signals in astrocytes. Although functional hyperemia occurs rapidly, within seconds, such rapid signaling has not been demonstrated in situ, and Ca2+ measurements in parenchymal arterioles are still lacking. Using a laser scanning confocal microscope and fluorescence Ca2+ indicators, we provide the first evidence that in a brain slice preparation, increased neuronal activity by electrical stimulation (ES) is rapidly signaled, within seconds, to cerebral arterioles and is associated with astrocytic Ca2+ waves. Smooth muscle cells in parenchymal arterioles exhibited Ca2+ and diameter oscillations ("vasomotion") that were rapidly suppressed by ES. The neuronal-mediated Ca2+ rise in cortical astrocytes was dependent on intracellular (inositol trisphosphate [IP3]) and extracellular voltage-dependent Ca2+ channel sources. The Na+ channel blocker tetrodotoxin prevented the rise in astrocytic [Ca2+]i and the suppression of Ca2+ oscillations in parenchymal arterioles to ES, indicating that neuronal activity was necessary for both events. Activation of metabotropic glutamate receptors in astrocytes significantly decreased the frequency of Ca2+ oscillations in parenchymal arterioles. This study supports the concept that astrocytic Ca2+ changes signal the cerebral microvasculature and indicate the novel concept that this communication occurs through the suppression of arteriolar [Ca2+]i oscillations and corresponding vasomotion. The full text of this article is available online at http://circres.ahajournals.org.
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