Josien Visser scite author profile

Presynaptic glutamate replenishment is fundamental to brain function. In high activity regimes, such as epileptic episodes, this process is thought to rely on the glutamate-glutamine cycle between neurons and astrocytes. However the presence of an astroglial glutamine supply, as well as its functional relevance in vivo in the healthy brain remain controversial, partly due to a lack of tools that can directly examine glutamine transfer. Here, we generated a fluorescent probe that tracks glutamine in live cells, which provides direct visual evidence of an activity-dependent glutamine supply from astroglial networks to presynaptic structures under physiological conditions. This mobilization is mediated by connexin43, an astroglial protein with both gap-junction and hemichannel functions, and is essential for synaptic transmission and object recognition memory. Our findings uncover an indispensable recruitment of astroglial glutamine in physiological synaptic activity and memory via an unconventional pathway, thus providing an astrocyte basis for cognitive processes.

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The VGF-derived Peptide TLQP21 Impairs Purinergic Control of Chemotaxis and Phagocytosis in Mouse Microglia

Elmadany

Sassi

Wendt

et al. 2020

J. Neurosci.

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Microglial cells are considered as sensors of brain pathology by detecting any sign of brain lesions, infections, or dysfunction and can influence the onset and progression of neurological diseases. They are capable of sensing their neuronal environment via many different signaling molecules, such as neurotransmitters, neurohormones and neuropeptides. The neuropeptide VGF has been associated with many metabolic and neurological disorders. TLQP21 is a VGF-derived peptide and has been shown to signal via C3aR1 and C1qBP receptors. The effect of TLQP21 on microglial functions in health or disease is not known. Studying microglial cells in acute brain slices, we found that TLQP21 impaired metabotropic purinergic signaling. Specifically, it attenuated the ATP-induced activation of a K ϩ conductance, the UDP-stimulated phagocytic activity, and the ATP-dependent laser lesion-induced process outgrowth. These impairments were reversed by blocking C1qBP, but not C3aR1 receptors. While microglia in brain slices from male mice lack C3aR1 receptors, both receptors are expressed in primary cultured microglia. In addition to the negative impact on purinergic signaling, we found stimulating effects of TLQP21 in cultured microglia, which were mediated by C3aR1 receptors: it directly evoked membrane currents, stimulated basal phagocytic activity, evoked intracellular Ca 2ϩ transient elevations, and served as a chemotactic signal. We conclude that TLQP21 has differential effects on microglia depending on C3aR1 activation or C1qBP-dependent attenuation of purinergic signaling. Thus, TLQP21 can modulate the functional phenotype of microglia, which may have an impact on their function in health and disease.

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Physiological synaptic activity and recognition memory are fueled by astroglial glutamine

Cheung

Bataveljić

Kumar

et al. 2020

Preprint

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Presynaptic glutamate replenishment is fundamental to brain function. In high activity regimes, such as epileptic episodes, this process is thought to rely on the glutamate-glutamine cycle between neurons and astrocytes. However the presence of an astroglial glutamine supply, as well as its functional relevance in vivo in the healthy brain remain controversial, partly due to a lack of tools that can directly examine glutamine transfer. Here, we generated a novel fluorescent probe that tracks glutamine in live cells, which provided direct visual evidence of an activity-dependent glutamine supply from astroglial networks to presynaptic structures under physiological conditions. This mobilization is mediated by connexin43, an astroglial protein with both gap-junction and hemichannel functions, and is essential for synaptic transmission and object recognition memory. Our findings uncover an indispensable recruitment of astroglial glutamine in physiological synaptic activity and memory via an unconventional pathway, thus providing an astrocyte basis for cognitive processes.

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Astrocytes in the retinorecipient superior colliculus display unique cellular and structural properties

Visser¹,

Ribot²,

Pauletti³

et al. 2022

Preprint

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Astrocytes have long been considered to be a largely homogeneous cell population. Recent studies however suggest that astrocytes are highly adapted to the local neuronal circuitry. Glucose utilization in the retinorecipient superior colliculus (SC) is one of the highest in the brain. Since metabolic support to neurons is a major function of astrocytes, they could be of particular relevance in this region and display specific features. However, little is known about astrocytes and their interactions with neurons in this multisensory brain area. We thus here investigated region-specific cellular and structural properties of astrocytes in the visual layer of the SC. Using morphological reconstructions, fluorescent recovery after photobleaching (FRAP) and superresolution imaging, we found that astrocytes from the visual layers of the SC are highly distinct with a higher cellular density, a more complex morphology and a stronger proximity to synapses compared to astrocytes from the primary visual cortex and the hippocampus. These data point to astroglial diversity and specialization within neural circuits integrating sensory information in the adult brain.

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Josien Visser

Physiological synaptic activity and recognition memory require astroglial glutamine

The VGF-derived Peptide TLQP21 Impairs Purinergic Control of Chemotaxis and Phagocytosis in Mouse Microglia

Physiological synaptic activity and recognition memory are fueled by astroglial glutamine

Astrocytes in the retinorecipient superior colliculus display unique cellular and structural properties

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