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'''Peptide hormones''' are a class of [[peptide|peptides]] that are secreted into the blood stream and have [[endocrine]] functions in living animals.  
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'''Peptide hormones''' are a class of [[peptide|peptides]] that are secreted into the blood stream, sometimes from a specialised endocrine gland, and which act on target cells that express specific receptors for them. For example, [[oxytocin]] is released from the [[posterior pituitary]] gland of the mother when an infant is suckling at the breast; oxytocin acts on the myoepithelial cells of the [[mammary gland]] to cause milk to be let down. Often a hormone has several physiological functions; oxytocin for example also regulates uterine contractions during [[parturition]]. In recent years many new peptide hormones have been identified, secreted from tissues that were not previously thought to be endocrine; for example, in 1994, an important new appetite-regulating hormone, [[leptin]] was identified as a peptide hormone secreted from [[adipose tissue]] (fat cells}, and in 2000, another important hormone [[ghrelin]], was identified as a peptide hormone secreted from the [[stomach]].


Like other [[protein]]s, peptide [[hormone]]s are synthesized from [[amino acid]]s according to an [[mRNA]] template, which is itself synthesized from a [[DNA]] template inside the [[cell (biology)|cell]]'s [[Cell nucleus|nucleus]]. Peptide hormone precursors (pre-prohormones) are then processed in several stages, typically in the [[endoplasmic reticulum]], including removal of the [[N-terminal]] [[signal sequence]] and sometimes [[glycosylation]], resulting in [[prohormone]]s. The prohormones are then packaged into membrane-bound secretory vesicles, which can be secreted from the cell by [[exocytosis]] in response to specific stimuli.
Many [[neuropeptide]]s are also released within the brain, and although they are not carried by the blood but by the extracellular fluid, they also often have hormone-like actions in the brain; as some of these neuropeptides are also classical peptide hormones (like oxytocin), the distinction between a peptide hormone and a neuropeptide is often ill-defined.


These prohormones often contain superfluous amino acid residues that were needed to direct folding of the hormone molecule into its active configuration but have no function once the hormone folds. Specific [[endopeptidase]]s in the cell cleave the prohormone just before it is released into the [[blood]] stream, generating the mature hormone form of the molecule. Mature peptide hormones then diffuse through the blood to all of the cells of the body, where they interact with specific [[receptor (biochemistry)|receptor]]s on the surface of their target cells.  
==Synthesis==
Like all other [[protein]]s, peptide [[hormone]]s are synthesized from [[amino acid]]s according to an [[mRNA]] template, which is itself synthesized from a [[DNA]] template inside the [[cell (biology)|cell]]'s [[Cell nucleus|nucleus]]. Peptide hormone precursors (pre-prohormones) are then processed in stages, typically in the [[endoplasmic reticulum]], including removal of the [[N-terminal]] [[signal sequence]] and sometimes [[glycosylation]], resulting in [[prohormone]]s. The prohormones are then packaged into membrane-bound secretory vesicles, which can be secreted from the cell by calcium-dependent [[exocytosis]] in response to specific stimuli.
 
These prohormones often contain superfluous amino acid residues that were needed to direct folding of the hormone molecule into its active configuration but have no function once the hormone folds. For example, the precursor to oxytocin codes for a very large molecule called [[neurophysin]] which seems to be important for packaging oxytocin into the secretory vesicles, but which has no known biological activity. Specific [[endopeptidase]]s in the cell cleave the prohormone just before it is released into the [[blood]] stream, generating the mature hormone form of the molecule. Mature peptide hormones then diffuse through the blood to all of the cells of the body, where they interact with specific [[receptor (biochemistry)|receptor]]s on the surface of their target cells.  


==Notable peptide hormones==
==Notable peptide hormones==
Several important peptide hormones are secreted from the pituitary gland. The [[anterior pituitary]] secretes [[luteinizing hormone]] and [[follicle stimulating hormone]], which act on the [[gonads]], [[prolactin]], which acts on the [[mammary gland]], [[adrenocorticotrophic hormone]] (ACTH), which acts on the [[adrenal cortex]] to regulate the secretion of [[glucocorticoids]][http://www.neuroendo.org.uk/content/view/15/11/], and [[growth hormone]], which acts on [[bone]], [[muscle]] and the [[liver]]. The [[posterior pituitary]] gland secretes [[antidiuretic hormone]], also called vasopressin, and [[oxytocin]]. Peptide hormones are produced by many different organs and tissues, however, including the [[heart]] ([[atrial-natriuretic peptide]] (ANP) or atrial natriuretic factor (ANF)) and [[pancreas]] ([[insulin]] and [[somatostatin]]), the gastrointestinal tract ([[cholecystokinin]], [[gastrin]] and [[ghrelin]][http://www.neuroendo.org.uk/content/view/26/11/], and [[fat]] stores ([[leptin]])[http://www.neuroendo.org.uk/content/view/8/11/].
Several important peptide hormones are secreted from the pituitary gland. The [[anterior pituitary]] secretes [[luteinizing hormone]] and [[follicle stimulating hormone]], which act on the [[gonads]], [[prolactin]], which acts on the [[mammary gland]], [[adrenocorticotrophic hormone]] (ACTH), which acts on the [[adrenal cortex]] to regulate the secretion of [[glucocorticoids]]<ref>Harbuz M[http://www.neuroendo.org.uk/content/view/15/11/ Stress hormones and your brain ] ''Neuroendocrine Briefings''; British Society for Neuroendocrinology</ref>, and [[growth hormone]], which acts on [[bone]], [[muscle]] and the [[liver]]. The [[posterior pituitary]] gland secretes [[antidiuretic hormone]], also called vasopressin, and [[oxytocin]]. Peptide hormones are produced by many different organs and tissues, however, including the [[heart]] ([[atrial-natriuretic peptide]] (ANP) or atrial natriuretic factor (ANF)) and [[pancreas]] ([[insulin]] and [[somatostatin]]), the gastrointestinal tract ([[cholecystokinin]], [[gastrin]] and [[ghrelin]] <ref>Dickson S[http://www.neuroendo.org.uk/content/view/26/11/ Ghrelin: A newly discovered hormone ]''Neuroendocrine Briefings''; British Society for Neuroendocrinology</ref>, and [[fat]] stores ([[leptin]])<ref>Sunter D ''et al.'' [http://www.neuroendo.org.uk/content/view/8/11/ Leptin: Your brain, appetite and obesity ]''Neuroendocrine Briefings''; British Society for Neuroendocrinology</ref>.
 
Many [[neurotransmitters]] are secreted and released in a similar fashion to peptide hormones, and some '[[neuropeptides]]' may be used as neurotransmitters in the [[nervous system]] in addition to acting as hormones when released into the blood. When a peptide hormone binds to receptors on the surface of the cell, a [[second messenger]] appears in the [[cytoplasm]] 
which triggers intracellular responses.
 
===List of peptide hormones===
*[[antimullerian hormone]] (AMH, also mullerian inhibiting factor or hormone)
*[[adiponectin]] (also Acrp30)
*[[adrenocorticotropic hormone]] (ACTH, also corticotropin)
*[[angiotensinogen]] and [[angiotensin]]
*[[atrial-natriuretic peptide]] (ANP, also atriopeptin)
*[[calcitonin]]
*[[cholecystokinin]] (CCK)
*[[corticotropin-releasing hormone]] (CRH)
*[[erythropoietin]] (EPO)
*[[follicle-stimulating hormone]] (FSH)
*[[gastrin]]
*[[ghrelin]]
*[[glucagon]]
*[[gonadotropin-releasing hormone]] (GnRH)
*[[growth hormone-releasing hormone]] (GHRH)
*[[human chorionic gonadotropin]] (hCG)
*[[growth hormone]] (GH or hGH)
*[[inhibin]]
*[[insulin]]
*[[insulin-like growth factor]] (IGF, also somatomedin)
*[[leptin]]
*[[luteinizing hormone]] (LH)
*[[melanocyte stimulating hormone]] (MSH or &#945;-MSH)
*[[neuropeptide Y]]
*[[oxytocin]], produced in the hypothalamus secreted from the posterior pituitary
*[[parathyroid hormone]] (PTH)
*[[prolactin]] (PRL), anterior pituitary
*[[relaxin]]
*[[secretin]]
*[[somatostatin]]
*[[thrombopoietin]]
*[[thyroid-stimulating hormone]] (TSH)
*[[thyrotropin-releasing hormone]] (TRH)
*[[vasopressin]] (arginine vasopressin, AVP; formerly known as [[antidiuretic hormone]], ADH), produced in the hypothalamus secreted from the posterior pituitary


[[Category:Biology| ]]
==References==
[[Category:CZ Live]]
<references/>[[Category:Suggestion Bot Tag]]
[[Category:Biology Workgroup]]

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Peptide hormones are a class of peptides that are secreted into the blood stream, sometimes from a specialised endocrine gland, and which act on target cells that express specific receptors for them. For example, oxytocin is released from the posterior pituitary gland of the mother when an infant is suckling at the breast; oxytocin acts on the myoepithelial cells of the mammary gland to cause milk to be let down. Often a hormone has several physiological functions; oxytocin for example also regulates uterine contractions during parturition. In recent years many new peptide hormones have been identified, secreted from tissues that were not previously thought to be endocrine; for example, in 1994, an important new appetite-regulating hormone, leptin was identified as a peptide hormone secreted from adipose tissue (fat cells}, and in 2000, another important hormone ghrelin, was identified as a peptide hormone secreted from the stomach.

Many neuropeptides are also released within the brain, and although they are not carried by the blood but by the extracellular fluid, they also often have hormone-like actions in the brain; as some of these neuropeptides are also classical peptide hormones (like oxytocin), the distinction between a peptide hormone and a neuropeptide is often ill-defined.

Synthesis

Like all other proteins, peptide hormones are synthesized from amino acids according to an mRNA template, which is itself synthesized from a DNA template inside the cell's nucleus. Peptide hormone precursors (pre-prohormones) are then processed in stages, typically in the endoplasmic reticulum, including removal of the N-terminal signal sequence and sometimes glycosylation, resulting in prohormones. The prohormones are then packaged into membrane-bound secretory vesicles, which can be secreted from the cell by calcium-dependent exocytosis in response to specific stimuli.

These prohormones often contain superfluous amino acid residues that were needed to direct folding of the hormone molecule into its active configuration but have no function once the hormone folds. For example, the precursor to oxytocin codes for a very large molecule called neurophysin which seems to be important for packaging oxytocin into the secretory vesicles, but which has no known biological activity. Specific endopeptidases in the cell cleave the prohormone just before it is released into the blood stream, generating the mature hormone form of the molecule. Mature peptide hormones then diffuse through the blood to all of the cells of the body, where they interact with specific receptors on the surface of their target cells.

Notable peptide hormones

Several important peptide hormones are secreted from the pituitary gland. The anterior pituitary secretes luteinizing hormone and follicle stimulating hormone, which act on the gonads, prolactin, which acts on the mammary gland, adrenocorticotrophic hormone (ACTH), which acts on the adrenal cortex to regulate the secretion of glucocorticoids[1], and growth hormone, which acts on bone, muscle and the liver. The posterior pituitary gland secretes antidiuretic hormone, also called vasopressin, and oxytocin. Peptide hormones are produced by many different organs and tissues, however, including the heart (atrial-natriuretic peptide (ANP) or atrial natriuretic factor (ANF)) and pancreas (insulin and somatostatin), the gastrointestinal tract (cholecystokinin, gastrin and ghrelin [2], and fat stores (leptin)[3].

References

  1. Harbuz MStress hormones and your brain Neuroendocrine Briefings; British Society for Neuroendocrinology
  2. Dickson SGhrelin: A newly discovered hormone Neuroendocrine Briefings; British Society for Neuroendocrinology
  3. Sunter D et al. Leptin: Your brain, appetite and obesity Neuroendocrine Briefings; British Society for Neuroendocrinology