Opioid peptide

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Vertebrate endogenous opioids neuropeptide
Identifiers
Symbol	Opiods_neuropep
Pfam	PF01160
InterPro	IPR006024
PROSITE	PDOC00964

Available protein structures:

Structural correlation between met-enkephalin, an opioid peptide, (left) and morphine, an opiate drug, (right)

Opioid peptides are peptides that bind to opioid receptors in the brain; opiates and opioids mimic the effect of these peptides. Such peptides may be produced by the body itself, for example endorphins. The effects of these peptides vary, but they all resemble those of opiates. Brain opioid peptide systems are known to play an important role in motivation, emotion, attachment behaviour, the response to stress and pain, and the control of food intake.

Opioid-like peptides may also be absorbed from partially digested food (casomorphins, exorphins, and rubiscolins). The opioid food peptides have lengths of typically 4–8 amino acids. The body's own opioids are generally much longer.

Opioid peptides are released by post-translational proteolytic cleavage of precursor proteins. The precursors consist of the following components: a signal sequence that precedes a conserved region of about 50 residues; a variable-length region; and the sequence of the neuropeptides themselves. Sequence analysis reveals that the conserved N-terminal region of the precursors contains 6 cysteines, which are probably involved in disulfide bond formation. It is speculated that this region might be important for neuropeptide processing.^[1]

Endogenous opioids produced in the body

The human genome contains several homologous genes that are known to code for endogenous opioid peptides.

• The nucleotide sequence of the human gene for proopiomelanocortin (POMC) was characterized in 1980.^[2] The POMC gene codes for endogenous opioids such as β-endorphin and γ-endorphin.^[3]
• The human gene for the enkephalins was isolated and its sequence described in 1982.^[4]
• The human gene for dynorphins (originally called the "Enkephalin B" gene because of sequence similarity to the enkephalin gene) was isolated and its sequence described in 1983.^[5]
• The PNOC gene encoding prepronociceptin, which is cleaved into nociceptin and potentially two additional neuropeptides.^[1]
• Adrenorphin, amidorphin, and leumorphin were discovered in the 1980s.
• The endomorphins were discovered in the 1990s.
• Opiorphin and spinorphin, enkephalinase inhibitors (i.e., prevent the metabolism of enkephalins).
• Hemorphins, hemoglobin-derived opioid peptides, including hemorphin-4, valorphin, and spinorphin, among others.

While not peptides, codeine and morphine are also produced in the human body.^[6][7]

Endogenous opioid peptides and their receptors

Opioid peptide	Amino acid sequence	Opioid receptor target(s)	References
Enkephalins
Leu-enkephalin	YGGFL	δ-opioid receptor†, μ-opioid receptor†	[8][9][10]
Met-enkephalin	YGGFM	δ-opioid receptor†, μ-opioid receptor†	[8][9][10]
Metorphamide	YGGFMRRV-NH2	δ-opioid receptor, μ-opioid receptor	[8]
Peptide E	YGGFMRRVGRPEWWMDYQKRYGGFL	μ-opioid receptor, κ-opioid receptor	[8]
Endorphins
α-Endorphin	YGGFMTSEKSQTPLVT	μ-opioid receptor, unknown affinity for other opioid receptors	[8]
β-Endorphin	YGGFMTSEKSQTPLVTLFKNAIIKNAYKKGE	μ-opioid receptor'†'‡, δ-opioid receptor†	[8][9][10][7]
γ-Endorphin	YGGFMTSEKSQTPLVTL	μ-opioid receptor, unknown affinity for other opioid receptors	[8]
Dynorphins
Dynorphin A	YGGFLRRIRPKLKWDNQ	κ-opioid receptor'†'‡	[8][9][11]
Dynorphin A1–8	YGGFLRRI	κ-opioid receptor, μ-opioid receptor (partial agonist at δ-opioid receptor)	[12][13]
Dynorphin B	YGGFLRRQFKVVT	κ-opioid receptor	[8][9]
Big dynorphin	YGGFLRRIRPKLKWDNQKRYGGFLRRQFKVVT	κ-opioid receptor'†'‡	[11][14][15]
Leumorphin	YGGFLRRQFKVVTRSQEDPNAYYEELFDV	κ-opioid receptor	[16][17][18][19]
α-Neoendorphin	YGGFLRKYPK	κ-opioid receptor	[8][9]
β-Neoendorphin	YGGFLRKYP	κ-opioid receptor	[8]
Nociceptin
Nociceptin	FGGFTGARKSARKLANQ	nociceptin receptor'†'‡	[8][9][20]
Endomorphins
Endomorphin-1	YPWF-NH2	μ-opioid receptor	[8][9]
Endomorphin-2	YPFF-NH2	μ-opioid receptor	[8][9]
† This symbol next to a receptor indicates that the corresponding peptide is a principal endogenous agonist of the receptor in humans. ‡ This symbol next to a receptor indicates that the corresponding peptide is the endogenous ligand with the highest known potency for the receptor in humans.

Opioid food peptides

Exogenous opioid substances are called exorphins, as opposed to endorphines. Exorphins include opioid food peptides like Gluten exorphin and opioid food peptides and are mostly contained in cereals and animal milk. They mimic the actions of endorphines because they bind to the same opioid receptors in the brain.

These are the most common exorphins:

• Casomorphin (from casein found in milk of mammals, including cows)
• Gluten exorphin (from gluten found in cereals wheat, rye, barley)
• Gliadorphin/gluteomorphin (from gluten found in cereals wheat, rye, barley)
• Soymorphin-5 (from soybean)
• Rubiscolin (from spinach)

Amphibian opioid peptides

• Deltorphin
• Deltorphin I
• Deltorphin II
• Dermorphin

Synthetic opioid peptides

• Zyklophin – semisynthetic KOR antagonist derived from dynorphin A