Characterization of Substance P-Like Immunoreactivity and Tachykinin-Encoding mRNAs in Rat Medullary Thyroid Carcinoma Cell Lines

Rat thyroid tissue and three rat medullary thyroid carcinoma cell lines, 6-23, WE4/2, and CA77, have been examined for substance P (SP) and SP-like peptide expression. Analysis by combined HPLC and radioimmunoassay revealed the presence of SP in thyroid and 6-23 cell extracts. The presence of SP-encoding mRNAs was also detected in 6-23 cells by solution hybridization-nuclease protection analysis. SP-encoding mRNA expression was increased (fourfold) by maintaining the 6-23 cells in low serum (2%) for 4 or 10 days. The 6-23 cells also expressed other SP-like immunoreactive species, which were chromatographically and immunologically distinct from established tachykinin peptides. WE4/2 cells did not contain SP but did display SP-like immunoreactivity (SPLI), which migrated like the unidentified SPLI in 6-23 cells. CA77 cells did not contain SP or SP-encoding mRNA but did contain SPLI that migrated identically to the unidentified SPLI in the other cell lines. This novel SPLI was detected with an antiserum directed against the SP carboxyl terminus and to a lesser extent with an antiserum directed against the neurokinin A carboxyl terminus, but it showed minimal cross-reactivity using an antiserum directed against the midportion of SP. Treatment with 50 mM KCl resulted in secretion of this SPLI from CA77 cells. Gel filtration analysis demonstrated that this novel SPLI had an apparent molecular weight of approximately 1,000. These results are discussed in terms of cell lines that express tachykinin peptides and in terms of the molecular nature of the new SPLI detected in CA77 cells.     

Subcellular Distribution of Mammalian Tachykinins in Rat Basal Ganglia

A combined differential and density gradient centrifugation procedure was used to study the subcellular localisation of the mammalian tachykinins in rat caudateputamen and substantia nigra. Substance P, neurokinin A, neuropeptide K, and neurokinin B were found to be concentrated in the synaptosomal fractions and in fractions containing heavy synaptic vesicles in both regions studied. In contrast, the catecholamines dopamine and noradrenaline had a more widespread distribution throughout the gradient. HPLC analysis of the immunoreactivity recovered showed that the tachykinin immunoreactivity coeluted with the relevant synthetic tachykinins, except in the soluble gradient fraction where neurokinin A immunoreactivity eluted in position consistent with neurokinin A3-10. These results suggest that, in the basal ganglia, the mammalian tachykinins are localised in fractions containing large dense cored synaptic vesicles. This vesicular localisation would be consistent with the proposed role of the tachykinins as neurotransmitters and neuromodulators.     

Tachykinins and tachykinin receptors: a growing family

The peptides of the tachykinin family are widely distributed within the mammalian peripheral and central nervous systems and play a well-recognized role as excitatory neurotransmitters. Currently, the concept that tachykinins act exclusively as neuropeptides is being challenged, since the best known members of the family, substance P, neurokinin A and neurokinin B, are also present in non-neuronal cells and in non-innervated tissues. Moreover, the recently cloned mammalian tachykinins hemokinin-1 and endokinins are primarily expressed in non-neuronal cells, suggesting a widespread distribution and important role for these peptides as intercellular signaling molecules. The biological actions of tachykinins are mediated through three types of receptors denoted NK(1), NK(2) and NK(3) that belong to the family of G protein-coupled receptors. The identification of additional tachykinins has reopened the debate of whether more tachykinin receptors exist. In this review, we summarize the current knowledge of tachykinins and their receptors.     

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.     

Distinct binding sites for substance P and neurokinin A (substance K): co-transmitters in rat brain

The distribution of binding sites in rat brain for iodinated neurokinin A and iodinated substance P were compared using autoradiography. Distinct patterns of binding for the two iodinated tachykinins were noted. Binding sites for iodinated neurokinin A were noted in the olfactory bulb, cortex, supraoptic n., paraventricular n., certain amygdaloid n., hippocampus, medial habenula, interpeduncular n., n. of the tractus solitarius, and dorsal horn of the spinal cord. This pattern was in contrast to low levels of binding of iodinated substance P to the cortex, supraoptic n., paraventricular n., and the interpeduncular n., but substantial density of binding sites in numerous other regions.     

Tachykinins Potentiate N-Methyl-D-Aspartate Responses in Acutely Isolated Neurons from the Dorsal Horn

Abstract: Substance P and neurokinin A both potentiated N -methyl- d -aspartate (NMDA)-induced currents recorded in acutely isolated neurons from the dorsal horn of the rat. To elucidate the mechanism underlying this phenomenon, we measured the effects of tachykinins and glutamate receptor agonists on [Ca²⁺]_i in these cells. Substance P, but not neurokinin A, increased [Ca²⁺]_i in a subpopulation of neurons. The increase in [Ca²⁺]_i was found to be due to Ca²⁺ influx through voltage-sensitive Ca²⁺ channels. Substance P and neurokinin A also potentiated the increase in [Ca²⁺]_i produced by NMDA, but not by α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid, kainate, or 50 m M K⁺. Phorbol esters enhanced the effects of NMDA and staurosporine inhibited the potentiation of NMDA effects by tachykinins. It is concluded that activation of protein kinase C may mediate the enhancement of NMDA effects by tachykinins in these cells. However, the effects of tachykinins on [Ca²⁺]_i can be dissociated from their effects on NMDA receptors.     

Tachykinin Receptors of the NK1 Type (Substance P) Coupled Positively to Phospholipase C on Cortical Astrocytes from the Newborn Mouse in Primary Culture

Specific 125I-Bolton-Hunter substance P (125I-BHSP) binding sites are present on intact cortical astrocytes of the newborn mouse in primary culture. Therefore, these cells were used to ascertain the existence of functional substance P (SP) receptors coupled positively to phospholipase C. SP stimulated phosphoinositide breakdown with an EC50 value (4.5 x 10(-10) M) similar to its IC50 value (3.8 x 10(-10) M) for inhibiting 125I-BHSP binding. The maximal response to (10(-6) M SP for 60 min) obtained was approximately 500% of control values. The rank order of potency of tachykinins was SP greater than neurokinin (NK) A greater than NKB. Long SP C-terminal fragments were more potent than shorter ones in stimulating the accumulation of 3H-inositol phosphates. SP free acid and SP N-terminal fragments were without effect. [L-Pro9]SP and SP methyl ester, two selective agonists of NK1 receptors, were almost as potent as SP. An excellent correlation was found when the abilities of tachykinins and their analogs for stimulating phosphoinositide breakdown and for inhibiting 125I-BHSP binding were compared. Finally, when used at a concentration of 3 x 10(-6) M, spantide [( D-Arg1, D-Trp7,9, Leu11]SP), an SP antagonist, competitively reduced the stimulatory effect of SP on accumulation of 3H-inositol phosphates. These results demonstrate the presence of functional SP receptors (NK1) on cortical astrocytes from the newborn mouse in primary culture.     

Conversion of Neuropeptide K to Neurokinin A and Vesicular Colocalization of Neurokinin A and Substance P in Neurons of the Guinea Pig Small Intestine

The highest concentration of neurokinin A-like immunoreactivity and substance P-like immunoreactivity in the guinea pig small intestine was associated with the myenteric plexus-containing longitudinal muscle layer. Chromatographic analysis of extracts of this tissue demonstrated the presence of neurokinin A and neuropeptide K but the probable absence of neurokinin B. A fraction of synaptic vesicles of density 1.133 +/- 0.003 g/ml was prepared from the myenteric plexus-containing tissue by density gradient centrifugation in a zonal rotor and was enriched 29 +/- 12-fold in the concentration of neurokinin A-like immunoreactivity and 43 +/- 13-fold in the concentration of substance P-like immunoreactivity. This fraction was separated from the fraction of vasoactive intestinal peptide-containing vesicles (density, 1.154 +/- 0.009 g/ml). Chromatographic analysis of lysates of the vesicles indicated the presence of neurokinin A but not neuropeptide K. It is postulated that beta-pre-protachykinin is processed to substance P, neurokinin A, and neuropeptide K in the cell bodies of myenteric plexus neurons but that conversion of neuropeptide K to neurokinin A takes place during packaging into storage vesicles for axonal transport. The data are consistent with the proposal that neurokinin A and substance P are stored in the same synaptic vesicle, but the possibility of cosedimentation of different vesicles of very similar density cannot be excluded.     

Substance P-Induced Reduction in the Initial Accumulation of Cytosolic myo-[3H]Inositol in Rat Parotid Acinar Cells Mediated by the NK1 Tachykinin Receptor

Abstract: Stimulation of rat parotid acinar cells by the tachykinin neurokinin (NK) 1 receptor agonist substance P (SP) resulted in a significant reduction in the initial accumulation of cytosolic myo-[³H]inositol. This effect was rapid, because a reduction of ～15% could be seen already at 30 s, with the maximal effect (～45%) being observed at 15 min. The response to SP stimulation Was temperature dependent, because at 4°C no reduction was found, jln addition, at 4°C, cytosolic myo-[³H]inositol represented only 10% of the labeled inositol accumulated at 37°C. The SP-induced reduct on in cytosolic ravo[³H]inositol accumulation was concentration dependent; the EC₅₀ obtained for SP was 5.8 ± 2.5 nM. Spantide [N Arg¹, D-Trp⁷⁹, Leu]SP), a SP antagonist, used at a concentration oif 10⁵ A/, gave a competitive shift of the dose-response curve to SP. Various tachykinins and their analogs were evaluated for their ability to reduce cytosolic mvo-[³H]inositol. [L-Pro⁹]SP and SP methyl ester, two highly selective agonists of NK1 receptors, reduced the initial accumulation of myo-H]inositol with EQo values of 2.3 and 67.0 nM, respectively. Long SP C-terminal fragments were more potent than shorter ones. SP N-terminal fragments and SP free acid were -without effect. [Pro⁷]NKB, a selective NKB analog, had no effect. The rank order of potency of mammalian tachykinins was SP > NKA > NKB. These findings and the close correlation between EC50 values and IC₅₀ values obtained in binding studies implicate the NK 1 receptor. In addition, stimulation of muscarinic receptors by carbachol alscp resulted in a reduction in level of cytosolic mjw-[³H]inositol, with this effect being reversed by atropine. Moreover, atropine was unable tjo alter the SP-induced reduction in cytosolic myo-[³H]inositol accumulation. Other neurotransmitters, such as glutamic acid, serotonin, chplecystokinin, neurotensin, bradykinin, and neuropeptide Y, were without effect on initial cytosolic myo-[³H]inositol accumulation. In conclusion, NK1 and muscarinic receptors seem to regulate the membrane transport of inositol in acinar cells of the rat parotid gland. Measurement of the initial accumulation of cytosolic myo-[³H]inositol in this tissue could profitably be adopted as a very simple, rapid, [sensitive, and specific biochemical procedure for screening the activity of potential agonists and antagonists at NK1 receptors.     

Neurokinin A-like immunoreactivity in feline dental pulp: its distribution,origin and coexistence with substance P-like immunoreactivity

Summary The distribution and origin of neurokinin A (NKA)-like immunoreactivity were investigated in feline dental pulp by an indirect immunofluorescence method. NKA-containing nerve fibres with varicosities, which entered the dental pulp via apical foramen, were distributed throughout this tissue. Many NKA-containing nerve fibres were localized around blood vessels, but some were observed apart therefrom. At the odontoblastic layer, thin NKA-containing nerve fibres were observed running straight toward the pulp-predentinal border between odontoblasts. After inferior alveolar nerve section, all NKA-containing nerve fibres disappeared in the dental pulp, while the removal of the superior cervial ganglion resulted in no change in the distribution of these fibres. The correlation of NKA-like immunoreactivity and substance P (SP)-like immunoreactivity was also investigated by double-immunofluorescence technique. The distribution of NKA-containing nerve fibres was very similar to that of SP-containing nerve fibres; it appeared that all NKA-containing nerve fibres contained SP.     

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.     

Comparison of responses by striatonigral substance P and neurokinin A systems to methamphetamine treatment

Multiple administrations of high doses of methamphetamine (METH) previously have been shown to significantly elevate the concentrations of substance P-like immunoreactivity in CNS regions associated with the basal ganglia. Recently, another tachykinin, neurokinin A (NKA), has been found to be closely associated with substance P (SP). While both neuropeptides exert comparable effects when locally injected, there are significant differences in their potencies apparently based on the relative concentrations of their unique receptors. Due to the controversy which has arisen as to their respective roles within the basal ganglia, we have evaluated and compared the responses of the striatal and nigral SP and NKA systems to METH treatment. We observed that multiple high doses of this stimulant increased the nigral and striatal concentrations of both neuropeptides in an identical fashion. Our observation that METH treatment did not alter the relative concentrations of SP and NKA suggests that responses of both transmitter systems, associated with the basal ganglia, parallel each other and are sensitive to the same regulatory mechanisms.     

Isolation and characterization of neurokinin A, neurokinin A(3-10) and neurokinin A(4-10) from a neutral water extract of a metastatic ileal carcinoid tumour

A metastasis to the right liver lobe of an argyrophil/argentaffin midgut carcinoid tumour in a patient with the classical carcinoid syndrome was examined for the presence of tachykinins other than substance P, using a specific antiserum. The extract was initially purified using SepPak cartridges, and subsequently subjected to cation-exchange chromatography on SP Sephadex C-25 which separated the immunoreactive material into two main components (components I and II). Both were further purified by anion-exchange chromatography on DEAE-Sephadex A-25, and by reverse-phase fast protein liquid chromatography. Component II was identified as neurokinin A by its immunochemical and chromatographic properties and amino acid sequence analysis. Component I consisted of two molecular forms which were identified as neurokinin A(3-10) and neurokinin A(4-10) by amino acid sequence analysis. The tumour tissue contained only small amounts of the eledoisin-like peptide that has earlier been demonstrated in mammalian tissues. Although this component behaved like the nonmammalian peptide eledoisin on reverse-phase HPLC and on reverse-phase ion-pair chromatography, eledoisin-specific antiserum E2 indicated that eledoisin-like peptide is not identical to eledoisin. Neurokinin A in carcinoid tumours has an N-terminal heterogeneity; this multiplicity constitutes a further support for the hypothesis that carcinoid tumours produce a number of tachykinins which may be present in different relative amounts in individual patients and may contribute to the individual differences in symptomatology.     

Tachykinins and the hypothalamo-pituitary-gonadal axis: An update

Tachykinins play a critical role in neuroendocrine regulation of reproduction. The best known members of the family are substance P (SP), neurokinin A and neurokinin B. Tachykinins mediate their biological actions through three G protein-coupled receptors, named NK1, NK2, and NK3. SP was suggested to play an important role in the ovulatory process in mammals and humans. Recent findings suggest a role of tachykinins in the aging of the hypothalamo-pituitary-gonadal axis. A high presence of SP was found in the sheep pars tuberalis and evidence indicates that it may have some role in the control of prolactin secretion. The presence of SP was confirmed in Leydig cells of the rat testes of animals submitted to constant light or treated with estrogens. Tachykinins were found to increase the motility of human spermatozoa. Tachykinins were also found to be present in the mouse ovary and more specifically, in the granulose cells. It is possible that tachykinins may play an important role in the ovarian function. NKB has been implicated in the steroid feedback control of GnRH release. Human mutations in the gene encoding this peptide or its receptor (TACR3) lead to a defect in the control of GnRH. A specific subset of neurons in the arcuate nucleus of the hypothalamus, colocalized three neuropeptides, kisspeptin, NKB and dynorphin. This subpopulation of neurons mediates the gonadal hormone feedback control of GnRH secretion. NKB/NK3 signaling plays a role in puberty onset and fertility in humans. This minireview summarizes the recent data about the action of tachykinins on the hypothalamo-pituitary-gonadal axis.     

Substance P enhances the proliferation of rat anterior pituitary cells in vitro

The undecapeptide substanceP(SP) was shown to be intimately involved in both the structural and functional aspects of the anterior pituitary.Yet,in addition to its influences on hormonal secretion,SP may well possess more actions in this master gland.The present study was ftherefore aimed to investigate the effect of SP on the proliferation of rat anterior pituitary cells in primary culture,It was found that SP could dose-dependently increase the incorporation of tritiated thymidine(3H-TdR) into cultured anterior pituitary cells.Other mammalian tachykinins such as neurokinin A and neurokinin B had similar effect but to varying degrees.The equipotent analogue of SP,Norleucine^11-SP(Nle^11-SP),also acted likewise.with its action antagonizable by spantide,a SP receptor blocker.To further characterize the nature of cells responsive to the challenge of SP,immunocytochemical staining against S-100 protein and some adenohypophyseal hormones was performed alone or plus autoradiography.The results showed that the percentage of S-100 proteinimmunorective cells was apparently elevated by the addtion of Nle^11-Sp for 48h,which indicates a preferential proliferation of folliculo-stellate cells under the regime .This was confirmed by increases in immunocytochemical or autoradiographical labelling indices of anterior pituitary Substance P and anterior pituitary cell proliferation.Cells treated similarly.Taken together,These results reveal that the trophic action of SP observed previously in other tissues is also present at least in cultured rat anterior pituitary cells.with responding cells being predominantly folliculo-stellate cells as typified by S-100 proteinimmunoreactivity.Therefore,an intra-pituitary trophicaction of SP in vivo could be anticipated.     

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.     

Calcium-binding phosphoprotein: the principal acidic protein of mammalian sperm

A calcium-binding phosphoprotein previously found only in brain and adrenal medulla has been isolated from the adult bovine testis. The testicular protein is electrophoretically indistinguishable from the protein of adult bovine brain and adrenal medulla in 15% polyacrylamide gels at pH 8.3 and 4.7. Crude homogenates and acidic protein fractions of adult testis, fetal testis and epididymal spermatozoa were examined electrophoretically for the presence of this calcium-binding protein. The protein was present in homogenates of adult testis and epididymal spermatozoa but only to limited extent in the homogenate of fetal testis. It was the major acidic protein of spermatozoa. It appears likely that the calcium-binding protein evident in adult testicular tissue is contributed largely by the developing spermatozoa.     

Tachykinin-Stimulated Inositol Phospholipid Hydrolysis and Taurine Release from Human Astrocytoma Cells

The activation of NK1 receptors on U373 MG human astrocytoma cells by substance P (SP) and related tachykinins was accompanied by an increase in taurine release and an accumulation of inositol phosphates. Both of these effects could be inhibited by spantide, a SP receptor antagonist. The relative potency of tachykinins in stimulating 3H-inositol phosphate accumulation correlated very well with their effects in stimulating the release of [3H]-taurine and inhibition 125I-Bolton-Hunter reagent-conjugated SP binding. The effect on [3H]taurine release was mimicked by a protein kinase C (PKC) activator, phorbol 12-myristate 13-acetate (PMA). The inactive phorbol ester analogue 4-alpha-phorbol 12,13-didecanoate, however, was without effect. Both SP- and PMA-induced releases of [3H]-taurine were markedly inhibited by staurosporine, a potent PKC inhibitor. Pretreatment of U373 MG cells with 10 microM PMA for 19 h to down-regulate PKC activity also markedly inhibited both SP- and PMA-induced releases of [3H]-taurine. Treatment of cells with 100 nM SP induced a time-dependent translocation of PKC from the cytosolic fraction to the membrane fraction. These findings are consistent with the hypothesis that an activation of NK1 receptors on U373 MG cells results in the release of inositol phosphates and activation of PKC, which in turn may regulate the release of taurine.     

Biologic activity of the tachykinins on lamb and sheep gallbladder

In this study, we examined the activity of the tachykinins (TKs) on lamb and sheep isolated gallbladder and whether the TKs are involved in the capsaicin-induced activity in these tissues. Substance P (SP) and physalaemin (PHYS) contracted lamb gallbladder, PHYS-induced striking tachyphylaxis. This tissue was nearly insensitive to neurokinin A (NKA), neurokinin B (NKB), septide, and capsaicin. As in lamb tissues, SP and PHYS both contracted sheep gallbladder although PHYS induced no tachyphylaxis. At doses that had no effect on lamb tissue, NKA, NKB, septide, and capsaicin contracted sheep gallbladder. Our findings indicate that TK receptors differ in adult and young ovine gallbladder. The activity of PHYS on lamb gallbladder could depend on the existence of an unusual binding site, carrying one or more residues critical for the N-terminal sequence present in PHYS but not in SP.