Novel bradykinins and their precursor cDNAs from European yellow-bellied toad (Bombina variegata) skin.

Two novel bradykinin-related peptides (Ala3,Thr6)-bradykinin and (Val1,Thr3,Thr6)-bradykinin, were identified by a systematic sequencing study of peptides in the defensive skin secretion of the yellow-bellied toad, Bombina variegata. These peptides are the first amphibian skin bradykinins to exhibit amino acid substitutions at the Pro3 position of the bradykinin nonapeptide. Previously reported bradykinins from other Bombina species were not detected. Respective precursor cDNAs, designated BVK-1 and BVK-2, respectively, were cloned from a skin library by 3'- and 5'-RACE reactions. BVK-1 contained an open-reading frame of 97 amino acids encoding a single copy of (Ala3,Thr6)-bradykinin and similarly, the open-reading frame of BVK-2 consisted of 96 amino acids encoding a single copy of (Val1,Thr3,Thr6)-bradykinin. Synthetic replicates of each novel bradykinin were found to be active on mammalian arterial and small intestinal smooth muscle preparations. The structural diversity of bradykinins in amphibian defensive skin secretions may be related to defence against specific predators.     

The primary structures and myotropic activities of two tachykinins isolated from the African clawed frog,Xenopus laevis

Two peptides with limited structural similarity to mammalian substance P (SP) and neurokinin A (NKA) have been isolated from extracts of the intestine of the African clawed frog (Xenopus laevis). The primary structure of an SP-like peptide was established as: Lys-Pro-Arg-Pro-Asp-Gln-Phe-Tyr-Gly-Leu-Met.NH(2), which is identical to the previously characterized peptide, bufokinin isolated from the toad Bufo marinus. The primary structure of an NKA-related peptide was established as Thr-Leu-Thr-Thr-Gly-Lys-Asp-Phe-Val-Gly-Leu-Met.NH(2). Only the five amino acids at the C-terminal region of the peptide are identical to mammalian NKA whereas the N-terminal region shows no structural similarity to previously characterized tachykinins. Immunohistochemical investigations of the gut wall revealed a dense network of nerve fibres and nerve cell bodies containing SP/NKA-like substances. The myotropic effects of the Xenopus tachykinins were compared with the contractile effect of mammalian SP and NKA on isolated strips of circular smooth muscle from Xenopus stomach. No significant differences in potencies (-log EC(50)) or in intrinsic activities were observed between the Xenopus and mammalian peptides. The potencies for the Xenopus SP-like (8.49+/-0.15) and the NKA-like peptide (8.12+/-0.06) were similar suggesting that the amino acid sequence at the N-terminal region of the tachykinins is not important in activating the tachykinin receptors in Xenopus gastric smooth muscle. The maximum response to Xenopus SP (alpha=0.59+/-0.06) was significantly lower than to the NKA-like peptide (alpha=1.0) suggesting a more effective interaction of the NKA-like peptide with the tachykinin receptor(s) in Xenopus stomach.     

Bradykinins and their precursor cDNAs from the skin of the fire-bellied toad (Bombina orientalis)

Bradykinin and (Thr(6))-bradykinin have been identified in the defensive skin secretion of the fire-bellied toad, Bombina orientalis. The homologous cDNAs for both peptides were cloned from a skin library using a 3'- and 5'-RACE strategy. Kininogen-1 (BOK-1) contained an open-reading frame of 167 amino acid residues encoding four repeats of bradykinin, and kininogen-2 (BOK-2) contained an open-reading frame of 161 amino acid residues encoding two repeats of (Thr(6))-bradykinin. Alignment of both precursor nucleotide and amino acid sequences revealed a high degree of structural similarity. These amphibian skin kininogens/preprobradykinins are not biologically analogous to mammalian kininogens.     

Helokinestatin: a new bradykinin B2 receptor antagonist decapeptide from lizard venom

Synthetic bradykinin antagonist peptides/peptoids have been powerful tools for delineating the roles of kinins in both normal physiology and in pathological states. Here, we report the identification of a novel, naturally occurring bradykinin B2 receptor antagonist peptide, helokinestatin, isolated and structurally characterized from the venoms of helodermatid lizards-the Gila monster (Heloderma suspectum) and the Mexican beaded lizard (Heloderma horridum). The primary structure of the peptide was established by a combination of microsequencing and mass spectroscopy as Gly-Pro-Pro-Tyr-Gln-Pro-Leu-Val-Pro-Arg (Mr 1122.62). A synthetic replicate of helokinestatin was found to inhibit bradykinin-induced vasorelaxation of phenylephrine pre-constricted rat tail artery smooth muscle, mediated by the B2 receptor sub-type, in a dose-dependent manner. Natural selection, that generates functional optimization of predatory reptile venom peptides, can potentially provide new insights for drug lead design or for normal physiological or pathophysiological processes.     

Purification, structural characterization, and myotropic activity of a peptide related to des-Arg(9)-bradykinin from an elasmobranch fish, the little skate, Leucoraja erinacea

A bradykinin (BK)-related peptide was isolated from heat-denaturated plasma from an elasmobranch fish, the little skate, Leucoraja erinacea after incubation with porcine pancreatic kallikrein. The primary structure of the peptide (H-Gly-Ile-Thr-Ser-Trp-Leu-Pro-Phe-OH; skate BK) shows limited structural similarity to the mammalian B1 receptor agonist, des-Arg(9)-BK. The myotropic activities of synthetic skate BK, and the analog skate [Arg(9)]BK, were examined in isolated skate vascular and intestinal smooth muscle preparations. Skate BK produced a concentration-dependent constriction of the mesenteric artery (EC(50)=4.37x10(-8)M; maximum response=103.4+/-10.23% of the response to 60mM KCl) but the response to skate [Arg(9)]BK was appreciably weaker (response to 10(-6)M=73.0+/-23.4% of the response to 60mM KCl). Neither the first branchial gill arch nor the ventral aorta responded to either purified peptide. Skate BK also produced a concentration-dependent constriction of intestinal smooth muscle preparations (EC(50)=2.74x10(-7)M; maximum response 31.0+/-12.2% of the response to 10(-5)M acetylcholine). Skate [Arg(9)]BK was without effect on the intestinal preparation. The data provide evidence for the existence of the kallikrein-kinin system in a phylogenetically ancient vertebrate group and the greater potency of skate BK compared with the analog skate [Arg(9)]BK suggests that the receptor mediating vascular responses resembles the mammalian B1 receptor more closely than the B2 receptor.     

A novel bradykinin-related peptide from skin secretions of toad Bombina maxima and its precursor containing six identical copies of the final product

Amphibian skin contains rich bradykinin-related peptides, but the mode of biosynthesis of these peptides is unknown. In the present study, a novel bradykinin-related peptide, termed bombinakinin M, was purified from skin secretions of the Chinese red belly toad Bombina maxima. Its primary sequence was established as DLPKINRKGPRPPGFSPFR that comprises bradykinin extended from its N-terminus by a 10-residue segment DLPKINRKGP. The cDNA structure of bombinakinin M was found to contain a coding region of 624 nucleotides. The encoded precursor of bombinakinin M is composed of a signal peptide, an acidic peptide, six 100% identical copies of a 28-amino-acid peptide unit including bombinakinin M plus a spacer peptide. The sequence of bombinakinin M is preceded by a single basic residue (arginine), which represents the site of cleavage for releasing of mature bombinakinin M. This is the first cDNA cloning of bradykinin-related peptides from amphibian skin. The unique cDNA structure encoding bombinakinin M suggests that the generation modes of bradykinin-related peptides in amphibian skin and in mammalian blood system are different.     

Gene cloning and characterization of novel antinociceptive peptide from the brain of the frog, Odorrana grahami

Amphibian opiate peptides including dermorphins and deltorpins have been recently found only in the skin of South American frogs belonging to the subfamily Phyllomedusinae (Phyllomedusa, Agalychnis and Pachymedusa species). No opiate peptides have ever been identified from other amphibians or organs except skin. Here we report the purification and characterization of a novel antinociceptive peptide named odorranaopin from the homogenates of the frog brains, Odorrana grahami, which is also the first antinociceptive peptide found in Ranidae amphibian. Odorranaopin comprises 17 amino acid residues with the sequence of DYTIRTRLHQESSRKVL (Mr 2102 Da). The cDNA encoding odorranaopin was cloned from the frog brain cDNA library, and it was confirmed to be a specific gene. The odorranaopin precursor deduced is composed of 61 amino acid residues including the predicted signal peptide, acidic spacer peptide and mature odorranaopin positioned at the C-terminus. Odorranaopin could inhibit nociceptive responses induced by formalin and acetic acid. It also inhibited the contractile responses of ileum smooth muscle induced by bradykinin, implying that the antinociceptive activity of odorranaopin possibly results from its blockade on bradykinin or bradykinin receptor functions. Odorranaopin is the first antinociceptive peptide found in Ranidae amphibian.     

Kinestatin: a novel bradykinin B2 receptor antagonist peptide from the skin secretion of the Chinese toad, Bombina maxima

We have isolated a novel bradykinin B(2)-receptor antagonist peptide, kinestatin, from toad (Bombina maxima) defensive skin secretion. Mass spectroscopy established a molecular mass of 931.56 Da and a provisional structure: pGlu-Leu/Ile-Pro-Gly-Leu/Ile-Gly-Pro-Leu/Ile-Arg.amide. The unmodified sequence, -QIPGLGPLRG-, was located at the C-terminus of a 116-amino-acid residue open-reading frame following interrogation of a sequenced B. maxima skin cDNA library database. This confirmed the presence of appropriate primary structural attributes for the observed post-translational modifications present on the mature peptide and established residue 2 as Ile and residues 5/8 as Leu. Kinestatin represents a prototype novel peptide from amphibian skin.     

Isolation, structural characterization, and bioactivity of a novel neuromedin U analog from the defensive skin secretion of the Australasian tree frog, Litoria caerulea

We report the isolation of a novel bioactive peptide, neuromedin U-23 (NmU-23), from the defensive skin secretion of the Australasian tree frog, Litoria caerulea. The primary structure of the peptide was established by a combination of microsequencing, mass spectroscopy and site-directed antiserum immunoreactivity as SDEEVQVPGGVISNGYFLFRPRN-amide (M(r) 2580.6). A synthetic replicate of frog NmU-23 displaced monoradioiodinated rat NmU-23 from uterine membranes in a dose-dependent fashion indistinguishable from nonisotopically labeled rat NmU-23. In a rat uterine smooth muscle strip preparation, synthetic frog NmU-23 produced dose-dependent contractions identical to porcine NmU-25. However, in a preparation of human urinary bladder muscle strip, the synthetic frog peptide was more potent than porcine NmU-25 in eliciting contraction and produced desensitization of the preparation to the latter peptide. This report demonstrates that the defensive skin secretion of a frog contains a novel peptide exhibiting a high degree of primary structural similarity to the endogenous vertebrate peptide, NmU, and that this frog skin analog displays biological activity in mammalian tissues.     

Truncated atrial natriuretic peptide analogs. Comparison between receptor binding and stimulation of cyclic GMP accumulation in cultured vascular smooth muscle cells

A series of truncated atrial natriuretic peptide analogs were examined as a means of defining the structural requirements for receptor occupancy and stimulation of cyclic GMP accumulation in bovine aortic smooth muscle cells. It was determined that deletion of amino acids from the carboxyl and/or amino termini of the peptides diminished their ability to increase cyclic GMP levels. Deletion of amino acids from the carboxyl terminus had the greatest effect, and atrial natriuretic peptide analogs lacking the carboxyl-terminal phenylalanyl-arginyl-tyrosine tripeptide were 100-1000-fold less active than parent compounds in stimulating intracellular cyclic GMP accumulation. In marked contrast to the cyclic GMP effects, deletion of amino- and/or carboxyl-terminal amino acids had only minor effects on the affinity of the peptides for specific smooth muscle cell-associated receptors. Peptide analogs lacking the phenylalanyl-arginyl-tyrosine tripeptide bound to receptors with an affinity only 1.1-5-fold weaker than the parent compounds. Thus, there was no correlation between apparent receptor binding affinity of atrial natriuretic peptide analogs and potency of these same peptides for stimulating intracellular cyclic GMP accumulation. Furthermore, analogs that bound to receptors and failed to elicit significant cyclic GMP responses did not antagonize or modulate increases in cyclic GMP induced by parent compounds. These data are most consistent with the existence of multiple subpopulations of atrial natriuretic peptide receptors on aortic smooth muscle cells.     

PD-sauvagine: a novel sauvagine/corticotropin releasing factor analogue from the skin secretion of the Mexican giant leaf frog, Pachymedusa dacnicolor

Sauvagine is a potent and broad-spectrum biologically active peptide of 40 amino acid residues originally isolated from the skin of the South American frog, Phyllomedusa sauvagei. Since its discovery, no additional sauvagine structures have been reported. Following the discovery of sauvagine, peptides with similar primary structures/activities were identified in mammalian brain [corticotropin-releasing factor (CRF) and urocortin]. Here, we report the identification of a second sauvagine from the Mexican giant leaf frog, Pachymedusa dacnicolor, which displays primary structural features of both sauvagine and CRF. A cDNA encoding the peptide precursor was "shotgun" cloned from a cDNA library constructed from lyophilised skin secretion by 3'- and 5'-RACE reactions. From this, the primary structure of a 38-mer peptide was deduced and this was located in reverse phase HPLC fractions of skin secretion and both its mass and structure were confirmed by mass spectrometry. The biological activities of synthetic replicates of PD-sauvagine and sauvagine were compared using two different mammalian smooth muscle preparations and the novel peptide was found to be more potent in both. Bioinformatic analyses of PD-sauvagine revealed that it shared different regional sequence identities with both sauvagine and CRF.     

Bradykinin-related peptides, including a novel structural variant, (Val1)-bradykinin, from the skin secretion of Guenther's frog, Hylarana guentheri and their molecular precursors

Multiple bradykinin-related peptides including a novel bradykinin structural variant, (Val(1))-bradykinin, have been identified from the defensive skin secretion of Guenther's frog, Hylarana guentheri by a tandem mass spectrometry method. Subsequently, four different preprobradykinin cDNAs, which encoded multiple bradykinin copies and its structural variants, were consistently cloned from a skin derived cDNA library. These preprobradykinin cDNAs showed little structural similarity with mammalian kininogens and the kininogens from the skin of toads, but have regions that are highly conserved in the kininogens from another ranid frog, Odorrana schmackeri. Alignment of these preprobradykinins revealed that preprobradykinin 1, 2 and 3 may derive from a single gene by alternative exon splicing.     

Purification and characterization of bioactive peptides from skin extracts of Rana esculenta

The peptide fraction extracted by methanol from the skin of Rana esculenta, a species widely distributed in Western Europe, was investigated. The pharmacological activity found in the extract is attributable to the presence of authentic bradykinin, together with a shorter, partially active version of this molecule, des-Arg9-bradykinin. Also the bradykinin fragment 1-7 has been isolated, but it was inactive in our bioassay system. Moreover, a family of hydrophobic peptides has been purified and characterized, which appeared devoid of pharmacological activities when tested on smooth muscle preparations, but were provided with hemolytic activities.     

Histamine-releasing and antimicrobial peptides from the skin secretions of the dusky gopher frog, Rana sevosa

Seven novel peptides were isolated from the skin secretions of the North American dusky gopher frog, Rana sevosa, on the basis of antimicrobial activity and histamine release from rat peritoneal mast cells. The peptides were purified to homogeneity using HPLC and characterized by electrospray ion-trap mass spectrometry, MALDI-TOF mass spectrometry and Edman sequencing. Bioinformatic analysis of primary structures revealed that the novel peptides could be assigned to four established families of ranid frog antimicrobial peptides, namely esculentin-1, esculentin-2, brevinin-1 and ranatuerin-2. The peptides were named in accordance with accepted terminology as ranatuerin 2SEa, etc., reflecting the peptide family name, the species of origin (SE for sevosa) and the isotype (a). Of major interest was the fact that brevinin 1SE displayed significant structural similarity to ponericin W5, an antibacterial venom peptide from the ant, Pachyconyla goeldii. This is a further example of amphibian skin defensive peptides showing striking structural similarities to peptides from insects. These data may shed some light on the functional biological relevance of defensive peptides that possess both antimicrobial and histamine-releasing activities.     

Sink or swim: a test of tadpole behavioral responses to predator cues and potential alarm pheromones from skin secretions

Chemical signaling is a vital mode of communication for most organisms, including larval amphibians. However, few studies have determined the identity or source of chemical compounds signaling amphibian defensive behaviors, in particular, whether alarm pheromones can be actively secreted from tadpoles signaling danger to conspecifics. Here we exposed tadpoles of the common toad Bufo bufo and common frog Rana temporaria to known cues signaling predation risk and to potential alarm pheromones. In both species, an immediate reduction in swimming activity extending over an hour was caused by chemical cues from the predator Aeshna cyanea (dragonfly larvae) that had been feeding on conspecific tadpoles. However, B. bufo tadpoles did not detectably alter their behavior upon exposure to potential alarm pheromones, neither to their own skin secretions, nor to the abundant predator-defense peptide bradykinin. Thus, chemicals signaling active predation had a stronger effect than general alarm secretions of other common toad tadpoles. This species may invest in a defensive strategy alternative to communication by alarm pheromones, given that Bufonidae are toxic to some predators and not known to produce defensive skin peptides. Comparative behavioral physiology of amphibian alarm responses may elucidate functional trade-offs in pheromone production and the evolution of chemical communication.     

Isolation, partial purification and pharmacodynamics of a slow contractile substance in the venom sac extract of the wasp Vespa cincta Fabr

The venom of V. cincta contains acetylcholine (ACh), histamine and 5-hydroxytryptamine (5-HT). Blockers of these agonists did not block completely the hypotensive and smooth muscle contractile activity of venom. On smooth muscle, there was a residual slow contraction. The active substance which produced this slow contraction was separated by solvent extraction, gel filtration and TLC. The purified material (which has been provisionally designated "Vecikinin") lowered cat, rat and guinea pig blood pressure, increased amplitude of cardiac contraction, and increased capillary permeability. Vecikinin contracted several smooth muscle preparations (rat uterus, rat ascending colon, guinea pig ileum, guinea pig colon and rat ileum), while relaxing rat duodenum. Its contractile activity was not lost on boiling, but acid or alkali-boiling reduced its contractile activity. It was inactivated on incubation with chymotrypsin and carboxypeptidase but not with trypsin, pepsin or leucine aminopeptidase. It is a peptide, appears to be of low molecular weight, and could be distinguished from substance P, angiotensin, bradykinin and hornet or wasp kinin.     

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.     

Inhibition of the permeability response to vasopressin and oxytocin in the toad bladder: Effects of bradykinin,kallidin, eledoisin,and physalaemin

Summary It has been shown by means of Bentley'sin vitro preparation of the isolated urinary bladder of the toad,Bufo marinus paracnemis Lutz, that bradykinin reversibly inhibited the increase brought about by vasopressin on the permeability to water of the toad bladder. The increased hydro-osmotic response of the bladder to oxytocin was also inhibited by the kinin. The effect on water permeability was observed when bradykinin was added either to the serosal Ringer's solution or to the mucosal solution. The addition of bradykinin alone did not alter the basal osmotic water transfer across the bladder. In this context, bradykinin acted as a competitive antagonist of vasopressin (and oxytocin). Although lacking intrinsic activity, bradykinin exhibited affinity for receptor sites that are also common to the neurohypophysial hormones, causing a parallel shift of the log-dose/response curve for vasopressin without changing the maximal responses. The effects of other kinins (namely kallidin, eledoisin and physalaemin) on the toad bladder were also tested. Each of these drugs alone did not change the basal water flux across the bladder wall. Like bradykinin, these peptides inhibited the increase in water permeability evoked by vasopressin and oxytocin in the bladder. In view of the importance of neurohypophysial hormones and their target tissues to the osmotic homeostasis of amphibians, and the observation of antagonism between the kinins and the pituitary hormones coupled to the abundance of kinins in the amphibian organism, particularly in the skin and urinary bladder, teleological reasoning predicts a physiological role for the kinins, possibly functioning to dampen excesses and oscillations in membrane permeability that could occur in face of a constant and variable secretion of neurohypophysial hormone, thus adding to the homeostatic response of the amphibian organism.     

Biogenic amines and active peptides in extracts of the skin of thirty-two European amphibian species

1. Extracts prepared from fresh or dried skins of 32 European amphibian species were submitted to chemical (colour reactions) and biological screening to determine the occurrence and contents of biogenic amines and peptides active on smooth muscle preparations and blood pressure. 2. Only indolealkylamines were detectable in the skins. They were represented by tryptamine, 5-hydroxytryptamine, and its N-methylated, cyclized and sulphoconjugated derivatives. 3. The peptide families identified in the extracts were as follows: bombesins (bombesin and alytesin), bradykinins (bradykinin, bradykinin 1-8, bradykinin 1-7), chemotactic peptides (RECP I, II and III), bombinins and TRH. Bombesins, bombinins and TRH (thyrotropin-releasing hormone) were isolated from skin extracts of discoglossid frogs; chemotactic peptides and again TRH from extracts of ranid frogs. 4. Further research will certainly lengthen the list of active peptides in the skin of European amphibians, as is the case with Australian, American and African amphibians.