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Dynorphin receptors

The opioid peptides vary in their binding affinities for the multiple opioid receptor types. Leu- and Met-enkephalin have a higher affinity for 5-receptors than for the other opioid receptor types (68), whereas the dynorphin peptides have a higher affinity for K-sites (69). P-Endorphin binds with equal affinity to both p- and 5-receptors, but binds with lower affinity to K-sites (70). The existence of a P-endorphin-selective receptor, the S-receptor, has been postulated whether this site is actually a separate P-endorphin-selective receptor or is a subtype of a classical opioid receptor is a matter of controversy (71,72). The existence of opioid receptor subtypes in general is quite controversial although there is some evidence for subtypes of p- (73), 5-(74), and K-receptors (72,75), confirmation of which may be obtained by future molecular cloning studies. [Pg.447]

Dynorphin may also influence nociception at the spinal level. The levels of prodynorphin mRNA and immunoreactive dynorphin increase in the chronic inflammatory arthritic model (158). Dynorphin also inhibits morphine or P-endorphin-induced analgesia in naive animals and enhances analgesia in tolerant animals, indicating that this peptide may have a regulatory role in opioid analgesia (159). This effect does not appear to be mediated by a classical opioid receptor, since des-tyrosine dynorphin, which does not bind to opioid receptors, also antagonizes morphine analgesia (160). [Pg.450]

A 17 amino acid long peptide sequentially related to opioid peptides in particular dynorphin A. OFQ/N is inactive at the 5, k, and p opioid receptors, but binds to its own NOP receptor (formerly ORL-1, for opioid receptor like-1). In contrast to opioid peptides, OFQ/N has no direct analgesic properties. OFQ/N is the first example for the discovery of a novel neurotransmitter from tissue extracts by using an orphan receptor as bait. Centrally administered in rodents, OFQ/N exerts anxiolytic properties. OFQ/N agonists and antagonists... [Pg.917]

Three endogenous opioids have been identified enkephalins, dynorphins and beta-endorphins. These opioid peptides selectively bind to the seven transmembrane GPCRs delta (8), kappa (k), and mu (p). Although dynorphin binds predominately to the k receptor, P-endorphines and enkephalins bind to p and 8 opioid receptors. It is important to note that the analgesia induced by opioids is mediated predominately throngh the p opioid receptor. In vitro studies have shown a decrease in the immnne function and proliferation following p-endorphin administration in rodents (Ray and Cohn 1999) and that the immunosuppressive effects by P-endorphins are steroid-independent (Berkenbosch et al. 1984 Nelson et al. 2000). [Pg.341]

The four opioid receptors display in vivo binding preference for mu-endorphins and endomorphins, delta-enkephalins, kappa-dynorphin and ORLl-nociceptin/orphanin FQ (Table 12.2). [Pg.258]

The opioid receptors are for the endogenous opioids, peptide transmitters, jS-endorphin, endomorphins, enkephalins, dynorphins and nociceptin. Thus all the problems of drugs based on peptides need to be overcome in order for the roles of these... [Pg.468]

Paterlini G, Portoghese P, Ferguson D. Molecular simulation of dynorphin A-(1—10) binding to extracellular loop 2 of the kappa opioid receptor. A model for receptor activation. J Med Chem 1997 40 3254-3262. [Pg.487]

The body modulates pain through several processes. The endogenous opiate system consists of neurotransmitters (e.g., enkephalins, dynorphins, and /1-endorphins) and receptors (e.g., fl, S, k) that are found throughout the CNS. Endogenous opioids bind to opioid receptors and modulate the transmission of pain impulses. [Pg.627]

The majority of studies aimed at preparing kappa-selective opioids have used U-50488 (5) as the chemical lead and, as the above discussion shows, this has proved to be a highly productive approach. However, as was pointed out above, there are other structures [EKC (3), tifluadom (6) and the peptide dynorphin (7)] which have been reported to bind to the kappa receptor, albeit with poor opioid receptor subtype selectivity. Some attempts have been made to develop kappa-selective ligands from these structures and they are summarized here. [Pg.130]

Table 3.8. RECEPTOR BINDING AND SMOOTH MUSCLE ACTIVITY OF CYCLIC DYNORPHIN DERIVATIVES [95]... Table 3.8. RECEPTOR BINDING AND SMOOTH MUSCLE ACTIVITY OF CYCLIC DYNORPHIN DERIVATIVES [95]...
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See also in sourсe #XX -- [ Pg.327 ]



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Dynorphin

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