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.     

Occurrence and effects of multiple tachykinins; substance P, neurokinin A and neuropeptide K in human lower airways

In the present work we have studied the occurrence of different tachykinins (substance P (SP), neurokinin A (NKA) and neuropeptide K (NPK)) in human distal bronchi and pulmonary arteries by means of radioimmunoassay (RIA) and high performance liquid chromatography (HPLC). We have also compared the biological effects of different tachykinins on isolated human bronchi and pulmonary arteries in vitro. The concentration of immunoreactive SP using antiserum SP2 in the pulmonary arteries was higher (1.34 +/- 0.15 pmol/g) than in the bronchi (0.56 +/- 0.05 pmol/g). The contents of other tachykinins than SP measured using antiserum K12 was on the other hand considerably higher in the bronchi (0.33 +/- 0.14 pmol/g) than in pulmonary arteries (0.13 +/- 0.02 pmol/g). Immunoreactive materials corresponding to SP, NKA and NPK were identified in bronchial extracts by RIA combined with HPLC, which also indicated the presence of an eledoisin (ELE)-like component. In vitro studies showed that NKA was the most potent of the tachykinins as a bronchoconstrictor agent, being several hundred-fold more active than SP, acetylcholine and histamine. NPK had an intermediate potency. The bronchoconstrictor effect of NKA was unaffected by atropine, mepyramine and cimetidine. The tachykinins SP and NKA had on the other hand, a rather equal potency in inducing relaxation of serotonin precontracted pulmonary arteries. In conclusion, multiple tachykinins are present in lower airways of man. These peptides exert different biological activities whereby NKA is a very active bronchoconstrictor agent compared to SP while both NKA and SP have rather similar relaxatory activities of vascular smooth muscle.     

Antisera raised against eledoisin and kassinin detect elevated levels of immunoreactive material in plasma and tumor tissues from patients with carcinoid tumors

Radioimmunoassays based on antisera raised against the tachykinins eledoisin (antiserum E7) and kassinin (antiserum K12) were used to measure the concentration of tachykinin-like immunoreactivity (TKLI) in plasma from 52 healthy subjects. 65 patients with carcinoid tumors (of which 46 had symptoms of both flushing and diarrhoea), and 6 patients with endocrine pancreatic tumors. The antisera did not crossreact with substance P (SP). Elevated concentrations of TKLI, as compared with healthy subjects, were found in 75% of the carcinoid patients, but in none of the patients with pancreatic tumors. Tumor metastases from 8 of the carcinoid patients all contained TKLI. Ion-exchange chromatography of plasma samples and tumor tissue extracts indicated the presence of several immunoreactive molecular forms. The elution patterns of the immunoreactivity detected by antisera E7 and K12 were similar, indicating that the same molecular species are measured by these antisera. None of the components coeluted with synthetic SP. One of the immunoreactive components in carcinoid tumor extracts coeluted with synthetic NKA. The major immunoreactive components in plasma from the patients eluted in a position different from that of all currently known mammalian tachykinins. Tachykinin immunoreactive material detected in tumor tissue and plasma of patients with carcinoid tumor may play a role in the symptomatology of the carcinoid syndrome.     

Coexisting peptides in capsaicin-sensitive sensory neurons: release and actions in the respiratory tract of the guinea-pig

Release of substance P (SP) and neurokinin A (NKA), was demonstrated in the isolated perfused guinea-pig lung. Significant release was obtained by perfusion with capsaicin, high potassium, histamine, bradykinin dimethylphenylpiperazinium, and by electrical vagal nerve stimulation. Capsaicin-induced peptide release was not blocked by 1 microM clonidine. SP and NKA contracted respiratory smooth muscle, NKA being 42 times more potent. Both tachykinins were equipotent in relaxing pulmonary artery. It is concluded that multiple tachykinin can be released from capsaicin-sensitive sensory nerves in the respiratory tract, exerting multiple effects on the target tissues.     

Chromatographic Evidence for the Presence of Multiple Tachykinins in the Bovine Adrenal Medulla

Among the mammalian tachykinins, substance P (SP) has been shown to be the most potent at modulating the response due to nicotinic acetylcholine receptor stimulation of bovine adrenal chromaffin cells. SP-like immunoreactivity has been detected in nerve terminals innervating the adrenal medulla; however, little is known of the presence of other tachykinins in this tissue. In this study, reverse-phase HPLC was used to fractionate peptides in bovine adrenal medullary extracts, and the fractions were analyzed by radioimmunoassay using antisera to SP or neurokinin A (NKA). The results show that both NKA- and SP-like immunoreactivities are present in the adrenal medulla. The presence of neurokinin B is also indicated. The presence of multiple tachykinins in this tissue raises questions as to their functions in the adrenal medulla.     

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.     

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.     

Heterogeneity of tachykinin receptors in the rabbit lung

The tachykinins, substance P (SP) and neurokinin A (NKA), are agonists for the NK₁ and NK₂ receptors, respectively. Tachykinins have various respiratory effects, including bronchoconstriction. This study characterizes tachykinin binding sites in the rabbit lung. We hypothesize that (2-[¹²⁵I]iodohistidyl¹)Neurokinin A ([¹²⁵I]NKA) interacts with NK₁ and NK₂ binding sites in the rabbit lung. The K_d determined from saturation isotherms was 0.69 X/÷1.14 nM (geometic mean X/÷ SEM) and the B_max was 4.15±0.22 femtomole/mg protein (arithmetic mean±SEM). Competitive inhibition studies with NKA, SP and various selective tachykinin agonists showed the rank order of potency: [β-Ala⁸]-Neurokinin A 4–10=SP ≫ NKA ≫ [Sar⁹,Met(O₂)¹¹]-Substance P. [β-Ala⁸]-Neurokinin A 4–10, a selective NK₂ agonist, and SP inhibition of [¹²⁵I]NKA binding were best described using a two-site model. Competitive inhibition studies using the selective nonpeptide NK₂ antagonist (SR 48968) and the selective nonpeptide NK₁ antagonist (CP 96,345) revealed K_i's of 5.5 nM and 8.1 nM, respectively. Our data therefore suggest that [¹²⁵I]NKA binds to both the NK₁ and NK₂ receptors in the lung. Special issue dedicated to Dr. Kinya Kuriyama.     

Gastrin/cholecystokinin-like immunoreactivity in the nervous system of Aeschna cyanea (Insecta,Odonata)

Summary Gastrin/cholecystokinin (gastrin/CCK)-like immunoreactivity has been detected in the brain, suboesophageal ganglion and corpora cardiaca of the larva of Aeschna cyanea by radioimmunoassay and immunohistochemistry, by use of two antisera raised against the sulfated (CCK-8S) and the unsulfated form (CCK-8NS) of the carboxyl terminal octapeptide. Numerous immunoreactive neurons were demonstrated in the protocerebrum (exclusive of optic lobes) and suboesophageal ganglion where 20 and 15 symmetrical clusters of reactive cells, respectively, were observed. Immunoreactive cells also occurred in the tritocerebrum, the optic lobes and the frontal ganglion. In the corpora cardiaca, gastrin/CCK-like material was found both within intrinsic cells and axon terminals. RIA measurements support the immunohistochemical results in so far as large amounts of gastrin/CCK-like material were detected in the brain, corpora cardiaca and suboesophageal ganglion complex. Both boiling water-acetic acid- and methanol-extraction procedures were performed. Comparisons of the results lead to the conclusion that a large part of the gastrin/CCK-like material occurs as small molecules. Immunohistochemical procedures performed on material fixed in a solution of picric acid-paraformaldehyde demonstrated differences in the immunoreactivity of the tested antisera. First, the immunohistochemical reaction was always more pronounced when the CCK-8NS antiserum was used instead of the CCK-8S antiserum, which may be interpreted by a lower affinity of the latter. In the second place, some neurons strongly stained by the CCK-8NS antiserum were only very faintly if at all stained by the CCK-8S antiserum, which may mean that different peptides or at least distinct forms of the same precursor are detected.     

A novel radioimmunoassay for neuromedin K. I. Absence of neuromedin K-like immunoreactivity in guinea pig ileum and urinary bladder. II. Heterogeneity of tachykinins in guinea pig tissues

A novel and highly specific radioimmunoassay for the tachykinin peptide neuromedin K (NMK, also known as neurokinin beta, neurokinin B) has been developed and used to determine the distribution of this peptide in extracts of guinea pig tissues. In addition to immunoreactive components coeluting with the 3 mammalian tachykinins, substance P (SP), substance K (SK) and NMK, analyses using reverse-phase HPLC revealed immunoreactive peaks coeluting with the C-terminal octapeptide of SK (SK-(3-10], an N-terminally extended form of SK (gamma-preprotachykinin-(72-92)amide), and a yet unidentified peak eluting before NMK in the extracts of guinea pig brain and spinal cord. In contrast to the other tachykinins, SP and SK, which were present in high concentrations in extracts of all peripheral and central tissues examined, NMK-like immunoreactivity was detected only in extracts of central tissues. NMK-like immunoreactivity was not detected in extracts of terminal ileum and urinary bladder.     

Different subtypes of tachykinin NK(1) receptor binding sites are present in the rat brain

(2-[(125)I]iodohistidyl(1))Neurokinin A ([(125)I]NKA), which labels "septide-sensitive" but not classic NK(1) binding sites in peripheral tissues, was used to determine whether septide-sensitive binding sites are also present in the rat brain. Binding studies were performed in the presence of SR 48968 (NK(2) antagonist) and senktide (NK(3) agonist) because [(125)I]NKA also labels peripheral NK(2) binding sites and, as shown in this study, central NK(3) binding sites. [(125)I]NKA was found to label not only septide-sensitive binding sites but also a new subtype of NK(1) binding site distinct from classic NK(1) binding sites. Both subtypes of [(125)I]NKA binding sites were sensitive to tachykinin NK(1) antagonists and agonists but also to the endogenous tachykinins NKA, neuropeptide K (NPK), and neuropeptide gamma (NPgamma). However, compounds of the septide family such as substance P(6-11) [SP(6-11)] and propionyl-[Met(O(2))(11)]SP(7-11) and some NK(1) antagonists, GR 82334, RP 67580, and CP 96345, had a much lower affinity for the new NK(1)-sensitive sites than for the septide-sensitive sites. The hypothalamus and colliculi possess only this new subtype of NK(1) site, whereas both types of [(125)I]NKA binding sites were found in the amygdala and some other brain structures. These results not only explain the central effects of septide or SP(6-11), but also those of NKA, NPK, and NPgamma, which can be selectively blocked by NK(1) receptor antagonists.     

Pharmacological characterization of tachykinin septide-sensitive binding sites in the rat submaxillary gland

Binding studies have shown that [125I]NKA is a selective ligand of tachykinin septide-sensitive binding sites from membranes of the rat submaxillary gland. Indeed, this ligand bound with high affinity to a single population of sites. In addition, competition studies indicated that natural tachykinins and tachykinin-related compounds had a similar affinity for these sites than for those labeled with [3H]ALIE-124, a selective ligand of septide-sensitive binding sites. Moreover, selective tachykinin NK2, or NK3 agonists or antagonists exhibited weak or no affinity for [125I]NKA binding sites. As indicated by Ki values of several compounds, the pharmacological characteristics of the septide-sensitive binding sites (labeled with [125I]NKA) largely differ from those of classic NK1 binding sites, as determined on crude synaptosomes from the rat brain using [125I]Bolton-Hunter substance P (SP) as ligand. Indeed, several tachykinins including neurokinin A (NKA), neuropeptide K (NPK), neuropeptide gamma (NKgamma), and neurokinin B, as well as some SP and NKA analogues or C-terminal fragments such as septide, ALIE-124, SP(6-11), NKA(4-10), which have a weak affinity for classic tachykinin NK1 binding sites exhibited a high affinity for the septide-sensitive binding sites. In contrast, SP, classic selective NK1 agonists, and antagonists had a high affinity for both types of binding sites. The presence of a large population of tachykinin septide-sensitive binding sites in the rat submaxillary gland may thus explain why NPK and NPgamma induce salivary secretion and may potentiate the SP-evoked response in spite of the absence of tachykinin NK2 receptors in this tissue.     

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.     

BDNF-overexpression regulates the reactivity of small pulmonary arteries to neurokinin A

Brain-derived neurotrophic factor (BDNF) is a key modulator during the development of jugular and nodose ganglia neurons, which represent the origin of a large proportion of the sensory innervation of the lung. It belongs to the family of neurotrophins, which have been shown to induce the expression of tachykinins. To assess the interactions of BDNF and the tachykinin neurokinin A (NKA) in small pulmonary vessels, BDNF-transgenic mice were examined for tachykinin contents in the airways, heart, trigeminal ganglion and jugular and nodose ganglion complex (JNC) using reverse phase HPLC (rpHPLC) and radioimmunoassay. BDNF-overexpression led to increased NKA levels in the heart and the JNC, whereas only slightly enhanced levels in the trigeminal ganglion were detected. Lower NKA levels were found in the lung. To assess vasoreactivity in small arteries, precision cut lung slices were subjected to videomorphometry and the response to NKA was examined, which showed significantly stronger effects in the BDNF-transgenic mice, while NK-2 receptor mRNA expression, assayed by real-time RT-PCR, was reduced. In conclusion, BDNF-overexpression results in decreased levels of NKA in the lung with subsequently increased NKA-sensitivity of small arteries. These findings point to a modulatory role of neurotrophins in small respiratory vessel tone regulation.     

Detection of N-Terminally Extended Substance P but Not of Substance P in Human Cerebrospinal Fluid: Quantitation with HPLC-Radioimmunoassay

A reversed-phase HPLC system was used to concentrate and separate components of substance P-like immunoreactivity (SP-LI) from human CSF. When CSF was injected and fractions collected, no SP-LI could be detected by radioimmunoassay (RIA) at the retention time of SP or SP-sulfoxide. Instead, SP-LI was detected in later eluting fractions. This SP-LI reacted with two different antisera raised against the C-terminal part of SP, but not with an antiserum against the N-terminal part. A compound with similar properties was also found to be present in neutral extracts of rat dorsal spinal cord. When the late-eluting compound from human CSF was treated with trypsin and rechromatographed on HPLC, an immunoreactive component eluting at the position of SP could be detected with both the C- and N-terminally directed SP antisera. These results suggest that an N-terminally extended form of SP is present in human CSF. Trypsinization also gave two other compounds with affinity for the N- but not the C-terminally directed antisera. This may indicate that N-terminal fragments of SP extended at the N-terminus or SP molecules extended at both the N- and the C-terminus (i.e., preprotachykinins) also are present in human CSF. In 32 CSF samples from depressed patients, SP-LI was determined with a C-terminally directed antiserum with and without prior HPLC separation. SP itself could not be detected, but the late-eluting form of SP-LI could be quantitated in all samples by combined HPLC-RIA. In most samples, there was a relatively good agreement between the SP-LI levels measured with and without HPLC.     

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.     

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.     

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.     

Tachykinin production in granulomas of murine schistosomiasis mansoni

Preprotachykinins, the products of one gene, are the precursor molecules of three mammalian tachykinins called substance P (SP), substance K (SK), and neuropeptide K. An additional mammalian tachykinin, neurokinin B, has also been described. SP and possibly other tachykinins may modulate immunologic responses. Granulomas that form around parasite ova in murine schistosomiasis were examined for tachykinins. Tachykinins were extracted from granulomas by boiling or with detergent. Extracts examined by RIA and HPLC contained only immunoreactive SP. Granulomas were dispersed with collagenase and cultured in vitro for up to 4 h. Only immunoreactive SP appeared in the culture medium. SP immunoreactivity localized solely to granuloma eosinophils as demonstrated by a sensitive immunohistochemical technique. An antiserum that recognized SK, neuropeptide K, and neurokinin B, but which possessed low reactivity to SP, also stained these cells. Only prior absorption of each antiserum with the appropriate synthetic neuropeptide would abrogate the immunostaining. This suggested that tachykinins other than SP were present within these cells. However, results of in situ hybridization experiments intimated that eosinophils produced predominantly preprotachykinin mRNAs which encode SP but are devoid of the SK/neuropeptide K sequence. It is concluded that granuloma eosinophils make predominantly SP in deference to other tachykinins, and that tachykinins other than SP are unlikely to be important in the regulation of the early granulomatous response of murine schistosomiasis.