Richard Piet scite author profile

Analysis of excitatory synaptic transmission in the rat hypothalamic supraoptic nucleus revealed that glutamate clearance and, as a consequence, glutamate concentration and diffusion in the extracellular space, is associated with the degree of astrocytic coverage of its neurons. Reduction in glutamate clearance, whether induced pharmacologically or associated with a relative decrease of glial coverage in the vicinity of synapses, affected transmitter release through modulation of presynaptic metabotropic glutamate receptors. Astrocytic wrapping of neurons, therefore, contributes to the regulation of synaptic efficacy in the central nervous system.

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Definition of the hypothalamic GnRH pulse generator in mice

Clarkson

Han

Piet

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

299

287

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The pulsatile release of luteinizing hormone (LH) is critical for mammalian fertility. However, despite several decades of investigation, the identity of the neuronal network generating pulsatile reproductive hormone secretion remains unproven. We use here a variety of optogenetic approaches in freely behaving mice to evaluate the role of the arcuate nucleus kisspeptin (ARN KISS ) neurons in LH pulse generation. Using GCaMP6 fiber photometry, we find that the ARN KISS neuron population exhibits brief (∼1 min) synchronized episodes of calcium activity occurring as frequently as every 9 min in gonadectomized mice. These ARN KISS population events were found to be near-perfectly correlated with pulsatile LH secretion. The selective optogenetic activation of ARN KISS neurons for 1 min generated pulses of LH in freely behaving mice, whereas inhibition with archaerhodopsin for 30 min suppressed LH pulsatility. Experiments aimed at resetting the activity of the ARN KISS neuron population with halorhodopsin were found to reset ongoing LH pulsatility. These observations indicate the ARN KISS neurons as the long-elusive hypothalamic pulse generator driving fertility.fertility | GnRH | kisspeptin | pulse | arcuate nucleus

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Physiological contribution of the astrocytic environment of neurons to intersynaptic crosstalk

Piet

Vargová

Syková

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

234

173

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Interactions between separate synaptic inputs converging on the same target appear to contribute to the fine-tuning of information processing in the central nervous system. Intersynaptic crosstalk is made possible by transmitter spillover from the synaptic cleft and its diffusion over a distance to neighboring synapses. This is the case for glutamate, which inhibits ␥-aminobutyric acid (GABA)ergic transmission in several brain regions through the activation of presynaptic receptors. Such heterosynaptic modulation depends on factors that influence diffusion in the extracellular space (ECS). Because glial cells represent a physical barrier to diffusion and, in addition, are essential for glutamate uptake, we investigated the physiological contribution of the astrocytic environment of neurons to glutamate-mediated intersynaptic communication in the brain. Here we show that the reduced astrocytic coverage of magnocellular neurons occurring in the supraoptic nucleus of lactating rats facilitates diffusion in the ECS, as revealed by tortuosity and volume fraction measurements. Under these conditions, glutamate spillover, monitored through metabotropic glutamate receptor-mediated depression of GABAergic transmission, is greatly enhanced. Conversely, impeding diffusion with dextran largely prevents crosstalk between glutamatergic and GABAergic afferent inputs. Astrocytes, therefore, by hindering diffusion in the ECS, regulate intersynaptic communication between neighboring synapses and, probably, overall volume transmission in the brain.

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Richard Piet

Control of Glutamate Clearance and Synaptic Efficacy by Glial Coverage of Neurons

Definition of the hypothalamic GnRH pulse generator in mice

Physiological contribution of the astrocytic environment of neurons to intersynaptic crosstalk

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