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Paraventricular nucleus of hypothalamus

From Wikipedia, the free encyclopedia

Paraventricular nucleus of hypothalamus
Human paraventricular nucleus (PVN) in this coronal section is indicated by the shaded area. Dots represent vasopressin (AVP) neurons (also seen in the supraoptic nucleus, SON). The medial surface is the 3rd ventricle (3V).
The paraventricular hypothalamus of the mouse brain
Details
Identifiers
Latinnucleus paraventricularis hypothalami
MeSHD010286
NeuroNames387
NeuroLex IDbirnlex_1407
TA98A14.1.08.909
TA25722
FMA62320
Anatomical terms of neuroanatomy

The paraventricular nucleus (PVN, PVA, or PVH) is a nucleus in the hypothalamus. Anatomically, it is adjacent to the third ventricle and many of its neurons project to the posterior pituitary. These projecting neurons secrete oxytocin and a smaller amount of vasopressin, otherwise the nucleus also secretes corticotropin-releasing hormone (CRH) and thyrotropin-releasing hormone (TRH).[1] CRH and TRH are secreted into the hypophyseal portal system and act on different targets neurons in the anterior pituitary. PVN is thought to mediate many diverse functions through these different hormones, including osmoregulation, appetite, and the response of the body to stress.[2]

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Transcription

Location

The paraventricular nucleus lies adjacent to the third ventricle. It lies within the periventricular zone and is not to be confused with the periventricular nucleus, which occupies a more medial position, beneath the third ventricle. The PVN is highly vascularised and is protected by the blood–brain barrier, although its neuroendocrine cells extend to sites (in the median eminence and in the posterior pituitary) beyond the blood–brain barrier.[citation needed]

Neurons

The PVN contains magnocellular neurosecretory cells whose axons extend into the posterior pituitary, parvocellular neurosecretory cells that project to the median eminence, ultimately signalling to the anterior pituitary, and several populations of other cells that project to many different brain regions including parvocellular preautonomic cells that project to the brainstem and spinal cord.[citation needed]

Magnocellular neurosecretory neurons

Magnocellular neurons of the PVN and SON project to the posterior pituitary

The magnocellular cells in the PVN elaborate and secrete two peptide hormones: oxytocin and vasopressin.

These hormones are packaged into large vesicles, which are then transported down the unmyelinated axons of the cells and released from neurosecretory nerve terminals residing in the posterior pituitary gland.[citation needed]

Similar magnocellular neurons are found in the supraoptic nucleus which also secrete vasopressin and a smaller amount of oxytocin.[citation needed]

Parvocellular neurosecretory neurons

The axons of the parvocellular neurosecretory neurons of the PVN project to the median eminence, a neurohemal organ at the base of the brain, where their neurosecretory nerve terminals release their hormones at the primary capillary plexus of the hypophyseal portal system. The median eminence contains fiber terminals from many hypothalamic neuroendocrine neurons, secreting different neurotransmitters or neuropeptides, including vasopressin, corticotropin-releasing hormone (CRH), thyrotropin-releasing hormone (TRH), gonadotropin-releasing hormone (GnRH), growth hormone-releasing hormone (GHRH), dopamine (DA) and somatostatin (growth hormone release inhibiting hormone, GIH) into blood vessels in the hypophyseal portal system. The blood vessels carry the peptides to the anterior pituitary gland, where they regulate the secretion of hormones into the systemic circulation. The parvocellular neurosecretory cells include those that make:

Centrally-projecting neurons

As well as neuroendocrine neurons, the PVN contains interneurons and populations of neurons that project centrally (i.e., to other brain regions). The centrally-projecting neurons include

  • Parvocellular oxytocin cells, which project mainly to the brainstem and spinal cord. These neurons are thought to have a role in gastric reflexes and penile erection,[3][4]
  • Parvocellular vasopressin cells, which project to many points in the hypothalamus and limbic system, as well as to the brainstem and spinal cord (these are involved in blood pressure and temperature regulation), and brown fat thermogenesis.
  • Parvocellular CRH neurons, which are thought to be involved in stress-related behaviors.

Afferent inputs

The PVN receives afferent inputs from many brain regions and different parts of the body, by hormonal control.[2]

Among these, inputs from neurons in structures adjacent to the anterior wall of the third ventricle (the "AV3V region") carry information about the electrolyte composition of the blood, and about circulating concentrations of such hormones as angiotensin and relaxin, to regulate the magnocellular neurons.[5]

Inputs from the brainstem (the nucleus of the solitary tract) and the ventrolateral medulla carry information from the heart and stomach. Inputs from the hippocampus to the CRH neurones are important regulators of stress responses.

Inputs from neuropeptide Y-containing neurons in the arcuate nucleus coordinate metabolic regulation (via TRH secretion) with regulation of energy intake.[6][7][8] Specifically, the projections from the arcuate nucleus seem to exert their effect on appetite via MC4R-expressing oxytocinergic cells of the PVN.[9]

Inputs from suprachiasmatic nucleus about levels of lighting (circadian rhythms).

Inputs from glucose sensors within the brain stimulate release of vasopressin and corticotropin-releasing hormone from parvocellular neurosecretory cells.

References

  1. ^ Ferguson AV, Latchford KJ, Samson WK (June 2008). "The paraventricular nucleus of the hypothalamus - a potential target for integrative treatment of autonomic dysfunction". Expert Opinion on Therapeutic Targets. 12 (6): 717–27. doi:10.1517/14728222.12.6.717. PMC 2682920. PMID 18479218.
  2. ^ a b Fox SI (2011). Human Physiology (Twelfth ed.). McGraw Hill. p. 665.
  3. ^ Giuliano F, Allard J (August 2001). "Dopamine and sexual function". International Journal of Impotence Research. 13 Suppl 3: S18-28. doi:10.1038/sj.ijir.3900719. PMID 11477488.
  4. ^ Argiolas A, Melis MR (May 2005). "Central control of penile erection: role of the paraventricular nucleus of the hypothalamus". Progress in Neurobiology. 76 (1): 1–21. doi:10.1016/j.pneurobio.2005.06.002. PMID 16043278. S2CID 24929538.
  5. ^ Russell JA, Blackburn RE, Leng G (June 1988). "The role of the AV3V region in the control of magnocellular oxytocin neurons". Brain Research Bulletin. 20 (6): 803–10. doi:10.1016/0361-9230(88)90095-0. PMID 3044525. S2CID 4762486.
  6. ^ Beck B (July 2006). "Neuropeptide Y in normal eating and in genetic and dietary-induced obesity". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 361 (1471): 1159–85. doi:10.1098/rstb.2006.1855. PMC 1642692. PMID 16874931.
  7. ^ Konturek PC, Konturek JW, Cześnikiewicz-Guzik M, Brzozowski T, Sito E, Konturek SJ (December 2005). "Neuro-hormonal control of food intake: basic mechanisms and clinical implications" (PDF). Journal of Physiology and Pharmacology. 56 Suppl 6: 5–25. PMID 16340035.
  8. ^ Nillni EA (April 2010). "Regulation of the hypothalamic thyrotropin releasing hormone (TRH) neuron by neuronal and peripheral inputs". Frontiers in Neuroendocrinology. 31 (2): 134–56. doi:10.1016/j.yfrne.2010.01.001. PMC 2849853. PMID 20074584.
  9. ^ Qin C, Li J, Tang K (September 2018). "The Paraventricular Nucleus of the Hypothalamus: Development, Function, and Human Diseases". Endocrinology. 159 (9): 3458–3472. doi:10.1210/en.2018-00453. PMID 30052854.

Further reading

This page was last edited on 18 February 2024, at 17:58
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