The influence of neuropeptides related to pro-opiomelanocortin on acquisition of heroin self-administration of rats

The influence of different neuropeptides related to pro-opiomelanocortin were tested on acquisition of heroin self-administration in rats. The animals were allowed to self-administer heroin intravenously on a continuous reinforcement schedule during 6 h daily sessions on 5 consecutive days. Treatment was performed subcutaneously 1 h before each daily session. It was found that the opioid peptides alpha-, gamma- and beta-endorphin hardly influenced acquisition of heroin self-administration, while the non-opioid fragments of alpha- and gamma- endorphin modulated this behavioral response. In fact, beta-endorphin (beta E) 2-9 tended to facilitate the rate of acquisition, while the gamma-type endorphins, des-Tyr1-gamma-endorphin (beta E 2-17) and des-enkephalin-gamma-endorphin (beta E 6-17), decreased heroin intake. Concerning the ACTH/MSH related peptides, a decreasing effect of heroin intake was found following treatment with (D-Phe7)-ACTH 4-10, with a high dose of the ACTH 4-9 analog Org 2766 and with gamma 2-MSH, while ACTH 1-24, ACTH 4-10 and a low dose of Org 2766 did not significantly influence self-injecting behavior. It is concluded that pro-opiomelanocortin serves as a precursor molecule for peptide fragments, which modulate the acquisition of heroin self-administration in rats.     

The effects of opiate agonists on growth hormone and prolactin release in rats

Various opioid receptor agonists, including Met5-enkephalin amide, Leu5-enkephalin amide, [D-Ala]2-Met5-enkephalin amide, [D-Ala]2-Leu5-enkephalin amide, morphine sulfate, d-methadone hydrochloride, and l-methadone hydrochloride were administered to adult male rats by subcutaneous injection. All opioid receptor agonists except Leu5-enkephalin amide significantly stimulated growth hormone and prolactin release. Naloxone and naltrexone blocked the hormone stimulatory effects of the opioids and both naloxone and naltrexone, when administered alone, significantly reduced serum growth hormone and prolactin concentrations. The dopaminergic agonist apomorphine, but not the alpha-adrenergic agonist clonidine, blocked opiate stimulation of prolactin. Morphine sulfate caused growth hormone release in rats pretreated with alpha-methyl-p-tryosine, a catecholamine synthesis inhibitor. Cholinergic agonists, physostigmine and pilocarpine, antagonized the growth hormone and prolactin release induced by morphine sulfate. The data suggest that the opiates stimulate prolactin via an interaction with catecholaminergic neurons controlling prolactin release and stimulate growth hormone via a mechanism independent of alpha-adrenergic or general catecholaminergic influence. The mechanism through which cholinergic agonists act to inhibit opiate agonist stimulation of growth hormone is presently unknown.     

Endogenous opioids and the growth regulation of a neural tumor

Endogenous opioid systems (endogenous opioids and their receptors) are known to participate in the regulation of tumor growth. The present study was conducted to examine whether [Met5]-enkephalin influences the growth of transplanted neuroblastoma, and to explore the role of other opioid peptides in carcinogenesis. A/Jax mice were inoculated with 10(6) S20Y cells and received daily injections of [Met5]-enkephalin. Dosages of 0.5 to 30 mg/kg delayed tumor appearance and prolonged survival of these mice; antitumor effects were blocked by concomitant injections of naloxone. Daily administration (10 mg/kg) of [Leu5]-enkephalin had no effect on neurotumor growth. [D-Ala2, D-Leu5]-enkephalin and ethylketocyclazocine, ligands selective for delta and kappa receptors, respectively, also did not influence neuro-oncogenesis. These results demonstrated the potent growth inhibiting effects of the naturally occurring opioid pentapeptide, [Met5]-enkephalin, and substantiate reports identifying and characterizing an opioid receptor (i.e., zeta) for which [Met5]-enkephalin is the most potent ligand.     

Purification and characterization of a human kidney neutral endopeptidase that hydrolyzes succinyl trialanine-4-nitroanilide and biologically active peptides

An enzyme hydrolyzing succinyl trialanine-4-nitroanilide was extracted from human kidney homogenate and purified by means of gel filtration on Sepharose CL-4B, anion-exchange chromatography on DEAE-Sepharose CL-6B and affinity chromatography on carbobenzoxy-L-Ala-L-Ala-D-Ala-polylysine-agarose. The purified enzyme consists of a single peptide, and its molecular weight was estimated to be about 125 000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified enzyme cleaved the substrate at the bond between succinyl dialanine and alanine-4-nitroanilide and showed a Km value of 2.1 mM at the optimal pH of 8.0. The activity was increased by Ca2+ and Mg2+, but was inhibited by phosphoramidon and ethylenediaminetetraacetic acid. The enzyme cleaved the oxydized insulin B chain, angiotensinogen tetradecapeptide, angiotensin I, angiotensin II, angiotensin III, [Sar1,Ala8]-angiotensin II, bradykinin, des-Pro2-bradykinin, Leu5-enkephalin, Met 5-enkephalin, [D-Ala2,Met5]-enkephalinamide and [D-Ala2-Met5]-enkephalin, but did not cleave [D-Ala2,D-Leu5]-enkephalin. The bonds on the amino side of the hydrophobic amino acids of the peptides were cleaved by the enzyme.     

ACTH4-9类似物对小鼠海马突触体Ca2+水平的调节作用

本工作观察了Ｏｒｇ２７６６（ＡＣＴＨ４－９的类似物）对海马突触体内游离Ｃａ＾２＋水平及对＾４５Ｃａ＾２＋摄取的影响。采用细胞内钙离子荧光探针Ｆｕｒａ－２,通过Ｓｐｅｘ－阳离子测定系统检测突触体内［Ｃａ＾２＋］ｉ的动态变化,并用液闪光谱仪测定突触体对＾４５Ｃａ＾２＋的摄取。结果表明：较低剂量的ＯＲＧ２７６６对突触体内［Ｃａ＾２＋］ｉ的影响不明显,却显著降低突触体对＾４５Ｃａ＾２＋的摄取;高剂量的Ｏｒ     

The ACTH/MSH (4-9) analog Org2766 improves retrieval of information after a fimbria fornix transection

The fimbria fornix of male Wistar rats was transected unilaterally after they had been successfully trained in the Morris maze and the passive avoidance task. Sham-operated and lesioned animals were treated either with Org2766 or saline for two weeks. Subsequently, the performance of all groups was tested again starting two days after the last treatment. The lesioned animals showed a deficit in performance in both tasks, indicating interference of the lesion with retrieval of information. Org2766 improved the poor performance of the lesioned animals in the Morris maze, but not in the passive avoidance task.     

The in vitro and in vivo resistance of synthetic enkephalin analogs to three enkephalin-hydrolyzing enzymes

The magnitude of the in vitro and in vivo resistance of 3 synthetic enkephalin analogs, [D-Ala2,Met5]-enkephalin (DAME), [D-Ala2,Met5]-enkephalinamide (DAME-NH2) and [D-Ala2,D-Met5]enkephalin (DADME), to 3 enkephalin-hydrolyzing enzymes, amastatin-sensitive aminopeptidase (AsA), phosphoramidon-sensitive endopeptidase-24.11 (PsE) and captopril-sensitive dipeptidyl carboxypeptidase I (CsD), was estimated by comparing the potency of enkephalins in the absence of the peptidase inhibitor (PI) with that in the presence of the PI. The enhancement of the potency of enkephalins in the isolated mouse vas deferens preparation by 3 PIs, amastatin, phosphoramidon, and captopril, indicated that the resistance of enkephalins to AsA, PsE, or CsD was DADME [symbol: see text] DAME-NH2 [symbol: see text] DAME > [Met5]-enkephalin (ME), DADME > DAME-NH2 > DAME [symbol: see text] ME, or DADME [symbol: see text] DAME-NH2 > DAME > ME, respectively. Additionally, the data obtained by the s.c. administration of enkephalin analogs to 10-day-old rats with or without PI, showed that PsE played the most important role in the inactivation of both DAME and DAME-NH2. In addition to PsE, both AsA and CsD, or AsA alone, played the significant role in the inactivation of DAME, or DAME-NH2, respectively. In the inactivation of DADME, AsA alone played the significant role. These results showed that the 3 peptidases all played important roles in the inactivation of enkephalins, and therefore only an analog like DADME, which was quite resistant to the 3 enzymes, was able to produce the effect without PIs after its systemic administration. Since even DADME was not completely resistant to the 3 enzymes; however, its potency was further increased by pretreatment of infant rats with the PIs.     

Molecular-dynamics simulations of [Met5]- and [D-Ala2,Met5]-enkephalins. Biological implication of monomeric folded and dimeric unfolded conformations.

To investigate the biologically active conformation of enkephalin, molecular-dynamics simulations were applied to [Met5]- and [D-Ala2,Met5]-enkephalins. The dynamic trajectory of monomeric extended [Met5]-enkephalin was analysed in terms of relative mobility between respective torsions of backbone chain. After 10 ps of the dynamics simulation, the conformational transition was converged into a stationary state among the beta-bend folded forms, where they are stabilized by several intramolecular hydrogen-bond formations. Similar conformational transition was also observed in the dynamics simulation of [D-Ala2,Met5]enkephalin, which is a more mu-receptor-specific peptide than [Met5]enkephalin. The geometrical correspondence between the monomeric enkephalin conformation in the stationary state and morphine molecule (a mu-specific rigid opiate) was surveyed by virtue of the triangular substructures generated by choosing three functional atoms in each molecule, and good resemblances were observed. On the other hand, the dynamics simulation of the antiparallel extended [Met5]enkephalin dimer showed a trajectory different from that of the monomeric one. Two intermolecular hydrogen bonds at Tyr1 (NH3+)...Met5(CO2-) end residues were held throughout the 100 ps simulation, the dimeric structure being consequently kept. The conformational transition of the backbone chains from the antiparallel extended form to the twisted one took place via an intermediate state. Many conformations revealed during the dynamics simulation showed that the relative orientations of each two Tyr1, Gly3, Phe4 and Met5 residues in the dimer are nearly related by a pseudo-C2-symmetry respectively, and both halves of the dimer structure could be further fitted to the monomeric folded enkephalin conformation. The monomeric and dimeric conformations of enkephalin at their stationary states are discussed in relation to the substrate-specificity for mu- and delta-opioid receptors.     

Structural modifications of the ACTH-(4-9) analog ORG 2766 yields peptides with high biological activity.

The behavioral effects of two peptides (HOE 427) and ORG 31433) related to the ACTH-(4-9) analog ORG 2766 were investigated in Wistar rats in a number of tests in which Org 2766 is active. Subcutaneous administration of HOE 427 in a dose of 0.5 ng/kg or ORG 31433 in doses of 0.5-5.0 ng/kg facilitated passive avoidance behavior whereas these peptides attenuated the avoidance response in doses of 25 ng/kg and 250 ng/kg respectively. ORG 31433 (0.1 - 1.0 microgram/kg) decreased motor activity of group housed rats tested under low light conditions. Furthermore subcutaneous (1.0- 10.0 ng/kg) or oral (10 microgram/kg) administration of ORG 31433 accelerated functional recovery from 6-hydroxydopamine (6-OHDA)-induced lesions in the nucleus accumbens which cause motor hypoactivity. The experiments show that as compared to ORG 2766 the peptides HOE 427 and ORG 31433 induce qualitatively similar responses but are approximately 10 to 100 times more potent. These data may imply that substitution of the C-terminal COOH group of ORG 2766 yields neuropeptides with increased potency.     

Binding characteristics of dermorphin, and [dermorphin1-7]-beta c-endorphin in rat brain membranes

Dermorphin and a camel beta-endorphin (beta c-EP) analog in which residues 1-7 correspond to the dermorphin sequence ([Dermorphin1-7]-beta c-EP) have been investigated with respect to their receptor binding characteristics using human and camel beta-EP as reference peptides. Tritiated dihydromorphine, [D-Ala2, D-Leu5]-enkephalin, ethylketocyclazocine and human beta-endorphin were used as primary ligands in the rat brain membrane preparation for radioreceptor assay. Camel beta-endorphin was the most potent peptide in all experiments. [Dermorphin1-7]-beta c-EP is significantly less potent towards 3H-ethylketocyclazocine and 3H-[D-Ala2, D-Leu5]-enkephalin but is as potent towards 3H-dihydromorphine and 3H-human beta-endorphin. Dermorphin itself weakly displaces tritiated dihydromorphine, [D-Ala2, D-Leu5]-enkephalin and ethylketocyclazocine (potency relative to camel beta-EP, 1-4%) but it is more potent (9%) in competition with tritiated human beta-endorphin. Dermorphin and the [Dermorphin-1-7]-beta c-EP appear to interact preferentially with mu opiate receptors.     

Nuclear magnetic resonance study of side-chain conformation of phenylalanine residue in [Met5]-enkephalin: solvent, pH, and temperature dependence.

[Met5]-Enkephalin and N-acetylphenylalanine methylamide containing (2S,3S)-[2,3-2H2]Phe were synthesized 270 MHz 1H NMR spectra of the normal and selectively deuterated species were analysed. The lower-field and higher-field beta-proton signals of the Phe4 residue of [Met5]-enkephalin were unambiguously assigned to the pro-S and pro-R protons, respectively. The same assignments apply to N-acetylphenylalanine methylamide in polar organic solvents and in 2H2O, but the alternative assignments apply in C2HCl3. For [Met5]-enkephalin, the vicinal spin coupling constants 3JalphabetaS and 3 JalphabetaR and the rotamer populations around the Calpha-Cbeta bond were determined in a variety of solvents. From the pH and temperature dependences of rotamer populations of [Met5]-enkephalin, the side-chain conformation of the Phe residue in 2H2O solution was found to be considerably different from that in (C2H3)2SO solution. Rotamer populations of the Phe4 residue of [Met5]-enkephalin in organic solvents depend on solvent polarity. As compared with the reference model molecule of N-acetylphenylalanine methylamide, the rotamer populations of Phe4 of [Met5]-enkephalin are affected possibly by steric repulsion with other residues; the rotamer I is primarily favored but the rotamer II is appreciably destabilized in weakly polar solvents.     

Mu1: a very high affinity subtype of enkephalin binding sites in rat brain

Displacement studies of [3H]-[D-Ala2-MePhe4-Gly-ol5]-enkephalin ([3H]-DAGO) and [3H]-[D-Ala2-D-Leu5]-enkephalin ([3H]-DADL) by the corresponding unlabeled ligands show that there are at least three classes of sites which bind these enkephalin analogs with high affinity. Using computer modeling, the introduction of the third site significantly improved the goodness of fit in ten consecutive experiments. These sites appear to correspond to the mu, delta and mu 1 sites, with mean dissociation constants of 11, 1.3 and 0.9 nM for DADL and 2.5, 300 and 0.3 nM for DAGO, respectively.     

Radioiodinated [D-Ala2, Met5] enkephalin. Preparation, purification by high performance liquid chromatography and binding characteristics

125I[D-Ala2, Met5] enkephalin with high specific activity (122-185 Ci/mmol) was prepared and purified by Sep-Pak C18 reverse phase cartridge followed by high performance liquid chromatography (HPLC). HPLC at pH 3.0 resolved 125I[D-Ala2, Met5] enkephalin into two fractions, which ran as a single spot in thin-layer chromatography with the same Rf values. Alkaline hydrolysates of the HPLC-purified fractions showed a single spot corresponding to monoiodotyrosine standard when analysed by thin-layer chromatography. Binding kinetics of the tracer was found to approach equilibrium after 30 min at 24 degrees. Scatchard analysis of the saturation equilibrium binding studies gave an equilibrium dissociation constant of 3.58 nM and the number of binding site of 30 fmol/mg protein. Enkephalin analogs were capable of displacing 125I[D-Ala2, Met5] enkephalin binding from the rat brain plasma membrane. The effective concentration of [D-Ala2, Met5] enkephalin and [D-Ala2, Leu5] enkephalin for 50% inhibition of 125I[D-Ala2, Met5] enkephalin binding was estimated to be 79 nM and 23 nM, respectively. Both substance P and gastrin tetrapeptide failed to displace the 125I[D-Ala2, Met5] enkephalin binding to any significant extent. The 125I[D-Ala2, Met5] enkephalin prepared by the present procedure is therefore a useful tracer. This method of preparing radioiodinated peptide may be applicable to other enkephalin analogs or neuropeptides in general.     

Photoreactive enkephalin analogue: [D-Ala2, p-N3-Phe4-Met5]-enkephalin. Synthesis, purification by high performance liquid chromatography and characterization

A photoreactive [D-Ala2, p-N3-Phe4-Met5]enkephalin was synthesized by classical solution peptide synthetic methods. The hydroxysuccinimide ester was used in all the coupling steps in the presence of a weak base, triethylamine. The deprotected enkephalin analogue was purified on high performance liquid chromatography using a Waters, C18 muBondapak reverse phase column and its purity was assessed by thin-layer chromatography. The composition of the analogue was determined and confirmed by elemental analysis and amino acid analysis. Its photoreactivity was demonstrated by the time dependent ultraviolet spectral changes on exposure to light. Competition receptor binding showed that [D-Ala2, p-N3-Phe4-Met5]enkephalin was 4-fold more potent than [D-Ala2, Met5]-enkephalin in competing for binding to the enkephalin binding site. The data presented suggest that this photoreactive enkephalin analogue may be suitable for use in the in situ photoaffinity labeling of the enkephalin receptor.     

Further Characterization of an Enkephalin-Generating Enzyme from Adrenal Medullary Chromaffin Granules

An adrenomedullary protease capable of generating Met5-enkephalin from endogenous precursor(s) has been purified 1,000-fold using affinity chromatography in combination with gel filtration. This trypsin-like enzyme has an apparent molecular weight of 20,000 daltons by gel filtration. The reactivity of the enzyme toward several fluorogenic peptides, Peptides E and F, and the heptapeptides, Met5-enkephalin-Arg6-Phe7 and Met5-enkephalin-Arg6-Arg7, was examined. The two heptapeptides and the fluorogenic compounds were poor substrates for the adrenal enzyme; in contrast, Peptides E and F were cleaved. The low molecular weight products of Peptide F digestion were identified by HPLC as Arg1-Met6-enkephalin, Met5-enkephalin, and Met5-enkephalin-Lys6, while digestion of Peptide E resulted in the production of Leu5-enkephalin and Met5-enkephalin-Arg6-Arg7. [3H]-beta m-Lipotropin was not hydrolyzed by the adrenal enzyme. These results indicate that this adreno-medullary protease is capable of cleaving adrenal opioid peptides at the paired basic sites and thus represents a possible candidate for a proenkephalin-converting enzyme.     

Experimental attempt to simulate receptor site environment. A 500-MHz 1H nuclear magnetic resonance study of enkephalin amides

The amides of Leu5-enkephalin, Met5-enkephalin, and three analogues, D-Ala2,Leu5-enkephalin, (AcO)Tyr1,Met5-enkephalin, and (AcO)Tyr1,D-Ala2,Met5-enkephalin, have been studied by means of 1H NMR spectroscopy in two different solvent systems: Me2SO-d6 and CDCl3. In the latter solvent the peptides were dissolved as complexes with 18-crown-6-ether, a coronand that binds strongly to the NH3+ groups. The crown ether complexation and the apolar solvent were used to simulate the anionic subsite of the receptor and the hydrophobic environment of the receptor cavity, respectively. The very unusual amide proton chemical shifts and their temperature coefficients suggest the presence of folded conformations in CDCl3 for all peptides, consistent with several models of opioid receptors and with the crystal structure of Leu5-enkephalin. The differences among the proposed cyclic conformations of the five peptides may be correlated, in part, with their different biological activity. All peptides in Me2SO-d6 are characterized by complex mixtures of extended fully solvated conformations.     

Proton magnetic resonance studies on [methionine]-enkephalin and beta-endorphin in aqueous solution

Proton magnetic resonance studies of [Met5]-enkephalin (lipotropin 61-65) in aqueous solution indicate a conformational preference for the pentapeptide backbone. The structural differences between [Met5]-enkephalin and other, more flexible peptides have been investigated using paramagnetic probe techniques. An outline structure for beta-endorphin (lipotropin 61-91) in aqueous solution is obtained from binding studies using Gd(III) as a relaxation probe.     

New antagonists of LHRH. II. Inhibition and potentiation of LHRH by closely related analogues

Modifications of the previously described LHRH antagonists, [Ac-D-Nal(2)1, D-Phe(4Cl)2, D-Trp3, D-Cit6, D-Ala10]LHRH and the corresponding D-Hci6 analogue, have been made to alter the hydrophobicity of the N-terminal acetyl-tripeptide portion. Substitution of D-Trp3 with the less hydrophobic D-Pal(3) had only marginal effects on the antagonistic activities and receptor binding potencies of the D-Cit/D-Hci6 analogues, but it appeared to further improve the toxicity lowering effect of D-Cit/D-Hci6 substitution. Antagonists containing D-Pal(3)3 and D-Cit/D-Hci6 residues, i.e. [Ac-D-Nal(2)1, D-Phe(4Cl)2, D-Pal(3)3, D-Cit6, D-Ala10]LHRH (SB-75) and [Ac-D-Nal(2)1, D-Phe(4Cl)2, D-Pal(3)3, D-Hci6, D-Ala10]LHRH (SB-88), were completely free of the toxic effects, such as cyanosis and respiratory depression leading to death, which have been observed in rats with the D-Trp3, D-Arg6 antagonist and related antagonists. Replacement of the N-acetyl group with the hydrophilic carbamoyl group caused a slight decrease in antagonistic activities, particularly in vitro. Introduction of urethane type acyl group such as methoxycarbonyl (Moc) or t-butoxycarbonyl (Boc) led to analogues that showed LHRH-potentiating effect. The increase in potency induced by these analogues, e.g. [Moc-D-Nal(2)1, D-Phe(4Cl)2, D-Trp3, D-Cit6, D-Ala10]LHRH and [Boc-D-Phe1, D-Phe(4Cl)2, D-Pal(3)3, D-Cit6, D-Ala10]LHRH, was 170-260% and persisted for more than 2 h when studied in a superfused rat pituitary system.     

Development of a potent bombesin receptor antagonist with prolonged in vivo inhibitory activity on bombesin-stimulated amylase and protein release in the rat.

Of the various types of potent bombesin(Bn)/gastrin releasing peptide receptor antagonists that have been discovered, the desMet14-methyl ester peptides are devoid of residual agonist activity and are among the most potent in terms of in vitro receptor blockade and also in terms of their prolonged inhibition of bombesin-stimulated amylase and protein release in the rat. We have now examined the in vitro and in vivo properties of a new series of methyl ester analogues, [D-Phe6]Bn(6-13)OMe, [D-Phe6,D-Ala11]Bn(6-13)OMe, N alpha-propionyl-[D-Ala24]GRP(20-26)OMe, and [D-pentafluoro-Phe6,D-Ala11]Bn(6-13)OMe, which have an additional D-amino acid substituent and some highly lipophilic moieties at the N-terminus. All analogues were able to potently antagonize the ability of Bn to stimulate amylase release from rat acinar cells, with IC50 values of 2.4, 2.5, 0.6, and 1.3 nM, respectively. The four peptides were found to have binding affinities for these cells comparable to Bn itself, with K(i)s of 10.3, 2.8, 5.5, and 3.6 nM, respectively, but all had little or no affinity for neuromedin B receptors on murine C6 cells. Single bolus IV injections of these peptides were found to potently inhibit amylase and protein release caused by IV infusion of bombesin into the rat. Generally the peptides containing the D-Ala substituent were longer acting than [D-Phe6]Bn(6-13)OMe, so that [D-Phe6,D-Ala11]Bn(6-13)OMe and N alpha-propionyl-[D-Ala24]GRP(20-26)OMe displayed significant inhibitory effects for up to 1.5 h after administration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Parellel inhibition of LH-RH-induced cyclic AMP accumulation and LH and FSH release by LH-RH antagonists in vitro.

The relative potencies of seven antagonists of LH-RH to inhibit LH-RH-induced cyclic AMP accumulation and LH and FSH release were measured using rat hemipituitaries in vitro. At appropriate concentrations, [Des-His2, D-Ala6] LH-RH, [Des-His2, D-Ala6, des-Gly-NH210] LH-RH ethylamide, [Des-His2, D-Leu6] LH-RH, [D-Phe2] LH-RH, [Des-His2, Des-Gly-NH210] LH-RH propylamide, [D-Phe2, D-Leu6] LH-RH and [D-Phe2, D-Phe6] LH-RH led to parallel inhibition of cyclic AMP accumulation and LH and FSH release. [D-Phe2, D-Leu6] LH-RH and [D-Phe2, D-Phe6] LH-RH can inhibit 50% of LH-RH action at molar ratios of 100 and 30, respectively. These findings of parallel changes of cyclic AMP levels and LH and FSH release add strong support to the already obtained evidence for a mediator role of the adenylate cyclase system in the action of LH-RH in the anterior pituitary gland.