From Wikipedia, the free encyclopedia
Secretin is a peptide hormone produced in the S cells of the duodenum in the crypts of Lieberkühn. Its primary effect is to regulate the pH of the duodenal contents via the control of gastric acid secretion and buffering with bicarbonate. It was the first hormone to be discovered (see below).
[edit] Stimulus
Secretin is secreted in response to low duodenal pH due to chyme, which contains hydrochloric acid, entering from the stomach. It is the active form of prosecretin.
[edit] Function
Secretin stimulates the secretion of bicarbonate (base) from the liver, pancreas, and duodenal Brunner's glands in order to buffer the incoming protons of the acidic chyme. It also enhances the effects of cholecystokinin. It is known to promote the normal growth and maintenance of the pancreas.
It counteracts blood glucose concentration spikes by triggering increased insulin release, following oral glucose intake.[1]
It also reduces acid secretion from the stomach by inhibiting gastrin release from G cells. This helps neutralize the pH of the digestive products entering the duodenum from the stomach, as digestive enzymes from the pancreas (eg, pancreatic amylase and pancreatic lipase) function optimally at neutral pH.
[edit] Structure
Secretin is a peptide hormone, composed of 27 amino acids, of which 14 amino acids are homologous to the sequence of glucagon.
[edit] History
In 1902, William Bayliss and Ernest Starling were studying how the nervous system controls the process of digestion. It was known that the pancreas secreted digestive juices in response to the passage of food into the duodenum. They discovered (by cutting all the nerves to the pancreas in their experimental animals) that this process was not, in fact, governed by the nervous system. They determined that a substance secreted by the intestinal lining stimulates the pancreas after being transported via the bloodstream. They named this intestinal secretion secretin. Secretin was the first such "chemical messenger" identified. This type of substance is now called a hormone, a term coined by Bayliss in 1905.
[edit] References
- ^ Kraegen EW, Chisholm DJ, Young JD, Lazarus L (1970). "The gastrointestinal stimulus to insulin release. II. A dual action of secretin". J. Clin. Invest. 49 (3): 524-9. PMID 5415678. Free Full Text
[edit] See also
[edit] External links
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Endocrine system: hormones/endocrine glands (Peptide hormones, Steroid hormones) |
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| Hypothalamic-pituitary |
Hypothalamus: TRH, CRH , GnRH, GHRH, somatostatin, dopamine - Posterior pituitary: vasopressin, oxytocin - Anterior pituitary: α ( FSH, LH, TSH), GH, prolactin, POMC ( ACTH, MSH, endorphins, lipotropin)
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| Adrenal axis |
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| Thyroid axis |
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| Gonadal axis |
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| Other end. glands |
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| Non-end. glands |
Placenta: hCG, HPL, estrogen, progesterone - Kidney: renin, EPO, calcitriol, prostaglandin - Heart atrium: ANP - Stomach: gastrin, ghrelin - Duodenum: CCK, GIP, secretin, motilin, VIP - Ileum: enteroglucagon - Adipose tissue: leptin, adiponectin, resistin - Thymus: Thymosin - Thymopoietin - Thymulin - Skeleton: Osteocalcin - Liver/other: Insulin-like growth factor ( IGF-1, IGF-2)
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| Target-derived |
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