AI Article Synopsis
- Glutamate activates receptors in neurons and glial cells, with recent findings highlighting complex signaling from presynaptic glutamate release.
- Bergmann glia cells in the cerebellum play a critical role in glutamate uptake and are influenced by an increase in cGMP levels due to glutamate exposure.
- Enhanced expression of neuronal nitric oxide synthase in Bergmann glia cells occurs following glutamate exposure, suggesting a relationship between glutamate transporters and increased enzyme stability, which supports neuronal signaling.
Article Abstract
Glutamate exerts its actions through the activation of membrane receptors expressed in neurons and glia cells. The signaling properties of glutamate transporters have been characterized recently, suggesting a complex array of signaling transactions triggered by presynaptic released glutamate. In the cerebellar molecular layer, glutamatergic synapses are surrounded by Bergmann glia cells, compulsory participants of glutamate turnover and supply to neurons. Since a glutamate-dependent increase in cGMP levels has been described in these cells and the nitric oxide-cGMP signaling cascade increases their glutamate uptake activity, we describe here the Bergmann glia expression of neuronal nitric oxide synthetase. An augmentation of neuronal nitric oxide synthase was found upon glutamate exposure. This effect is mediated by glutamate transporters and is related to an increase in the stability of the enzyme. These results strengthen the notion of a complex regulation of glial glutamate uptake that supports neuronal glutamate signaling.
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| http://dx.doi.org/10.1021/acschemneuro.8b00656 | DOI Listing |
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