Add to ORKGThe structure of afferent neurons is pseudounipolar. Studies suggest that they relay action potentials (APs) to both directions of the T-junctions to reach the cell body and the spinal cord. Moreover, the somata are electrically excitable and shown to be able to transmit the signals to associated satellite cells. Our study demonstrates that this transmission can go further and pass onto passive neighbouring somata, if they are in direct contact with same satellite cells. The neurons activate the satellite cells by releasing ATP. This triggers the satellite cells to exocytose acetylcholine to the neighbouring neurons. In addition, the ATP inhibits the nicotinic receptors of the neurons by activating P2Y receptors and initiating the G-protein...
This study examines key elements of glutamatergic transmission within sensory ganglia of the rat. We...
AbstractIt has become increasingly clear over the past several years that astrocytes can release che...
ATP accomplishes important roles in brain, where it functions as neurotransmitter or co-transmitter,...
The structure of afferent neurons is pseudounipolar. Studies suggest that they relay action potentia...
The dorsal root ganglion (DRG) contains the cell bodies of primary somatosensory neurons that form a...
The dorsal root ganglion (DRG) contains the cell bodies of primary somatosensory neurons that form a...
Satellite glial cells (SGCs) are glial cells found in the peripheral nervous system where they tight...
Satellite glial cells (SGCs) are the main glia in sensory ganglia. They surround neuronal bodies and...
The purinergic system plays an important role in pain transmission. Recent studies have suggested th...
AbstractThe cell soma of primary sensory neurons is electrically excitable, and is invaded by action...
In the central nervous system, astrocytes form an intimately connected network with neurons, and the...
This study examines key elements of glutamatergic transmission within sensory ganglia of the rat. We...
In the central nervous system ATP is released from both neurones and astroglial cells acting as a ho...
<div><p>This study examines key elements of glutamatergic transmission within sensory ganglia of the...
Glia are the most numerous cells in the central nervous system, with well-established roles in provi...
This study examines key elements of glutamatergic transmission within sensory ganglia of the rat. We...
AbstractIt has become increasingly clear over the past several years that astrocytes can release che...
ATP accomplishes important roles in brain, where it functions as neurotransmitter or co-transmitter,...
The structure of afferent neurons is pseudounipolar. Studies suggest that they relay action potentia...
The dorsal root ganglion (DRG) contains the cell bodies of primary somatosensory neurons that form a...
The dorsal root ganglion (DRG) contains the cell bodies of primary somatosensory neurons that form a...
Satellite glial cells (SGCs) are glial cells found in the peripheral nervous system where they tight...
Satellite glial cells (SGCs) are the main glia in sensory ganglia. They surround neuronal bodies and...
The purinergic system plays an important role in pain transmission. Recent studies have suggested th...
AbstractThe cell soma of primary sensory neurons is electrically excitable, and is invaded by action...
In the central nervous system, astrocytes form an intimately connected network with neurons, and the...
This study examines key elements of glutamatergic transmission within sensory ganglia of the rat. We...
In the central nervous system ATP is released from both neurones and astroglial cells acting as a ho...
<div><p>This study examines key elements of glutamatergic transmission within sensory ganglia of the...
Glia are the most numerous cells in the central nervous system, with well-established roles in provi...
This study examines key elements of glutamatergic transmission within sensory ganglia of the rat. We...
AbstractIt has become increasingly clear over the past several years that astrocytes can release che...
ATP accomplishes important roles in brain, where it functions as neurotransmitter or co-transmitter,...