Beta-endorphin. Biological activity of analogs containing dermorphin and dynorphin sequences: ileum and vas deferens assays

Biological activity of synthetic beta-endorphin (beta-EP) analogs containing dermorphin or dynorphin-A-(1-13) structure has been investigated using the guinea pig ileum and the vas deferens of the mouse, rat and rabbit. Replacement of NH2-terminal 1-7 segment of camel beta-EP [beta c-EP-(1-7)] with dermorphin caused a great increase in opiate potency of the analog. [Dermorphin (1-7)]-beta c-EP was 120 times more potent than beta c-EP in the guinea pig ileum assay, 49 times more potent in the mouse vas deferens assay; and only 4 times more potent in the rat vas deferens assay. Replacement of NH2-terminal 1-13 segment of human beta-EP [beta h-EP-(1-13)] with dynorphin-A-(1-13) caused an increase in opiate potency in both the guinea pig ileum and rabbit vas deferens assays, a complete loss of potency in the rat vas deferens assay, and no change in the mouse vas deferens assay. In comparison with dynorphin-A-(1-13), the hybrid peptide was less potent in the guinea pig ileum assay as well as in mouse and rabbit vas deferens assay. It is suggested that beta c-EP-(8-31) facilitates the dermorphin moiety to act on opiate mu and delta receptors but not on the epsilon receptor, while beta h-(14-31) reduces the action of dynorphin on mu, delta and kappa receptors.     

A pituitary endorphin with novel properties.

We describe the further purification of an opioid peptide from a porcine pituitary concentrate. The peptide has typical naloxone-reversible opioid activity in the guinea pig ileum myenteric-plexus preparation and mouse vas deferens, and it inhibits stereospecific binding at opiate receptors. It is distinguished from β-endorphin and the enkephalins by its apparent molecular weight, its slow reversal with washing in the guinea pig ileum preparation, and the resistance of its biologic activity to cyanogen bromide treatment. In beef pituitary, slow-reversing, cyanogen bromide resistant activity is found principally in neurointermediate lobe.     

Synthesis and opioid activity of new fentanyl analogs

Three new fentanyl analogs (compounds 3-4-5) have been synthesized and evaluated for antinociceptive properties using the writhing test. The analgesic property of the active compound, N-[1-phenylpyrazol-3-yl]-N-[1-(2-phenethyl)-4-piperidyl)] propenamide (compound 4), was tested using the hot plate test in mice. Its opioid agonistic activity was characterized using three isolated tissues: guinea pig ileum, mouse vas deferens, and rabbit vas deferens. Compound 4 was as effective as fentanyl or morphine and it showed less antinociceptive potency than fentanyl but it was more potent than morphine. The duration of the antinociception was similar to that of fentanyl. This compound inhibited the electrically evoked contractions of myenteric plexus-longitudinal muscle strips of guinea pig ileum and of mouse vas deferens but not those of rabbit vas deferens. These effects could be reversed by micro selective antagonists (naloxone and/or CTOP) but not by the delta selective antagonist naltrindole, thus indicating that the compound acted as a micro opioid agonist. Finally, the binding data confirmed that compound 4 had high affinity and selectivity for the micro-receptor.     

A novel cyclic opioid peptide analog showing high preference for mu-receptors

The side-chain to side-chain cyclized opioid peptide analogs H-Tyr-D-Orn-Phe-Asp-NH2 (I) and H-Tyr-D-Lys-Phe-Glu-NH2 (II) were synthesized and tested in the guinea pig ileum and mouse vas deferens assays and in binding assays based on displacement of mu- and delta-opioid receptor-selective radioligands from rat brain membranes. The more rigid cyclic analog I containing a 13-membered ring structure showed very high preference for mu-receptors over delta-receptors, whereas the more flexible cyclic peptide II (15-membered ring) was non-selective. These results indicate that variation in the degree of conformational restriction of opioid peptides can produce drastic shifts in their receptor selectivity profile. Because of its high mu-receptor selectivity and rigidity cyclic analog I will be useful for determining the conformational requirements of mu-opioid receptors.     

Effects of naloxone benzoylhydrazone on native and recombinant nociceptin/orphanin FQ receptors

We have studied the effects of naloxone benzoylhydrazone (NalBzoH) at recombinant human OP4 receptors expressed in Chinese hamster ovary (CHO) cells (CHOhOP4) and native OP4 sites in isolated tissues from various species. In CHOhOP4 membranes, nociceptin (NC) and NalBzoH displaced [125I]Tyr14-NC with pKi values of 10.1 and 7.3. In the presence of 100 microM GDP, NC stimulated GTPgamma35S binding (pEC50 = 8.5). NalBzoH was ineffective but antagonized the effects of NC (pA2 = 6.9). At 5 microM GDP, there was an increase in potency (pEC50 = 9.3) and efficacy (4.3-fold) of NC. NalBzOH was a partial agonist (pEC50 = 7.0, Emax = 13% relative to NC). In CHOhOP4 cells, NC and NalBzoH inhibited cAMP formation with pEC50 and Emax values of 9.8 and 100% and 6.0 and 44%, respectively. In the rat vas deferens, NalBzoH (10 microM) did not modify electrically induced twitches but competitively antagonized the inhibitory action of NC (pA2 = 6.2). In the mouse vas deferens (mVD) and guinea pig ileum (gpI), NalBzoH inhibited twitches with pEC50 and Emax values of 7.6 and 78% and 8.5 and 77%, respectively. The effect of 3 microM NalBzoH was fully inhibited by 3 microM naloxone in mVD and 30 microM in gpI. Under these conditions, NalBzoH antagonized the actions of NC in both preparations with pA2 values of 6.3 and 6.8, respectively. Collectively, these data demonstrate that NalBzoH is a nonselective OP4 ligand with system-dependent behaviour.     

Beta-endorphin: peripheral opioid activity of homologues from six species

The peripheral opioid activity of six homologous beta-endorphins (beta-EPs) were assayed on the guinea pig ileum and the vas deferens of the mouse, the rat and the rabbit. In the guinea pig ileum assay, human beta-EP (beta h-EP) was less potent than camel, turkey, and ostrich beta-EPs, of the same potency as equine beta-EP and more active than des-acetyl salmon beta-EP. In the rat vas deferens, mammalian beta-EPs showed higher activity than those from the bird and the fish, whereas in the mouse vas deferens assay, beta h-EP is more active than those from other species. In the rabbit vas deferens, however, all homologous beta-EPs show very weak activity. The relative potency of beta-EP homologues obtained from rat vas deferens assay is in good correlation with the analgesic potency, while the receptor binding activity does not correlate with any of the four bioassays, but appears to be related to the charge properties of the peptides.     

Humoral endorphin: A new endogenous factor with opiate-like activity

Humoral (H) endorphin, a novel endogenous opioid ligand detected in brain, blood and cerebrospinal fluid was tested in a series of opiate sensitive assays. H-endorphin displaced radiolabeled enkephalin from its specific bindings sites and inhibited the electrically evoked contraction of the guinea pig ileum and mouse vas deferens. When injected to unanesthesized animals, humoral endorphin induced analgesia in rats and mydriasis in mice. The activity of H-endorphin both $\text{in}\text{vitro}$ and $\text{in}\text{vivo}$ attests to its opioid nature. However, while its antinociceptive effect was blocked by naloxone, mydriasis induced by H-endorphin was resistant to the effect of the opiate antagonist. Similarly, intermediate concentrations of naloxone inhibited the effect of H-endorphin on the guinea pig ileum while its effect on the mouse vas deferens was completely refractory to naloxone. The physiological function of humoral endorphin in various naturally occuring states that show similar paradoxical interactions with naloxone is discussed.     

Retro-nociceptin methylester, a peptide with analgesic and memory-enhancing activity

Retro-nociceptin methylester (retro-Noc-ME), which has an oppositely directed structure to that of nociceptin, showed weak affinity for nociceptin receptor and antagonized nociceptin-induced inhibition of contraction in a guinea pig ileum (GPI) assay. The peptide induced analgesia after intracerebroventricular (i.c.v.) administration at a dose of 100 nmol per mouse. Analgesia was not blocked by the opioid antagonist naloxone, which suggests that the analgesia is not mediated by opioid receptor. Furthermore, analgesia caused by retro-Noc-ME was not attenuated after repeated administration, that is, there was an absence of tolerance. The peptide improved learning ability after i.c.v. administration in a step-through experiment in mice.     

Opioid receptor binding profile of selected dermorphin-like peptides

The receptor binding profile of a selected group of dermorphin-like peptides was determined and correlated with the results of the guinea pig ileum (GPI) and mouse vas deferens (MVD) bioassays and with the currently used antinociception tests in the rat. For the peptides with the characteristic dermorphin D-Ala2-Phe3-Gly4 sequence, a linear negative correlation was found between the reciprocal of sodium shift and relative affinity for the mu-type opioid receptor. For the same peptides, a positive correlation was evidenced between relative potency on GPI and MVD and relative affinity for mu- and delta-type receptors, respectively.     

Comparative study on the effect of morphine and the opioid-like peptides in the vas deferens of rodents: species and strain differences, evidence for multiple opiate receptors

The effect of an opiate alkaloid and an opioid-like peptide was studied on the electrically evoked twitching of the vas deferens of 3 common laboratory rodents. Normorphine and the synthetic opioid peptide D-Alanine₂ methionine enkephalinamide (D-Ala₂) produced dose dependent inhibitions of the twitching response in the mouse vas deferens. In the rat vas, while β-endorphin (β-EP) caused an inhibitory effect in three strains of rats to a similar degree, morphine produced a dose related enhancement of the twitching. In the guinea pig, both morphine and β-EP caused an increased in the muscular twitch. The results are interpreted in terms of an heterogenous mixture of opiate receptors present in the vas deferens from these rodents. The mouse appears to contain mainly δ receptors while the rat has mostly ε receptors characterized by their specificity and sensitivity to the action of β-EP. The guinea pig vas deferens has apparently lost the sensitivity to the inhibitory influence of the opioids, suggesting the absence of μ or δ opiate receptors in this tissue.     

Analgesic, receptor binding, and peripheral opioid activities of synthetic dermorphin-dynorphin hybrid peptides

The effects of substituting the enkephalin moiety of dynorphin with the dermorphin sequence were studied on the receptor preference, analgesic, and peripheral opioid potencies by using synthetic dermorphin-dynorphin hybrid peptides as the probe. Replacement of the enkephalin moiety of dynorphin with the dermorphin or dermorphin1-5 sequences caused a remarkable increase in analgesic potency, and a 3-6 fold increase in potency of binding against [3H]-dihydromorphine. The potency of receptor binding against [3H]-EKC was also increased by incorporation of the whole dermorphin sequence into the dynorphin molecule. In the presence of NaCl (100 mM), the effect of enhancing binding against [3H]-EKC due to dermorphin substitution disappeared, suggesting the contribution of opioid mu-receptor. Peripheral opioid activities assayed by various smooth muscle preparations showed that dermorphin incorporation caused a decreased in the potency of inhibition of the contractions of the guinea pig ileum and the rabbit vas deferens, no change in potency on the mouse vas deferens, and a marked increase in the inhibition of the rat vas deferens. Among the peripheral opioid activities only that assayed with the rat vas deferens appears to correlate approximately with the analgesic and the receptor binding activities. Judging from the relative potencies obtained from all assays, it is evident that the N-terminal dermorphin moiety, but not the C-terminal dynorphin fragment, dominates the opioid activity and receptor preference of the hybrid peptide.     

Structure-activity relationships of cyclic β-casomorphin-5 analogues

Cyclic analogues of the β-casein-derived opioid peptide β-casomorphin-5 (H-Tyr-Pro-Phe-Pro-Gly-OH) were prepared through substitution of the Pro² residue with various ,ω-diamino acid residues (lysine, ornithine, 2,4-diaminobutyric acid) and cyclization of the ω-amino group to the C-terminal carboxyl function. Compounds of this type, with D-configuration at the 2-position residue, showed high opioid receptor affinity with some preference for μ receptors over δ receptors, high potency in the guinea pig ileum assay and considerable activity in the mouse vas deferens assay. Configurational inversion at the 4-position in these cyclic analogues resulted in enhanced affinity for both μ and δ receptors, whereas N-methylation of the Phe³ residue produced a potency decrease.     

Kentsin: tetrapeptide from hamster embryos produces naloxone-sensitive effects without binding to opioid receptors

The opioid nature of kentsin (Thr-Pro-Arg-Lys) and its ability to alter pain perception and intestinal transit were examined. Kentsin (30,000 nM) did not inhibit electrically stimulated contractions of the guinea pig ileum (GPI) or mouse vas deferens (MVD), nor did it cause a rightward displacement of the inhibitory concentration-response curves of the mu-selective opioid agonist PL017 in the GPI or the delta-selective agonist DPDPE in the MVD. Kentsin (10,000 nM) did not displace [3H] naloxone from rat brain homogenates. These results indicate that kentsin lacks opioid agonist and mu and delta opioid antagonist properties and does not bind to opioid receptors. In vivo, kentsin produced dose-dependent analgesia in both the hotplate and abdominal stretch tests when administered intracerebroventricularly (ICV) and intrathecally but not intravenously. The central analgesic effect of kentsin was partially antagonized by the opioid antagonist naloxone. Kentsin inhibited intestinal transit in a dose-dependent manner after ICV administration only. The intestinal antitransit effect of kentsin was not blocked by pretreatment with naloxone. These results suggest that kentsin acts centrally to produce both opioid and non-opioid effects. Further, the opioid-mediated analgesic effects of kentsin involve mechanisms other than direct interaction with opioid receptors.     

Glycoconjugates of opioid peptides. Synthesis and biological activity of [Leu5]enkephalin related glycoconjugates with amide type of linkage.

Three N-glycoconjugates of the general formula H-Tyr-Gly-Gly-Phe-Leu-NH-R (R = carbohydrate residue) were synthesized in order to determine the influence of some carbohydrate molecules (6-amino-6-deoxy-D-glucopyranose, 2-amino-2-deoxy-D-glucopyranose, beta-D-glucopyranosylamine) on the biological activity, conformation, and stability of the opioid pentapeptide [Leu5]enkephalin. For the preparation of this compound different methods of peptide synthesis (active ester and mixed anhydride) were investigated. In comparison with [Leu5]enkephalin, all three N-glycoconjugates showed higher potency in the guinea pig ileum assay and lower potency in the mouse vas deferens assay, indicating a decrease in delta opioid receptor selectivity.     

DALDA analogues containing alpha-hydroxymethylamino acids

To evaluate the role of aromatic amino-acids residues, four analogues of the mu-selective opioid peptide agonist DALDA (H-Tyr-D-Arg-Phe-Lys-NH2) containing the amphiphilic, a,a-disubstituted amino acid (R)- or (S)-alpha-hydroxymethyltyrosine (HmTyr) in position 1 and (R)- or (S)-alpha-hydroxymethylphenylalanine (HmPhe) in position 3 of the peptide sequence were synthesized. Only the [(R)-HmPhe3)]DALDA analogue displayed full agonistic activity in both the guinea pig ileum and the mouse vas deferens assays and turned out to be a delta receptor-selective opioid agonist.     

Nociceptin receptor activation inhibits tachykinergic non adrenergic non cholinergic contraction of guinea pig isolated bronchus

We studied the action of nociceptin (NC) on the atropine-resistant contractions of the guinea pig isolated bronchus evoked by the electrical field stimulation (EFS), an effect that is mediated by the activation of excitatory non adrenergic-non cholinergic (eNANC) nerves and the subsequent release of tachykinins. The functional site by which NC acts in this preparation was investigated using few different NC receptor agonists and the newly discovered NC receptor antagonist, [Phe1psi(CH2-NH)Gly2]NC(1-13)NH2 ([F/G]NC(1-13)NH2). NC inhibited in a concentration dependent manner (pEC50 7.14; Em - 87 +/- 3% of control values) EFS induced contractions. NC effect was mimicked by the NC analogues, NCNH2 and NC(1-13)NH2, but not by NC(1-9)NH2. NC (1 microM) did not affect the contractile effects of exogenously applied neurokinin A (1 microM). [F/G]NC(1-13)NH2 (10 microM) completely prevented the inhibition induced by NC (1 microM), whereas naloxone (1 microM) was found inactive. Both naloxone and ([F/G]NC(1-13)NH2 were per se inactive on basal resting tone as well as on the electrically induced contractions. The present findings show that NC inhibits the atropine-resistant EFS-induced contraction in the guinea pig bronchus by inhibiting eNANC nerves, and suggest the presence of NC receptors, distinct from opioid receptors, on the nerves of the guinea pig bronchus.     

Soymorphins, novel mu opioid peptides derived from soy beta-conglycinin beta-subunit, have anxiolytic activities

Based on the amino acid sequence YPFV found in the soy beta-conglycinin beta-subunit, which is common to an opioid peptide human beta-casomorphin-4, peptides YPFVV, YPFVVN, and YPFVVNA were synthesized according to their primary structure. On guinea pig ileum (GPI) assay, they showed opioid activity (IC50 = 6.0, 9.2 and 13 microM respectively) more potent than human beta-casomorphins, and were named soymorphins-5, -6, and -7, respectively. Their opioid activities on mouse vas deferens (MVD) assay were less potent than on GPI assay, suggesting that they are selective for the mu opioid receptor. Human beta-casomorphin-4 and soymorphin-5 were released from the soy 7S fraction (beta-conglycinin) by the action of gastrointestinal proteases. Soymorphins-5, -6, and -7 had anxiolytic activities after oral administration at doses of 10-30 mg/kg in the elevated plus-maze test in mice.     

TENA, a selective kappa opioid receptor antagonist

A number of opioid antagonists (TENA, naloxone, Mr 2266, WIN 44441) were evaluated for their selectivity in antagonizing the effect of mu, kappa, and delta agonists in the guinea pig ileum (GPI) and mouse vas deferens (MVD) preparations. Among these four antagonists, TENA was the most potent and the only ligand which was selective for kappa receptors. In this regard TENA was approximately 27-times more effective in antagonizing the kappa agonist, U-50488H, relative to the mu agonist, morphine, and it was about 5-times more effective against ethylketazocine (EK) relative to morphine. At the same concentration (20 nM) TENA did not significantly antagonize the delta agonist, [D-Ala2,D-Ala5]enkephalin (DADLE), in the MVD. Also, TENA was more effective than naloxone, EK, or U-50488H in protecting kappa receptors from irreversible blockage by beta-CNA. The results of this study indicate that TENA is the most selective kappa antagonist yet reported.     

Effect of beta-FNA on opiate delta receptor binding

beta-FNA, the beta-fumaramate methyl ester of naltrexone, has been shown to antagonize irreversibly the actions of morphine on the guinea pig ileum and mouse vas deferens bioassays but does not affect the actions of delta-receptor ligands on the mouse vas deferens bioassay, suggesting that the compound does not irreversibly bind to the delta receptor. In this paper we examine the effect of beta-FNA on the binding of the prototypic delta agonists, Leu-enkephalin and D-Ala2-D-Leu5-enkephalin, its metabolically stable analogue, and show that treatment of membranes with beta-FNA does lead to alterations in the in vitro properties of delta receptors.     

Structure-activity studies of dermorphin. The role of side chains of amino acid residues on the biological activity of dermorphin

Seventeen analogues of dermorphin were synthesized and bio-assayed to determine the influence of side chains of the individual amino acid residues forming the sequence of dermorphin on the biological activity of this opioid peptide. Syntheses were carried out using solid-phase procedure, and the analogues obtained were purified by gel filtration on Sephadex G-10. Biological activities determined in guinea pig ileum (GPI) and mouse vas deferens (MVD) tests showed that the N-terminal tetrapeptide is responsible for the activity of dermorphin. Substitutions in the C-terminal fragment, particularly in position 5, for other amino acid residues results in substantial differentiation towards mu and delta receptors.