Magnocellular neurosecretory cell: Difference between revisions

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'''Magnocellular neurosecretory cells''' are large [[cell (biology)|cell]]s within the [[supraoptic nucleus]] and [[paraventricular nucleus]] of the [[hypothalamus]]. They are also found in smaller numbers in accessory cell groups between these two nuclei, the largest one being the [[nucleus circularis]]. There are two types of magnocellular neurosecretory cells, [[oxytocin]]-producing cells and [[vasopressin]]-producing cells, but a small number can produce both [[hormone]]s. These cells are [[Neuroendocrinology | neuroendocrine]][[neuron]]s, they are electrically excitable, and generate [[action potential]]s in response to afferent stimulation.
'''Magnocellular neurosecretory cells''' are large [[cell (biology)|cell]]s within the [[supraoptic nucleus]] and [[paraventricular nucleus]] of the [[hypothalamus]]. They are also found in smaller numbers in accessory cell groups between these two nuclei, the largest one being the [[nucleus circularis]]. There are two types of magnocellular neurosecretory cells, [[oxytocin]]-producing cells and [[vasopressin]]-producing cells, but a small number can produce both [[hormone]]s. These cells are [[Neuroendocrinology | neuroendocrine]][[neuron]]s, they are electrically excitable, and generate [[action potential]]s in response to afferent stimulation.



Revision as of 15:48, 17 February 2007

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Magnocellular neurosecretory cells are large cells within the supraoptic nucleus and paraventricular nucleus of the hypothalamus. They are also found in smaller numbers in accessory cell groups between these two nuclei, the largest one being the nucleus circularis. There are two types of magnocellular neurosecretory cells, oxytocin-producing cells and vasopressin-producing cells, but a small number can produce both hormones. These cells are neuroendocrineneurons, they are electrically excitable, and generate action potentials in response to afferent stimulation.

Magnocellular neurosecretory cells in the rat (where these neurons have been most extensively studied) generally have a single long varicose axon which projects to the posterior pituitary. Each axon gives rise to about 10,000 neurosecretory terminals and many axon swellings that store very large numbers of hormone-containing vesicles. These vesicles are released from the axon swellings and nerve terminals by exocytosis in response to calcium entry through voltage-gated channels, that occurs when action potentials are propagated down the axons.

The cells typically have two or three long dendrites, which also contain large dilations, and which also contain a very high density of hormone-containing vesicles. Oxytocin and vasopressin can thus be released within the brain from these dendrites, as well as into the blood from the terminals in the posterior pituitary gland. However the release of oxytocin and vasopressin from dendrites is not consistently accompanied by peripheral secretion, as dendritic release is regulated differently. Dendritic release can be triggered by depolarisation, but can also be triggered by the mobilisation of intracellular calcium stores. The dendrites receive most of the synaptic inputs from afferent neurons that regulate the magnocellular neurons; typically a magnocellular neuron receives about 10,000 synapses from afferent neurons.