Identification of N-acetylglucosamine binding residues in Griffonia simplicifolia lectin II

Primary structure and crystallographic data of several legume lectins were used to predict the involvement in carbohydrate binding of six amino acid residues (Asp⁸⁸, Glu¹⁰⁸, Tyr¹³⁴, Asn¹³⁶, Leu²²⁶ and Gln²²⁷) in Griffonia simplicifolia lectin II (GS-II). The functional involvement of these residues was evaluated by assessing GlcNAc binding of modified forms of GS-II in which these residues were eliminated in truncated peptides or systematically substituted with other amino acids by site-specific mutations. Mutations at (Asp⁸⁸, Tyr¹³⁴ or Asn¹³⁶ eliminated GlcNAc binding activity by GS-II, while those at Glut¹⁰⁸, Leu²²⁶ or Gln²²⁷ did not alter the activity. The former three amino acids were functionally essential for carbohydrate binding by GS-II presumably through hydrogen bonding to and hydrophobic interactions with GlcNAc. Although an Asp or Gly substitution for Tyr¹³⁴ eliminated GlcNAc affinity, substitution with Phe did not appreciably affect binding. Despite the fact that mutations to Leu²²⁶ and Gln²²⁷ did not alter carbohydrate binding, a truncated form of GS-II lacking these residues no longer exhibited carbohydrate binding affinity.     

Importance of the proline residue to the functional activity and metabolic stability of the nematode FMRFamide-related peptide, KPNFIRFamide (PF4)

PF4 has previously been shown to have potent inhibitory effects on myoactivity of somatic muscle strips from the nematode, Ascaris suum. This study examined the bioactivity and metabolic stability of position 2- and position 5-modified analogues of PF4. Although the analogues [Leu⁵]PF4, [Ala²]PF4, [Gly²]PF4, [Ala²,Leu⁵]PF4, and [Gly²,Leu⁵]PF4 all had qualitatively similar inhibitory effects on A. suum somatic muscle strips, their effects were quantitatively distinguishable and had the order of potency: PF4 = [Leu⁵]PF4 [Al²]PF4 = [Ala²,Leu⁵]PF4 [Gly²]PF4 = [Gly²,Leu⁵]PF4. Leu⁵ for Ile⁵ substitutions in PF4 did not alter the activity of this peptide; however, Gly²/Ala² for Pro² substitutions reduced, bud did not abolish, peptide activity. Peptide stability studies revealed that [Gly²]PF4(2–7) and -(3–7) and [Ala²]PF4(2–7), -(3–7), and -(4–7) fragments were generated following exposure to A. suum somatic muscle strips. However, the parent peptide (PF4) was not metabolized and appeared to be resistant to the sequential cleavages of native aminopeptidases. Observed analogue metabolism appeared to be due to the activity of released aminopeptidases as identical fragments were generated by incubation in medium that had been exposed to somatic muscle strips and from which the strips had been removed prior to peptide addition. It was found that the muscle stretching and bath mixing characteristics of the tension assay led to more effective release of soluble enzymes from muscle strips and thus greater peptide degradation. These studies reveal that Pro² in PF4 is not essential for the biological activity of this peptide; however, it does render the peptide resistant to the actions of native nematode aminopeptidases.     

Structure-activity relationships of trout bradykinin ([Arg(0),Trp(5),Leu(8)]-bradykinin)

Trout bradykinin ([Arg⁰,Trp⁵,Leu⁸]-BK) produces sustained and concentration–dependent contractions of isolated longitudinal smooth muscle from trout stomach, although mammalian BK is without effect. Circular dichroism studies have demonstrated that trout BK, unlike mammalian BK, does not adopt a stable β-turn conformation, even in the presence of sodium dodecyl sulfate (SDS) or trifluoroethanol. The myotropic actions of a series of analogs in which each amino acid in trout BK was replaced by either alanine or the corresponding D-isomer were investigated. The peptides with Ala⁴, D-Pro³, D-Trp⁵, D-Ser⁶, and D-Pro⁷ substitutions were inactive and did not act as antagonists of trout BK. The analog with [Ala⁵] was a weak partial agonist. The substitution (Arg⁰ → Ala) led to >50-fold decrease in potency but, in contrast to the importance of Phe⁸ in both BK and desArg⁹-BK in activating the mammalian B₂ and B₁ receptors respectively, substitutions at Leu⁸ in trout BK had only a minor effect on potency. Antagonists to the mammalian B₂ receptor generally contain a D-aromatic amino acid at position 7 of BK but the analog [Arg⁰,Trp⁵,D-Phe⁷,Leu⁸]-BK was a weak agonist at the trout receptor. Similarly, the potent nonpeptide mammalian B₂ receptor antagonist FR173657 was without effect on the action of trout BK. These data suggest the hypothesis that the receptor binding conformation of trout BK is defined by the central region (residues 3–7) of the peptide but is adopted only upon interaction with the receptor. The bioactive conformation is probably stabilized by an ionic interaction between Arg⁰ in the peptide and an acidic residue in the receptor.     

Degradation of cholecystokinin octapeptide by the neutral endopeptidase EC 3.4.24.11 and design of proteolysis-resistant analogues of the peptide

Inactivation of cholecystokinin octapeptide in vitro involves a metalloendopeptidase (EC 3.4.24.11) also called enkephalinase that inactivated the peptide both by a sequential pathway of hydrolysis (removal of Phe-NH₂ followed by cleavage of Trp-Met-Asp) and by an endopeptidase action (production of the tetrapeptides).

As enkephalinase cleaved CCK-8 at the Gly⁴-Trp⁵, Trp⁵-Met⁶ and Asp⁷-Phe⁸ bonds, we investigated the stability of analogues having: (1) substitutions of amino acids by a stereoisomer, (2) a substitution of Asp⁷ by a β Ala residue and (3) modifications of the Trp residue obtained by replacing the nitrogen atom in the indol ring by either an oxygen ([Bfa⁵]CCK-8) or a sulphur atom ([Bta⁵]CCK-8). Among these different CCK derivatives, [βAla⁷], [ Met⁶] and [ Trp⁵]CCK-8 were not hydrolyzed by enkephalinase: [ Ala^d]CCK-8 was rapidly cleaved by the enzyme. [Bta⁵] and [Bfa⁵]CCK-8 did not prove to be quite resistant; however the C-terminal tetrapeptides having the same modifications on the Trp residue were not cleaved although they interacted with the enzyme binding site. The stability and biological activity of the peptidase-resistant analogues of CCK-8 remain to be determined in vivo.     

The enzyme stability of dehydro-enkephalins

Dehydro-enkephalins [ΔAla²]-, [ΔAla³]-, [ΔPhe⁴]-, and [ΔLeu⁵]enkephalins, were examined for their stability to enzymatic hydrolysis by carboxypeptidase Y [EC 3.4.16.1]. The successively liberated amino acids were determined quantitatively by amino acid analyses. The saturated leucine-enkephalin was rapidly hydrolyzed from the COOH-terminus. However, peptide linkages with ,β-dehydroamino acid residues placed in the enkephalin molecule were strongly resistant to the enzyme at the carboxyl side and completely resistant at the amino side of the dehydro residue.     

Structure-activity studies on different modifications of nociceptin/orphanin FQ: identification of highly potent agonists and antagonists of its receptor

Nociceptin/orphanin FQ (N/OFQ) and its receptor system modulate a variety of biological functions and further understandings of physiological and pathological roles of this system require new potent agonists and antagonists of its receptor. Two series of N/OFQ related analogues were synthesized to investigate the relationship of different modifications. We combined modifications including: (a) Phe⁴→(pF)Phe⁴; (b) Ala⁷, Ala¹¹→Aib⁷, Aib¹¹; (c) Leu¹⁴, Ala¹⁵→Arg¹⁴, Lys¹⁵. Compared with the first series, N-terminus of the second series was changed from Phe¹ to Nphe¹. All the analogues were amidated at C-terminus. These compounds were tested in binding studies on rat brain membranes and mouse vas deferens assay. Results indicated that the compounds of the first series showed higher affinity and potency than N/OFQ (pK_i = 9.33; pEC₅₀ = 7.50). In particular, [(pF)Phe⁴, Aib⁷, Aib¹¹, Arg¹⁴, Lys¹⁵] N/OFQ-NH₂ was found to be a highly potent agonist with pK_i = 10.78 in binding studies and pEC₅₀ = 9.37 in mouse vas deferens assay. The second series all competitively antagonized the effects of N/OFQ in mouse vas deferens assay. [Nphe¹, (pF)Phe⁴, Aib⁷, Aib¹¹, Arg¹⁴, Lys¹⁵] N/OFQ-NH₂ was the best antagonist with pA₂ = 8.39 and showed high binding affinity with pK_i = 9.99. Thus modifications which increase the potency of agonist have synergistic effect on biological activity and a replacement of N-terminus leads to shift of analogues from agonist to antagonist.     

Membrane active antitumor activity of NK-18, a mammalian NK-lysin-derived cationic antimicrobial peptide

As the increasing emergence of multi-drug resistant tumor cells, there is an urgent need for developing new chemotherapeutic agents. NK-lysin was a novel effector of cytotoxic T cells and natural killer (NK) cells and had broad antimicrobial activity. In this study, we developed a core region of NK-lysin termed NK-18, and studied its antitumor activity and possible action mode. Our results showed that NK-18 (with 18 amino acids) possesses potent antitumor activity against bladder and prostate cancer cells by disrupting the integrity of cell membrane, but has negligible hemolysis activity against mouse erythrocytes. In addition, CD spectra was employed to study its conformation in membrane mimicking environment. NK-18 takes a standard α-helical conformation in membrane mimicking environment, which could be accounted for its more potent antitumor activity compared with its low α-helical content homologous derivatives. These findings together with its shorter amino acid sequence and lower synthesis cost suggest that NK-18 could present an alternative therapeutic strategy to cancer chemotherapy and play a promising role in fighting the multi-drug resistant tumors.     

A novel metalloprotease from Bacillus cereus for protein fibre processing

A novel protease produced by Bacillus cereus grown on wool as carbon and nitrogen source was purified. B. cereus protease is a neutral metalloprotease with a molecular mass of 45.6 kDa. The optimum activity was at 45 °C and pH 7.0. The substrate specificity was assessed using oxidized insulin B-chain and synthetic peptide substrates. The cleavage of the insulin B-chain was determined to be Asn³, Leu⁶, His¹⁰-Leu¹¹, Ala¹⁴, Glu²¹, after 12 h incubation. Among the peptide substrates, the enzyme did not exhibit activity towards ester substrates; with p-nitroanilide, the kinetic data indicate that aliphatic and aromatic amino acids were the preferred residues at the P₁ position. For furylacryloyl peptides substrates, which are typical substrates for thermolysin, the enzyme exhibited high hydrolytic activity with a K_m values of 0.858 and 2.363 mM for N-(3-[2-Furyl]acryloyl)-Ala-Phe amide and N-(3-[2-Furyl]acryloyl)-Gly-Leu amide, respectively. The purified protease hydrolysed proteins substrates such as azocasein, azocoll, keratin azure and wool.     

Membrane active antimicrobial activity and molecular dynamics study of a novel cationic antimicrobial peptide polybia-MPI,from the venom of Polybia paulista

As the frequent emergence of the resistant bacteria, the development of new agents with a new action mode attracts a great deal of interest. It is now widely accepted that antimicrobial peptides (AMPs) are promising alternatives to conventional antibiotics. In this study, antimicrobial peptide polybia-MPI and its analogs were synthesized and their antibacterial activity was studied. Our results revealed that polybia-MPI has potent antibacterial activity against both Gram-positive and Gram-negative bacteria. Its ability to make PI permeate into bacteria and lead to the leakage of calcein from model membrane LUVs, suggests a killing mechanism involving membrane perturbation. SEM and TEM microscopy experiments verified that the morphology of bacteria was changed greatly under the treatment of polybia-MPI. Compared with the conventional chemotherapy, polybia-MPI targets the cell membrane rather than entering into the cell to exert its antibacterial activity. Furthermore, molecular dynamics (MD) simulations were employed to investigate the mechanism of membrane perturbation. The results indicated that the α-helical conformation in the membrane is required for the exhibition of antibacterial activity and the membrane disturbance by polybia-MPI is a cooperative process. In conclusion, with the increasing resistance to conventional antibiotics, there is no doubt that polybia-MPI could offer a new strategy to defend the resistant bacteria.     

Further studies on the structural requirements for mast cell degranulating (MCD) peptide-mediated histamine release

Mast cell degranulating (MCD) peptide was modified in its two disulfide bridges and in the two arginine residues in order to measure the ability of these analogs to induce histamine release from mast cells in vitro. Analogs prepared were [Ala^3,15]MCD, [Ala^5,19]MCD, [Orn¹⁶]MCD, and [Orn^7,16]MCD. Their histamine-releasing activity was determined spectrofluorometrically with peritoneal mast cells. The monocyclic analogs in which the cysteine residues were replaced pairwise with alanine residues showed three-to ten-fold diminished histamine-releasing activity respectively, compared with the parent MCD peptide. Substantial increases in activity were observed where arginine residues were replaced by ornithines. The ornithine-mono substituted analog showed an almost six-fold increase and the ornithine-doubly substituted analog three-fold increase in histamine-releasing activity compared with the parent MCD peptide. The structural changes associated with these activities were followed by circular dichroism (CD) spectroscopy. Changes in the shape and ellipticity of the CD spectra reflected a role for the disulfide bonds and the two arginine residues in the overall conformation and biological activity of the molecule.     

A radioimmunoassay specific for [Gln]LH-RH: Application in the confirmation of the structure of chicken hypothalamic luteinizing hormone-releasing hormone

In the first report on the chemical structure of a nonmammalian LH-RH, chicken hypothalamic LH-RH was demonstrated to be [Gln⁸]LH-RH [2–4]. However, these studies and subsequent reports [7,8] did not totally exclude the possibility of a reverse sequence of the two amino acids Leu-Gln. In view of the recently described structure of salmon brain LH-RH as [Trp⁷,Leu⁸]LH-RH [9], we undertook to confirm our earlier conclusion that chicken LH-RH is [Gln⁸]LH-RH and not [Gln⁷,Leu⁸]LH-RH. The immunologic, chromatographic and biological properties of natural chicken hypothalamic LH-RH were compared with those of the two synthetic peptides, [Gln⁸]LH-RH and [Gln⁷,Leu⁸]LH-RH. A radioimmunoassay highly specific for [Gln⁸]LH-RH was developed. Natural chicken LH-RH cross-reacted fully with the antiserum which requires the COOH-terminal Gln⁸ to Gly¹⁰-NH₂ for binding, while [Gln⁷,Leu⁸]LH-RH showed less than 0.1% cross-reaction. On a high resolution reverse phase high performance liquid chromatography system, natural chicken LH-RH co-eluted with [Gln⁸]LH-RH and was well separated from [Gln⁷,Leu⁸]LH-RH. In a chicken anterior pituitary cell bioassay, natural chicken LH-RH and [Gln⁸]LH-RH were equipotent in stimulating luteinizing hormone release, while the relative potency of [Gln⁷,Leu⁸]LH-RH was 4.4%. These data, in particular the use of a specific [Gln⁸]LH-RH antiserum, provide conclusive evidence that chicken LH-RH is [Gln⁸]LH-RH.     

Novel stable PACAP analogs with potent activity towards the PAC1 receptor

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a 38- or 27-amino acid neuropeptide with promising therapeutic applications for the treatment of several pathophysiological states related to neurodegenerative diseases. However, its use for therapeutic applications is actually limited by its restricted bioavailability and rapid degradation. Therefore, metabolically stable PACAP analogs represent promising tools to further investigate the physiological roles of PACAP and ascertain its usefulness in some clinical conditions. In this study, derivatives of PACAP27 and PACAP38 have been rationally designed to develop PAC1 receptor agonists resistant to peptidase action. Results showed that N-terminal modifications confer resistance to dipeptidyl peptidase IV, a major proteolytic process involved in PACAP degradation. Moreover, in vitro incubation of both PACAP isoforms in human plasma revealed that PACAP38 is rapidly metabolized, with a half-life of less than 5 min, while PACAP27 was stable in these experimental conditions. Hence, following the elucidation of its plasmatic metabolites, PACAP38 was modified at its putative endopeptidase and carboxypeptidase sites of cleavage. All peptide analogs were tested for their ability to bind the PAC1 receptor, as well as for their potency to induce calcium mobilization and inhibit PC12 cell proliferation through the PAC1 receptor. This approach revealed two leading compounds, i.e. acetyl-[Ala¹⁵, Ala²⁰]PACAP38-propylamide and acetyl-PACAP27-propylamide, which exhibited improved metabolic stability and potent biological activity. This study describes innovative data related to PACAP metabolism in human plasma and depicts the development of a metabolically stable PACAP38 analog, acetyl-[Ala¹⁵, Ala²⁰]PACAP38-propylamide, which behaves as a super-agonist towards the PAC1 receptor.     

Properties of amino-terminal parathyroid hormone-related peptides modified at positions 11–13

Biological properties of amino-terminal PTHrP analogues modified in the region 11–13 were examined using ROS 17/2.8 cells. [Leu¹¹,D-Trp¹²,Arg¹³,Tyr³⁶]PTHrP(1–36)amide had a 17-fold lower binding affinity for the receptor (apparent K_d: 5 × 10⁻⁸ M) than [Tyr³⁶]PTHrP(1–36)amide or [Arg^11,13,Tyr³⁶]PTHrP(1–36)amide (apparent K_d for both: 2 × 10⁻⁹ M). Moreover, it is only a weak partial agonist despite completely inhibiting radioligand binding. [Leu¹¹,D-Trp¹²,Arg¹³,Tyr³⁶,Cys³⁸]PTHrP(7–38) and PTHrP(7–34)amide had similar receptor affinities (apparent K_ds: 5 × 10⁻⁸ M and 8 × 10⁻⁸ M), while that of [Nle^8,18,Tyr³⁴]bPTH(7–34)amide was more than 10-fold lower (apparent K_d: 2 × 10⁻⁶ M). These changes in biological properties suggest that high affinity receptor binding requires both amino- and carboxyl-terminal domains of the PTHrP(1–36) sequence and/or intramolecular interactions which are impaired by the D-Trp substitution for Gly¹².     

Influence of Proline Substitution on the Bioactivity of Mammalian-Derived Antimicrobial Peptide NK-2

Multidrug-resistant bacteria are emerging as a global threat, making the search for alternative compounds urgent. Antimicrobial peptides (AMPs) became a promising hotspot due to their distinct action mechanism and possibility to be used as an alternative or complement to traditional antibiotics. However, gaining a better understanding about the relationship between antimicrobial peptides structure and its bioactivity is crucial for the development of next generation of antimicrobial agents. NK-2, derived from mammalian protein NK-lysin, has potent antitumor and bactericidal abilities. As proline was considered to be an effective α-helix breaker due to its restricted conformation, to better comprehend the effects of proline in the structure-activity relationship of NK-2, we constructed two NK-2 analogs. We examined the biological activities of NK-2 and its proline substitution analogs and analyzed the resulting conformational changes. Our results showed that introducing proline into the primary sequence of NK-2 significantly decreased the antitumor, antibacterial, and cytotoxic effects, as well as DNA binding activity by changing the α-helix content. However, α-helical content was not the only determining factor, the position of proline inserted was also critical. This study will allow for clearer insight into the role of proline in structure and bioactivity of NK-2 and provide a foundation for future studies.     

NPY and NPY Y1 receptor effects on noradrenaline overflow from the rat brain in vitro

Neurotransmitters and neuropeptides play important roles in the regulation of various neuroendocrine functions particularly feeding. The aim of this study was to investigate whether a functional interaction occurs among neuropeptide Y (NPY) at NPY Y₁ receptors and noradrenaline overflow, as this may contribute to the regulation of appetite. The release of endogenous noradrenaline and its metabolite 3,4-dihydroxyphenylglycol (DHPG) were examined from hypothalamic and medullary prisms using the technique of in vitro superfusion and high performance liquid chromatography (HPLC) with coulometric detection. Noradrenaline and DHPG overflow was investigated at rest, in response to NPY (0.1 μM) and in response to the NPY Y₁ receptor agonist, [Leu³¹,Pro³⁴]NPY (0.1 μM). Perfusion with NPY and [Leu³¹,Pro³⁴]NPY significantly reduced noradrenaline overflow from the hypothalamus and medulla. Perfusion with NPY and [Leu³¹,Pro³⁴]NPY was without significant effect on hypothalamic DHPG overflow, while medullary DHPG overflow was significantly reduced by NPY and [Leu³¹,Pro³⁴]NPY. Results from this study provide evidence of NPY Y₁ receptor-mediated inhibition of noradrenaline release in the hypothalamus and medulla, further illustrating a complex interaction between neurotransmitters and neuropeptides within the rat brain.     

Highly potent and specific inhibitors of human renin

We have designed and synthesized a series of small peptides containing a perfluoroalkyl ketone group at the C-terminal position of the angiotensin I sequence as inhibitors of human renin. From this series of compounds, 8 and 10 showed strong inhibition of human renin (IC₅₀ = 3 × 10⁻⁹, 7 × 10⁻⁹ M, respectively). Compound 10 did not inhibit pepsin and cathepsin D at 10⁻⁴ M. Comparison of the IC₅₀ of compound 8 and compound 11 (8.7 × 10⁻⁷ M) demonstrated the marked effect of the perfluoropropyl group on the potency of inhibition on renin, presumably due to the strong electron-withdrawing effect causing the ketone in 8 to exist predominantly as the hydrate — thus mimicking the tetrahedral transition state during hydrolysis of the scissile Leu¹⁰—Val¹¹ amide bond.     

Inactivation of human plasma C1-inhibitor by human PMN leucocyte matrix metalloproteinases

Highly purified human polymorphonuclear (PMN) leucocyte matrix metalloproteinases, collagenase and gelatinase, cleaved human plasma C1-inhibitor at the carboxyl site of Ala⁴³⁹ (P₆). This led to a concomitant loss of C1-inhibitor activity. An additional cleavage site at the carboxyl site of Ser⁴⁴¹ (P₄), was observed during PMN leucocyte gelatinase-induced inactivation, and a minor fragment of the plasma C1-inhibitor was generated.     

Effects of somatostatin and a somatostatin agonist on diet-induced pancreatitis in mice

We examined the effects of somatostatin-14 and the potent somatostatin agonist (N-acetyl-[Des(Ala¹, Gly²),p-Cl-Phe⁶,D-Trp⁸]-somatostatin amide) on choline deficient, ethionine enrichèd diet (CDED)-induced acute pancreatitis in mice. Serum amylase determinations were performed, and specimens from the pancreas were examined by light and electron microscopy. No significant beneficial effects of somatostatin or its agonist were found in this model of acute pancreatitis.     

Isolation of a renin-like enzyme from the leech Theromyzon tessulatum

This article reports the purification of a renin-like enzyme (an aspartyl protease) from head parts of the leech Theromyzon tessulatum. After four steps of purification including gel permeation and anion exchange chromatographies followed by reversed-phase HPLC, this enzyme was purified to homogeneity. The renin-like enzyme (of 32 kDa) hydrolyses at neutral pH and at 37°C, the Leu¹⁰-Leu¹¹ bond of synthetic porcine angiotensinogen tetradecapeptide yielding the angiotensin I and the Leu¹¹-Val¹²-Tyr¹³-Ser¹⁴ peptide as products, with a specific activity of 1.35 pmol AI/min/mg (K_m 22 μM; K_cat 2.7). The hydrolysis of angiotensinogen is inhibitable at 90% by pepstatin A (IC₅₀ = 4.6 μM), consistent with a renin activity. This is the first biochemical evidence of renin-like enzyme in invertebrates.     

Pharmacological profile of the tachykinin receptor involved in the stimulation of corticosteroid secretion in the frog Rana ridibunda

It has recently been shown that the adrenal gland of the frog Rana ridibunda is densely innervated by a network of fibers containing two novel tachykinins, i.e. ranakinin (the counterpart of substance P) and [Leu³, Ile⁷]neurokinin A. Both ranakinin and [Leu³, Ile⁷]neurokinin A stimulate corticosteroid secretion from frog adrenal glands in vitro. In the present study, we have investigated the pharmacological profile of the receptors involved in the stimulatory action of ranakinin on perifused frog adrenal slices. The selective NK-1 receptor antagonists [ -Pro⁴, -Trp^7,9]substance P 4–11 and CP-96,345, did not affect the stimulatory action of ranakinin. The selective NK-1 agonist substance P 6–11 had no effect on corticosteroid secretion. The non-peptidic NK-1 receptor antagonist RP 67580 significantly reduced the stimulatory effect of ranakinin on corticosterone and aldosterone secretion by 57 and 55%, respectively. In addition, the dual NK-1/NK-2 receptor antagonist FK-224 significantly inhibited the effect of ranakinin on corticosterone (−80%) and aldosterone secretion (−95%). Finally, the amphiphilic analogue of substance P, [ -Pro², -Phe⁷, -Trp⁹]substance P, had no effect on corticosteroid secretion. These data suggest that in the frog adrenal gland the stimulatory action of ranakinin on steroid secretion is mediated by a novel type of receptor which differs substantially from the mammalian NK-1 receptor subtype.