Opioid pharmacology

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Pharmacology

Opioids bind to specific opioid receptors in the central nervous system and in other tissues. There are three principal classes of opioid receptors, μ, κ, δ (mu, kappa, and delta), although up to seventeen have been reported, and include the ε, ι, λ, and ζ (epsilon, iota, lamda and zeta) receptors. σ (sigma) receptors are no longer considered to be opioid receptors as they are not reversed by naloxone, exhibit high-affinity binding for ketamine and phencyclidine and are stereoselective for dextro-rotatory isomers while the other opioid receptors are stereo-selective for laevo-rotatory isomers. In addition, there are two subtypes of μ receptor: μ₁ and μ₂. Another receptor of clinical importance is the opioid-receptor-like receptor 1 (ORL1), which is involved in pain responses as well as having a major role in the development of tolerance to μ-opioid agonists used as analgesics. These are all G-protein coupled receptors acting on GABAergic neurotransmission. The pharmacodynamic response to an opioid depends on which receptor it binds, its affinity for that receptor, and whether the opioid is an agonist or an antagonist. For example, the supraspinal analgesic properties of the opioid agonist morphine are mediated by activation of the μ₁ receptor, respiratory depression and physical dependence (dependency) by the μ₂ receptor, and sedation and spinal analgesia by the κ receptor.

Major subtypes

There are four major subtypes of opioid receptors:^[1]

Receptor	Subtypes	Location^[2]^[3]	Function^[2]^[3]
delta (δ) DOR OP₁ ^(I)	δ₁, δ₂	Brain Pontine nuclei Amygdala Olfactory bulbs deep Cortex Peripheral sensory neurons	Analgesia Antidepressant effects Convulsant effects Physical dependence Perhaps of mu-opioid receptor-mediated respiratory depression
kappa (κ) KOR OP₂ ^(I)	κ₁, κ₂, κ₃	Brain Hypothalamus Periaqueductal gray Claustrum Spinal cord substantia gelatinosa Peripheral sensory neurons	Analgesia Anticonvulsant effects Dissociative & Deliriant effects Diuresis Dysphoria Miosis Neuroprotection Sedation
mu (μ) MOR OP₃ ^(I)	μ₁, μ₂, μ₃	Brain Cortex (laminae III and IV) Thalamus striosomes Periaqueductal gray Rostral ventromedial medulla Spinal cord substantia gelatinosa Peripheral sensory neurons Intestinal tract	μ₁: Analgesia Physical dependence μ₂: Respiratory depression Miosis Euphoria Reduced GI motility Physical dependence μ₃: Possible vasodilation
Nociceptin receptor NOP OP₄	ORL₁	Brain cortex Amygdala Hippocampus Septal nuclei Habenula Hypothalamus Spinal cord	Anxiety Depression Appetite Development of tolerance to μ agonists

(I). Name based on order of discovery

References

↑ Corbett AD, Henderson G, McKnight AT, Paterson SJ (2006). "75 years of opioid research: the exciting but vain quest for the Holy Grail". Br. J. Pharmacol. 147 Suppl 1 (Suppl 1): S153–62. doi:10.1038/sj.bjp.0706435. PMC 1760732. PMID 16402099.
↑ ^2.0 ^2.1 Stein C, Schäfer M, Machelska H (August 2003). "Attacking pain at its source: new perspectives on opioids". Nat. Med. 9 (8): 1003–8. doi:10.1038/nm908. PMID 12894165.
↑ ^3.0 ^3.1 Fine PG, Portenoy RK (2004). "Chapter 2: The Endogenous Opioid System" (PDF). A Clinical Guide to Opioid Analgesia. McGraw Hill.

Template:WikiDoc Sources

[pmid16402099-1] Corbett AD, Henderson G, McKnight AT, Paterson SJ (2006). "75 years of opioid research: the exciting but vain quest for the Holy Grail". Br. J. Pharmacol. 147 Suppl 1 (Suppl 1): S153–62. doi:10.1038/sj.bjp.0706435. PMC 1760732. PMID 16402099.

[Stein_C,_Schäfer_M,_Machelska_H_(2003)-2] 2.0 ^2.1 Stein C, Schäfer M, Machelska H (August 2003). "Attacking pain at its source: new perspectives on opioids". Nat. Med. 9 (8): 1003–8. doi:10.1038/nm908. PMID 12894165.

[stoppain-3] 3.0 ^3.1 Fine PG, Portenoy RK (2004). "Chapter 2: The Endogenous Opioid System" (PDF). A Clinical Guide to Opioid Analgesia. McGraw Hill.

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Opioid pharmacology

Overview

Pharmacology

Major subtypes

References

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