Oxytocin structure. Inset shows oxytocin bound to neurophysin
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Oxytocin

Oxytocin is a mammalian hormone that in women is released mainly after stimulation of the nipples or distention of the vagina and that facilitates birth and breastfeeding. It is also released during orgasm in both sexes. In the brain, it acts as a neurotransmitter and is involved in bonding and the formation of trust between people. more...

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Oxytocin
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Synthetic oxytocin is sold as medication under the trade names Pitocin and Syntocinon and also as generic Oxytocin.

Synthesis, storage and release

Oxytocin is made in magnocellular neurosecretory cells in the supraoptic nucleus and paraventricular nucleus of the hypothalamus and is released into the blood from the posterior lobe of the pituitary gland. Oxytocin is also made by some neurons in the paraventricular nucleus that project to other parts of the brain and to the spinal cord.

In the pituitary gland, oxytocin is packaged in large, dense-core vesicles, where it is bound to neurophysin as shown in the inset of the figure; neurophysin is a large peptide fragment of the giant precursor protein molecule from which oxytocin is derived by enzymatic cleavage.

Secretion is regulated by the electrical activity of the oxytocin cells in the hypothalamus. These cells generate action potentials that propagate down axons to the neurosecretory nerve endings in the pituitary; the endings contain large numbers of oxytocin-containing vesicles, which are released by exocytosis when the terminals are depolarised.

Structure and relation to vasopressin

Oxytocin is a peptide of nine amino acids (a nonapeptide). The sequence is cysteine - tyrosine - isoleucine - glutamine - asparagine - cysteine - proline - leucine - glycine (CYIQNCPLG). The cysteine residues form a sulfur bridge.

Oxytocin has a molecular mass of 1007 daltons. One international unit (IU) of oxytocin is the equivalent of about 2 micrograms of pure peptide.

The structure of oxytocin is very similar to that of vasopressin, which is also a nonapeptide with a sulfur bridge. Oxytocin and vasopressin are the only known hormones released by the human posterior pituitary gland to act at a distance. However, oxytocin neurons can make corticotropin-releasing hormone (CRH) and vasopressin neurons dynorphin, for example, that act locally. The magnocellular neurons that make oxytocin are adjacent to magnocellular neurons that make vasopressin, and are similar in many respects.

Oxytocin and vasopressin were discovered, isolated and synthesized by Vincent du Vigneaud in 1953, work for which he received the Nobel Prize in Chemistry in 1955.

The oxytocin receptor is a G-protein-coupled receptor which requires Mg2+ and cholesterol. It belongs to the rhodopsin-type (class I) group of G-protein-coupled receptors.

Actions

Oxytocin has peripheral (hormonal) actions, and also has actions in the brain.

Peripheral (hormonal) actions

The peripheral actions of oxytocin mainly reflect secretion from the pituitary gland. Oxytocin receptors are expressed by the myoepithelial cells of the mammary gland, and in both the myometrium and endometrium of the uterus at the end of pregnancy. In some mammals, oxytocin receptors are also found in the kidney and heart.

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I Know I've Seen That Face Before - role of oxytocin in forming social connections in brain - Brief Article
From Discover, 11/1/00 by Rabiya S. Tuma

When you're at a party and fail to recognize someone you've met before, don't blame yourself. Blame the missing oxytocin. This tiny protein has a crucial job: helping the brain form social connections. If you don't have enough oxytocin, you might not even know your friends or family.

Jim Winslow, a psychobiologist at Emory University's Yerkes Primate Center in Atlanta, Georgia, noticed that male mice lacking the gene for oxytocin had a strange memory deficit. Under normal circumstances, a caged mouse sniffs out a newcomer for about five minutes and then ignores it. But Winslow's oxytocin-free mice never learned to identify the newcomers, and so they continued investigating indefinitely. Oxytocin apparently regulates only social memory. The mutant mice learned to navigate mazes normally.

Although primates, unlike mice, draw more on visual stimuli than on olfactory ones for social recognition, they probably rely on oxytocin as well: "In most species we've looked at so far, oxytocin is important for the development of social relationships," Winslow says. Interestingly, people with autism, who fail to form strong social bonds, have low levels of oxytocin. With the help of the mutant mice, Winslow hopes to track down how oxytocin controls social learning and to find new treatments for neurological disorders--including schizophrenia, perhaps the most baffling of them all.

COPYRIGHT 2000 Discover
COPYRIGHT 2000 Gale Group

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