Distribution of neurokinin A-like and neurokinin B-like immunoreactivity in human peripheral tissues.

Using specific radioimmunoassay and immunocytochemistry for neurokinin A (NKA) and neurokinin B (NKB), distribution and localization of the two peptides in human peripheral tissues were studied. Both NKA-like immunoreactivity (NKA-LI) and NKB-like immunoreactivity (NKB-LI) were present in the walls of the gut and gall bladder and in the pancreas. In the gut, the values for NKA-LI were 0.56-35.73 pmol/g wet weight, while those in pancreas and gall bladder were 0.64-0.68 and 0.36 pmol/g wet weight, respectively. The values of NKB-LI were 0.45-2.66 pmol/g wet weight in the gut, 0.93-1.65 pmol/g wet weight in the pancreas, and 0.30 pmol/g wet weight in the gall bladder. The immunocytochemical reactivity to both peptides was localized to ganglia of the submucosal and myenteric nerve plexuses in the gut wall, and to neurons in the muscle layer and mucosa of the gut wall. Weak but positive NKA-LI appeared in nerve cells of the pancreas, while NKB-LI was not detectable in the pancreas. Conversely, in the gall bladder wall, NKA-LI was undetectable while a very faint NKB-LI was found in the muscle layer. The localization of NKA corresponded closely to that of NKB in the tissues although the relative concentrations of the peptides varied from organ to organ.     

Measurement and partial characterization of the multiple forms of neurokinin A-like immunoreactivity in carcinoid tumours

An antiserum raised against neurokinin A has been used to demonstrate storage and release of neurokinin A-like immunoreactivity by carcinoid tumours. The antiserum showed reactivity towards members of the tachykinin family of polypeptides in the order: neurokinin A greater than eledoisin greater than neurokinin B greater than kassinin greater than substance P greater than physalaemin but the magnitude of the cross-reactivity with substance P and physalaemin was less than 1% of that of neurokinin A. A sensitive (IC50 238 fmol/ml; minimum detectable concentration, 9 fmol/ml) radioimmunoassay was set up using this antiserum. Extracts of metastatic tumour tissue from four patients with a primary carcinoid tumour in the midgut contained both neurokinin A-like immunoreactivity (NKA-LI) and substance P-like immunoreactivity (SP-LI). The concentrations (pmol/g wet weight) of NKA-LI and SP-LI in the tumours were: patient A 210, 201; patient B 2276, 6849; patient C 1198, 834 and patient D 424, 379. Analysis of the tumour extracts by reverse phase HPLC indicated that the NKA-LI was heterogeneous. Under two different conditions of chromatography, one component was eluted with the same retention time as neurokinin A. Two further components were more hydrophobic than neurokinin A but were not eluted with the retention time of neurokinin B. Analysis of these components by gel filtration indicated a molecular weight in the 3000-4000 range suggesting that they may be related to neuropeptide K, an N-terminally extended form of neurokinin A. NKA-LI and SP-LI were undetectable in the plasma of patients A and D but were elevated in patient B (NKA-LI 1005 +/- 114; SP-LI 345 +/- 85 fmol/ml) and patient C (NKA-LI 80 +/- 31; SP-LI 21 +/- 13 fmol/ml).     

Neurokinin A and neurokinin B in the human retina

Very recently, the authors found levels of neurokinin (NK) A-like immunoreactivities in the human retina which were more than five times higher than those of substance P (SP). The present study aimed to find out how many of these immunoreactivities can be attributed to NKA and NKB and then the exact distribution pattern of both NKA and NKB was evaluated in the human retina and compared with that of SP. For this purpose, NKA-like immunoreactivities were characterized in the human retina by reversed phase HPLC followed by radioimmunoassay using the K12 antibody which recognizes both NKA and NKB. Furthermore, the retinae from both a 22- and 70-year-old donor were processed for double-immunofluorescence NKA/SP and NKB/SP. The results showed that NKA contributes to approximately two thirds and NKB to approximately one third of the immunoreactivities measured with the K12 antibody. NKA was found to be localized in sparse amacrine cells in the proximal inner nuclear layer, in displaced amacrine cells in the ganglion cell layer with processes ramifying in stratum 3 of the inner plexiform layer and also in sparse ganglion cells. By contrast, staining for NKB was only observed in ganglion cells and in the nerve fiber layer. Double-immunofluorescence revealed cellular colocalization of NKA with SP and also of NKB with SP. Thus, the levels of NKA and NKB are more than three and two times higher than those of SP, respectively. Whereas the distribution pattern of NKA is typical for neuropeptides, the localization of NKB exclusively in ganglion cells is atypical and unique.     

Pharmacology of neurokinin receptors.

The neurokinins are a group of naturally occurring peptides with the common C-terminal sequence Phe-X-Gly-Leu-Met.NH2. They include substance P (SP), neurokinin A (NKA), and neurokinin B (NKB). SP and NKA are coded on the same gene, the PPT-A, while NKB is coded on a separate gene, the PPT-B. Neurokinins are present in the central nervous system and in peripheral organs where they exert various actions. They act on three receptors--NK-1, NK-2, and NK-3--characterized through pharmacological, biochemical, and histochemical studies. Selective agonists for each neurokinin receptor were developed and evaluated on isolated smooth muscle preparations containing only one neurokinin receptor type. All three neurokinin receptors were cloned and expressed in Xenopus oocytes. Relative affinities of those receptors to neurokinins are the same as in their respective smooth muscle preparation. Finally, the mechanism of action of SP on histamine release from rat peritoneal mast cell has been studied and a direct activation of G proteins by peptides with basic amino acids is proposed as a working hypothesis.     

Tachykinin multiplicity in rat central nervous system as studied using antisera raised against substance P and neurokinin A

Antisera were raised in rabbits against the tachykinins neurokinin A (NKA) and substance P (SP). All NKA-antisera tested cross-reacted markedly with NKB, kassinin and eledoisin in radioimmunoassay (RIA), but virtually not with SP and physalaemin. Also when used for immunohistochemistry, one of the NKA-antisera was found to be virtually without cross-reactivity with SP. The most specific SP-antiserum did not cross-react with NKA but to some extent with NKB at the immunohistochemical level. Using these two antisera, the same distribution pattern of immunoreactivity was seen in both the rat substantia nigra and dorsal spinal cord. In neutral extracts of the substantia nigra, all NKA-antisera used for RIA detected a major component which eluted at the position of NKA in reverse phase high performance liquid chromatography, while no or only little immunoreactivity was detected at the position of NKB. A major component of substance P-like immunoreactivity (SPLI) co-eluting with SP and one or two minor SPLI-components were also detected in these extracts. An SP-antiserum, which cross-reacted markedly with physalaemin, detected an additional rather prominent component. In neutral water extracts of dorsal spinal cord the component detected with the NKA-antisera at the position of NKB, as well as one of the SPLI-components not eluting in the position of SP, were much more prominent than in the corresponding extracts of substantia nigra. In acetic acid extracts of both tissues, only one major SPLI-component co-eluting with SP could be detected, while only very small amounts of immunoreactivity eluting at the position of NKA and NKB (dorsal spinal cord only) could be detected using the NKA-antisera. The present results illustrate the importance of the extraction method used in immunochemical studies and demonstrate that the relative proportions of various tachykinins are markedly different in the rat substantia nigra and dorsal spinal cord.     

Establishment of highly specific radioimmunoassays for neurokinin A and neurokinin B and determination of tissue distribution of these peptides in rat central nervous system

Highly specific radioimmunoassays (RIAs) for neurokinin A (NKA) and neurokinin B (NKB) were developed. Antisera were produced by the procedure which involved immunization with NKA or NKB, both conjugated with keyhole limpet hemocyanin, and treatments with a tolerogenic conjugate of kassinin and a copolymer of D-glutamic acid and D-lysine (D-GL) to inhibit the production of cross-reactive antibodies against common C-terminal region of tachykinins. Cross-reactivities of anti-NKA antiserum (R704), thus produced, with NKB, kassinin, eledoisin were 12.6%, 10.6% and 11.5%, respectively. This was in sharp contrast with those of antiserum obtained from the rabbit not treated with kassinin-D-GL, these values corresponding to 129.0%, 42.5% and 94.4%, respectively. The cross-reactivities of R704 with substance P and physalaemin were 0.3% and 1.5%, respectively. This antiserum also bound 35.6% of neuropeptide K which contains NKA at its C-terminal. More importantly, anti-NKB antiserum (R707) obtained by the above tolerizing regimen was highly specific for NKB and the cross-reactivities with NKA, neuropeptide K, kassinin and other tachykinins were all less than 0.001%. RIAs using these specific antisera allowed us to measure directly NKA and NKB in tissue extracts without their fractionation by chromatography prior to RIAs. Measurements of immunoreactive NKA and NKB in different rat brain regions and spinal cord revealed that they are present with various ratios (NKA/NKB: 1.1-9.9) depending on the region.     

Neurokinin B- and substance P-like immunoreactivity are co-localized in enteric nerves of rat ileum

The tachykinins (TKs) substance P (SP), neurokinin A (NKA), and neurokinin B (NKB) have conserved C-terminal sequences and mediate similar physiological responses by activating neurokinin receptors found on neural and smooth muscle cells. Many enteric nerves express preprotachykinin A (PPT A) mRNA and synthesize SP and NKA. However, it is unclear if NKB is synthesized in enteric neurons as many antibodies developed against NKB also recognize other TKs. Therefore, the cellular distribution of NKB-like-immunoreactivity (NKB-ir) in rat ileum was examined using selective antisera raised against either synthetic Cys10-NKB or peptide 2 (P2), a non-tachykinergic peptide sequence in NKB precursor protein. NKB-ir and P2-ir had a similar distribution in varicose nerve fibers in submucosal and myenteric ganglia and almost all ganglia contained immunoreactive nerves. Few submucosal or myenteric neuronal somata contained strong immunoreactivity. Preabsorption of NKB or P2 antisera with their respective cognate peptides, but not with other TK peptides, abolished specific immunostaining. Finally, co-localization of NKB-/P2-ir with SP-ir suggested that most NKB-/P2-ir nerve fibers contain SP-ir, but some SP-ir nerves do not contain detectable NKB-/P2-ir. These results indicate that PPT B products P2 and NKB are localized in a subpopulation of enteric nerves containing TKs encoded by PPT A. Stimulation of these nerves may release NKB to activate local neurokinin receptors.     

Antisera raised against eledoisin and kassinin detect immunoreactive material in rat tissue extracts: tissue distribution and chromatographic characterization

Radioimmunoassays were developed for the tachykinins eledoisin (ELE) and kassinin (KAS) using antisera raised in rabbits. The antisera exhibited low (less than 0.1%) cross-reactivities to substance P (SP) and physalaemin (PHY), but crossreacted (with one exception, antiserum K7) to varying extents with neurokinin A (NKA) and neurokinin B (NKB). In the rat, the tissue distribution of the immunoreactive material detected by antiserum (E7) raised against ELE and by another antiserum (K1) raised against KAS both resembled that previously described for SP. Using the highly KAS-specific antiserum K7, no or only very low levels of immunoreactivity could be detected in extracts of various rat tissues. Gel permeation chromatography and ion-exchange chromatography of tissue extracts indicated that all antisera (except K7) detected the same population of immunoreactive molecules. One of the components was chromatographically indistinguishable from NKA. The tissue distribution of this component also resembled that of SP. Another immunoreactive component co-chromatographed with NKB at cation exchange chromatography. Acid tissue extracts, but not neutral tissue extracts, were found to contain immunoreactive components which appeared more basic than NKA and NKB. The total levels of immunoreactivity were higher in neutral than in acid tissue extracts. However, the ratio between the amounts of immunoreactivities in the two types of extracts varied considerably between tissues, indicating that tachykinin immunoreactive components may be present in different relative proportions in various tissues.     

Multiple tachykinins (neurokinin A, neuropeptide K and substance P) in capsaicin-sensitive sensory neurons in the guinea-pig

The occurrence of tachykinins in sensory neurons of the guinea-pig was studied by means of radioimmunoassay combined with ion-exchange and high-performance liquid chromatography as well as by immunohistochemistry. Antisera raised against kassinin (antiserum K12), neurokinin A (NKA) (antiserum NKA2) and substance P (SP) (antisera SP25 and SP2) were used. Antiserum K12 detected NKA, neuropeptide K (NPK) and a component eluting in the position of eledoisin (ELE) in extracts of the lung and ureter. Neurokinin B (NKB) was, however, not found. Neutral water extraction favored recovery of NKA and of the ELE-like component, while NPK was found only in acid extracts. The SP antisera detected two immunoreactive components of which the major form coeluted with synthetic SP. Capsaicin pretreatment depleted all these various forms of immunoreactivity in several peripheral organs including the ureter and lung. The immunoreactivity detected by antisera K12 or SP25 in radioimmunoassay had a similar regional distribution pattern in peripheral tissues. Immunohistochemical examination revealed that antiserum NKA2 stained the same spinal ganglion cells as the SP2 antiserum. The distribution of capsaicin-sensitive nerve fibers stained by these two antisera was also identical in peripheral organs such as the ureter, inferior mesenteric ganglion, heart and lung. It is concluded that multiple tachykinins, including SP, NKA, NPK and an ELE-like peptide, are present in capsaicin-sensitive sensory nerves in the guinea-pig. This finding can most likely be related to the origin of SP, NKA and NPK from the same precursor molecule, subsequent posttranslational tissue processing and axonal transport to terminal regions.     

Neurokinin A, neurokinin B and neuropeptide K in the rabbit iris: a study comparing different extraction methods

Neurogenic inflammation in the rabbit eye is thought to be partly mediated by tachykinins released from trigeminal sensory nerve fibres. In the present study we have investigated the occurrence of neurokinin A (NKA), neurokinin B (NKB), neuropeptide K (NPK) and related immunoreactive components in the rabbit iris-ciliary complex using neutral and different types of acidic media for extraction, reverse phase high performance liquid chromatography (RP-HPLC) and radioimmunoassay (RIA). The immunoreactive material detected with an antiserum reacting almost equally well with NKA, NKB and NPK consisted mainly of NKA, and small amounts of NPK but almost no NKB. Acidic media seemed to be more effective than neutral media for extraction of NKA and NPK. Acid extraction yielded also an NKA-immunoreactive component which eluted immediately before NKA while neutral extracts, on the other hand, contained a component which appeared behind NKA, i.e. in the position of NKA-(3-10) and NKA-(4-10). The present results indicate that NKA but not NKB may play a role in neurogenic inflammation in the rabbit eye.     

Expression of preprotachykinin-A and neuropeptide-Y messenger RNA in the thymus.

The preprotachykinin-A gene, the common gene of mRNAs encoding both substance-P (SP) and neurokinin-A (NKA), was shown to be expressed in Sprague-Dawley rat thymus by detection of specific mRNA in gel-blot analyses. In situ hybridization revealed dispersed PPT-A-labeled cells in sections from rat thymus, with a concentration of grains over a subpopulation of cells in the thymic medulla. Also, neuropeptide-Y mRNA-expressing cells were found in the rat thymus, primarily in the thymic medulla. Rat thymic extracts contained SP-like immunoreactivity (SP-LI), and the major part of the immunoreactivity coeluted with authentic SP and SP sulfoxide standards. SP-LI was also detected in human thymus, which contained between 0.09-0.88 ng SP-LI/g wet wt. Evidence for translation of preprotachykinin-A mRNA in the rat thymus was obtained from the demonstration of NKA-LI in thymic cells with an epithelial-like cell morphology. Combined with previous observations on the immunoregulatory roles of tachykinin peptides and the existence of specific receptors on immunocompetent cells, the demonstration of intrathymic synthesis of NKA suggests a role for NKA-LI peptides in T-cell differentiation in the thymus.     

Neuropeptide K is present in human cerebrospinal fluid

Neurokinin A-like immunoreactivity (NKA-LI) in human cerebrospinal fluid (CSF) was determined by radioimmuno assay (RIA) combined with high performance liquid chromatography (HPLC). The major immunoreactive component did not coelute with NKA, but coeluted with neuropeptide K (NPK), which contains the NKA sequence in its C-terminus. Trypsin treatment of this component from human CSF and of synthetic NPK, produced a substance which coeluted with NKA in the HPLC system. When the NKA-LI was oxidized with hydrogen peroxide and rechromatographed, the immunoreactivity coeluted with NPK sulfoxide. The results indicate that the main part of the NKA-LI in CSF is identical with NPK. The mean concentration of NPK measured in CSF from 6 healthy subjects by HPLC-RIA was 23 +/- 11 (SD) pmol/L.     

Neurokinin B in a human pheochromocytoma measured with a specific radioimmunoassay

An N-terminally directed antiserum to neurokinin B was raised in rabbits using an immunogen prepared by coupling the free-SH group of neurokinin B extended from its C-terminus by a cysteine residue (NKB-Cys) to an -NH2 group on human serum albumin using a heterobifunctional cross-linking reagent. In radioimmunoassay with 125I-Bolton-Hunter-labelled NKB-Cys as tracer, the antiserum showed no cross-reactivity with other tachykinins. An extract of a human pheochromocytoma, previously shown to contain peptides derived from preprotachykinin A, contained NKB-LI (13 pmol/g wet weight). The retention time of tumor neurokinin on reversed-phase HPLC was the same as that of synthetic neurokinin B. Peptides with the retention times of substance P, neurokinin A, neurokinin A (3-10)-peptide and neuropeptide K were also identified in the tumor extract. NKB-LI was not detected in extracts of a further nine pheochromocytomas or in five carcinoid tumors that expressed the preprotachykinin A gene.     

Tachykinin immunoreactivity in the european common frog,Rana temporaria: Localization,quantification and chromatographic characterization

1. Tachykinin immunoreactivity has been localized, quantified and chromatographicallycharacterized in the brain, stomach, intestine and skin of Rana temporaria.2. Antisera to mammalian substance P (SP) and neurokinin A (NKA) immunostained nerve fibres in all tissues except skin, and a population of mucosal endocrine cells in the intestinal epithelium.3. Radioimmunoassay of tissue extracts identified SP immunoreactivity in all tissues but NKA immunoreactivity was restricted to the brain.4. Chromatographie analysis of both frog tachykinins revealed that they possessed different physicochemical properties than their mammalian counterparts.     

Spinal action of neurokinins in the rat: effects on mean arterial pressure, heart rate, and vascular permeability

In urethane-anaesthetized rats, the intrathecal administration of 6.5 nmol of substance P (SP), neurokinin A (NKA), or neurokinin B (NKB) at the T8-T10 level of the spinal cord enhances mean arterial pressure and heart rate. However, in the pentobarbital-anaesthetized rat, while NKB produces no effect on mean arterial pressure, NKA produces a biphasic change and SP, a depressor response. All three neurokinins elicit a tachycardia. The following rank order of potency SP greater than or equal to NKA greater than NKB is observed in relation to these cardiovascular responses when either one of the two anaesthetics is used. The low cardiovascular activity of NKB cannot be attributed to its hydrophobicity, as the water soluble analogue of NKB, [Arg0]NKB, elicits a response as weak as the native peptide. In pentobarbital-anaesthetized rats, the intrathecal administration of 6.5 nmol of SP, also enhances plasma protein extravasation in cutaneous tissues of the back, the hind paws, and the ears. In this response NKA and NKB are either inactive (skin of hind paws) or less potent than SP (ears and dorsal skin). These findings agree with the hypothesis that in the rat spinal cord, the neurokinin receptor producing changes in mean arterial pressure, heart rate, and vascular permeability is of the NK-1 subtype.     

Incongruent pattern of neurokinin B expression in rat and mouse brains

The expression patterns of Tac2 and NK3 mRNA and of pep2, the neurokinin B (NKB) precursor protein, were compared in rats and mice. Pep2 immunoreactivity was observed in fibers, terminals, and perikarya in the brains of both species, but the number of NKB-immunoreactive cells was generally smaller in mice than in the corresponding nuclei in rats. Congruent distribution patterns of Tac2 mRNA and NKB were found in many nuclei of the thalamus and hypothalamus (habenula, anterodorsal nucleus, preoptic area, arcuate nucleus, paraventricular nucleus). However, mice expressed Tac2 mRNA neither in the hippocampus nor in the nucleus of the lateral olfactory tract, in contrast to rats. Accordingly, mice showed no NKB in the projection areas of these nuclei, such as the olfactory tubercle, whereas a clear NKB signal was present in rat tissues. Surprisingly, we found nearly identical NK3 mRNA expression patterns in both species, despite the species differences in NKB expression. Thus, although the expression patterns of Tac2 and NKB are similar in rats and mice, noteworthy differences exist. Our results have important implications for the interpretation of behavioral results concerning the NKB/NK3 system in these species. This study was supported by a grant from the Deutsche Forschungsgemeinschaft (FOR425/TPII)     

Immunohistochemical and chromatographic studies of peptides with tachykinin-like immunoreactivity in the central nervous system of the lamprey

The distribution and chemical properties of compounds with tachykinin-like immunoreactivity (TK-LI) in the spinal cord and brain of lampreys (Lampetra fluviatilis and Ichthyomyzon unicuspis) were investigated by means of immunohistochemistry and various chromatographic methods combined with radioimmunoassay. The distribution of TK immunoreactive fibers in the lamprey spinal cord was investigated with 13 different TK antisera which gave positive staining in pilot experiments. The antisera were raised against substance P (SP) (n = 6), physalaemin (PHY) (n = 1), neurokinin A (NKA) (n = 2), kassinin (KAS) (n = 2) or eledoisin (ELE) (n = 2). Pre-incubation of these antisera with their corresponding TKs abolished or reduced the immunostaining. Four different patterns of distribution were found with the 13 antisera, and they did not seem to be related to the TKs against which the antisera were raised. The different patterns could be explained by assuming the presence of the three different TKs. Six different antisera, raised against SP (n = 2), KAS (n = 2) or ELE (n = 2), were used for radioimmunoassay. The TK-LI material eluted as several separate components in various chromatographic systems. The central nervous system (CNS) of the lamprey did not contain measurable amounts of SP, NKA, neurokinin B (NKB), KAS or ELE. The present data imply that the lamprey CNS contains at least three different TKs probably different from SP, PHY, NKA, NKB, KAS or ELE; these are possibly new, not earlier described TKs. The three hypothetical TKs differ in their distribution.     

Pharmacological receptors for substance P and neurokinins

The three neurokinins identified in mammals, substance P, neurokinin A and neurokinin B, as well as their C-terminal biologically active fragments, have been used to characterize the responses of a variety of isolated organs. Three preparations selective either for substance P (the dog carotid artery), or for neurokinin A (the rabbit pulmonary artery) or for neurokinin B (the rat portal vein) are described. A neurokinin receptor classification is attempted using the neurokinins and their fragments to determine the order of potency of agonists. Three receptor subtypes have been identified: the NK-P, on which substance P (SP) is more active than neurokinin A (NKA) and neurokinin B (NKB), and the neurokinins are more active than their respective fragments; the NK-A on which NKA greater than NKB greater than SP, and some NKA fragments are more discriminative than their precursor; the NK-B on which NKB greater than NKA greater than SP, and fragments of NKB are less active than their precursor. Among the peptides studied, some potent compounds have been identified that could provide selective receptor ligands.     

Substance-P-related and neurokinin-A-related peptides from the brain of the cod and trout.

An extract of the brain of the rainbow trout, Oncorhynchus mykiss contained high concentrations of both neurokinin A-like immunoreactivity (corresponding to 90 pmol mammalian neurokinin A/g wet tissue) and substance-P-like immunoreactivity (corresponding to 50 pmol mammalian substance P/g wet tissue) measured by radioimmunoassay using antisera directed against the C-terminal regions of the mammalian peptides. In contrast, an extract of the Atlantic cod. Gadus morhua contained only neurokinin-A-like immunoreactivity (151 pmol/g). This apparent paradox was resolved by determination of the primary structures of the fish tachykinins. Trout substance P (Lys-Pro-Arg-Pro-His-Gln-Phe-Phe-Gly-Leu-MetNH2) has the same amino acid sequence in its C-terminal region as that in the corresponding region of mammalian substance P. Cod substance P (Lys-Pro-Arg-Pro-Gln-Gln-Phe-Ile-Gly-Leu-MetNH2), however, contains a substitution at position 8 (Phe----Ile) that abolishes reactivity with the antiserum to substance P but permits reactivity with the antiserum to neurokinin A. The amino acid sequence of cod and trout neurokinin A is the same (His-Lys-Ile-Asn-Ser-Phe-Val-Gly-Leu-MetNH2) and shows two substitutions (Thr3----Ile and Asp4----Asn) compared with mammalian neurokinin A. The data indicate that nervous tissue of teleost fish contain tachykinins that are analogous to the peptides found in mammalian tissues.     

Tachykinin immunoreactivity in the European common frog, Rana temporaria: localization, quantification and chromatographic characterization.

1. Tachykinin immunoreactivity has been localized, quantified and chromatographically-characterized in the brain, stomach, intestine and skin of Rana temporaria. 2. Antisera to mammalian substance P (SP) and neurokinin A (NKA) immunostained nerve fibres in all tissues except skin, and a population of mucosal endocrine cells in the intestinal epithelium. 3. Radioimmunoassay of tissue extracts identified SP immunoreactivity in all tissues but NKA immunoreactivity was restricted to the brain. 4. Chromatographic analysis of both frog tachykinins revealed that they possessed different physico-chemical properties than their mammalian counterparts.