Identification and cDNA sequence of delta-preprotachykinin, a fourth splicing variant of the rat substance P precursor.

The neuropeptides substance P and neurokinin A are synthesised from a family of precursor polypeptides encoded by the preprotachykinin A (PPT) gene. In addition to a mRNA (beta-PPT) containing all 7 exons of the gene, alternatively spliced mRNAs lacking either exon 4 (gamma-PPT) or exon 6 (alpha-PPT) have been identified. We have determined the sequences of cDNA clones encoding four variants of PPT mRNA from rat dorsal root ganglion (DRG), including a novel mRNA species (delta-PPT) in which both exons 4 and 6 are absent. The sequence of delta-PPT predicts the existence of a novel tachykinin precursor polypeptide.     

Eosinophils from granulomas in murine schistosomiasis mansoni produce substance P

Granulomas are chronic, usually focal, tissue-destructive inflammatory reactions that usually form around slowly degradable, poorly soluble substances. They are dynamic lesions, regulated by complex immune mechanisms. Tachykinins are a family of neuropeptides characterized by the common C-terminal amino acid sequence -Phe-X-Gly-Leu-Met-NH2. One such tachykinin, substance P, has been reported to modulate immunologic responses. In this investigation, granulomas were examined for substance P. Granulomas were isolated from the livers of mice infected with murine schistosomiasis, and substance P was extracted. Immunoreactive substance P was detected by RIA. The authenticity of the molecule was confirmed by elution profile on HPLC. Immunoreactive substance P, identified by immunostaining, localized to eosinophils derived from collagenase-dispersed granulomas. Granulomas were then probed for expression of the gene for substance P (preprotachykinin). Preprotachykinin mRNA was localized to granuloma eosinophils by in situ oligonucleotide hybridization. It is concluded that substance P is present within the granuloma as a result of preprotachykinin production by eosinophils.     

Identification of immunoreactive substance P in human and other mammalian endothelial cells

Endothelial cells release both vasodilatory (e.g., PGI2, EDRF, oxygen radicals) and vasoconstrictor (e.g., EDCF) substances which modify vascular tone and contractility. We report the existence of the vasodilatory tachykinin substance P within endothelial cell scraping from human, rat and dog thoracic aorta and human pial arteries with values ranging from 1.0 +/- 0.1 (rat aorta) to 1.9 +/- 0.5 (dog aorta) fmol/mg protein. The immunoreactive component eluted with a retention time identical to that of radiolabelled substance P when analyzed by high performance liquid chromatography combined with radioimmunoassay. Cultured endothelial cells from bovine cerebral microvessels contained measurable levels of substance P in passages 3-8, suggesting the likelihood that these cells synthesize substance P. However, the level of gene expression must be low since efforts to demonstrate the presence of preprotachykinin mRNA by Northern blot analysis of dog and rat aortic endothelial cell RNA or by RNase protection analysis of rat aortic endothelial cell RNA was not successful.     

Molecular cloning of the murine substance K and substance P receptor genes.

The peptides substance K and substance P evoke a variety of biological responses via distinct, guanosine-nucleotide-binding-regulatory-protein-coupled receptors. We have screened a murine genomic cosmid library using oligonucleotide probes and have isolated, cloned and characterized the substance K receptor and the substance P receptor genes. The coding portion of the substance K receptor gene consists of five exons distributed over 13 kbp. The substance P receptor gene is considerably larger than that of substance K (more than 30 kbp), however, the boundaries of the four exons that have been characterized in the substance P receptor gene correspond exactly to the homologous exons in the substance K receptor gene. To verify the identity of the isolated genes, we have cloned the corresponding cDNA by means of the polymerase chain reaction and we have expressed these cDNA species in Xenopus laevis oocytes. The ligand binding characteristics determined in this system pharmacologically confirm the identity of the two receptors. The deduced amino acid sequence of the mouse substance K receptor is 94% identical to the rat sequence and 85% identical to the bovine and human sequences. The mouse substance P receptor amino acid sequence is 99% identical to the rat sequence. The cloning of the murine substance K and substance P receptor genes should contribute substantially to the generation of in vivo models for the detailed analysis of the functional significance of these receptors.     

Dopamine antagonist haloperidol decreases substance P, substance K, and preprotachykinin mRNAs in rat striatonigral neurons

Rat genomic clones were used to quantitate preprotachykinin mRNAs in the rat basal ganglia, while the tachykinin peptide products substance P and substance K were measured by radioimmunoassay. Administration of the dopamine antagonist (antipsychotic) drug haloperidol significantly decreased substance P, substance K, and both alpha (substance P encoding) and beta (substance P/substance K encoding) preprotachykinin mRNAs, suggesting a drug-induced decrease in striatonigral tachykinin biosynthesis. The time course for decreased preprotachykinin mRNAs and tachykinins apparently parallels the period of maximum risk for the development of certain antipsychotic drug-induced extrapyramidal side effects seen clinically. Tachykinin interaction with dopamine neurons may play an important role in the modulation of basal ganglia function.     

cDNA sequence of human beta-preprotachykinin, the common precursor to substance P and neurokinin A

The nucleotide sequence of cDNA encoding the human substance P precursor, beta-preprotachykinin (beta-PPT), has been determined. The source of mRNA was a human laryngeal carcinoid tumour that contained a high concentration of immunoreactive substance P. The human beta-PPT polypeptide is 129 amino acids long and contains regions encoding substance P and neurokinin A, each flanked by basic amino acid residues. Residues 72-107 of the human beta-PPT polypeptide encode the sequence of neuropeptide K, an N-terminally extended form of neurokinin A recently isolated from porcine brain.     

Molecular characterization of a functional cDNA for rat substance P receptor

This paper describes the amino acid sequence of the rat substance P receptor and its comparison with that of the rat substance K receptor on the basis of molecular cloning and sequence analysis. From a rat brain cDNA library constructed with an RNA expression vector, we identified a cDNA mixture containing a functional substance P receptor cDNA by examining electrophysiologically a receptor expression following injection of the mRNAs synthesized in vitro into Xenopus oocytes. A receptor cDNA clone was then isolated by cross-hybridization with the bovine substance K receptor cDNA. The clone was confirmed by selective binding of substance P to the cloned receptor expressed in mammalian COS cells. The deduced amino acid sequence (407 amino acid residues) possesses seven putative membrane spanning domains and shows a sequence similarity to the members of G-protein-coupled receptors. The rat substance P and substance K receptors are very similar in both size and amino acid sequences, particularly in the putative transmembrane regions and the first and second cytoplasmic loops. This similarity is in marked contrast to the sequence divergence in the amino- and carboxyl-terminal regions and the third cytoplasmic loop. The observed sequence similarity and divergence would thus contribute to the expression of similar but pharmacologically distinguishable activities of the two tachykinin receptors.     

Multiple tachykinins are produced and secreted upon post-translational processing of the three substance P precursor proteins, alpha-, beta-, and gamma-preprotachykinin. Expression of the preprotachykinins in AtT-20 cells infected with vaccinia virus recombinants

The rat preprotachykinin I gene mRNA is alternatively spliced to yield three different mRNA species differing in their protein coding regions. We have produced recombinant vaccinia viruses expressing alpha-, beta-, and gamma-preprotachykinin to examine the tachykinin-related peptides produced upon post-translational processing of each individual precursor. Infection of BSC-40 or AtT-20 cell lines with a beta-preprotachykinin-encoding vaccinia virus recombinant results in the expression of the precursor protein. The pro-form (signal peptide removed) can be immunoprecipitated from extracts of infected cells. Infected cells of both types secrete into the culture medium a product(s) which reacts in radioimmunoassay with an antiserum shown to recognize precursor as well as mature substance P. Infected AtT-20, but not BSC-40, cells secrete into the culture medium a processed form(s) of beta-preprotachykinin which reacts in radioimmunoassay with an anti-serum which recognizes the amidated carboxyl terminus of substance P. The molecular nature of the tachykinin products produced in and secreted from AtT-20 cells infected with alpha-, beta-, and gamma-preprotachykinin-encoding recombinants was analyzed by combined high performance liquid chromatography and radioimmunoassay. Peptides were identified based on comigration with synthetic standards and antisera cross-reactivity. We determined that alpha-preprotachykinin is processed to the mature undecapeptide, substance P. beta-Preprotachykinin was processed into multiple products, including substance P, neurokinin A, neurokinin A(3-10), and neuropeptide K. gamma-Preprotachykinin was processed into substance P, neurokinin A, neurokinin A(3-10), and neuropeptide gamma. These five tachykinin peptide products were all routed through the regulated secretory pathway and were secreted into the medium in a cAMP-stimulatable fashion. Since all of these peptides have been shown to be biologically active, it is important to consider the biological consequences of their co-secretion in vivo.     

Quantitation and Characterization of Peptides from the C-Terminal Flanking Region of Rat and Bovine Preprotachykinins

Sequence analysis of cDNAs has shown that the biosynthetic precursors of substance P (alpha-, beta-, and gamma-preprotachykinins) contain a common amino acid sequence in the C-terminal flanking region that has not been conserved between species. Antisera have been raised against the synthetic peptide Tyr-Glu-Arg-Ser-Ala-Met-Gln-Asn-Tyr-Glu, which represents rat beta-preprotachykinin-(117-126)-peptide, and used in radioimmunoassays. Antiserum R50 reacted strongly with C-flanking peptides in extracts of rat and bovine tissues whereas antiserum GP-4 reacted only with the rat peptides. The primary structure of the predominant molecular form of preprotachykinin C-flanking peptide in an extract of bovine corpus striatum was established as: Ala-Leu-Asn-Ser-Val5-Ala-Tyr-Glu-Arg-Ser10-Val-Met-Gln-Asp-Tyr1 5-Glu. This sequence represents beta-preprotachykinin-(111-126)-peptide which is equivalent to gamma-preprotachykinin-(96-111)-peptide. A C-flanking peptide with similar chromatographic properties was identified in extracts of rat brain and gut together with a second immunoreactive component that may represent a fragment or a posttranslationally modified variant. A peptide corresponding to the 37-amino-acid residue C-flanking peptide derived from alpha-preprotachykinin was not detected in the extracts as expected from the known low abundance of alpha-preprotachykinin mRNA in rat brain and gut.     

Molecular characterization of rat substance K receptor and its mRNAs

The nucleotide sequence and the amino acid sequence for rat substance K receptor were deduced by molecular cloning and sequence analysis of its cDNAs. The rat substance K receptor consists of 390 amino acid residues and belongs to the family of G protein-coupled receptors. The comparison of the amino acid sequences of the rat and bovine substance K receptors indicated that they are highly homologous in the regions covering seven putative transmembrane domains, and this similarity is particularly remarkable in the transmembrane segments III and VII and their surrounding regions. RNA blot hybridization analysis showed that the rat substance K receptor is encoded by two species of mRNAs which differ in the lengths of the extreme 5' sequence of the 5'-untranslated regions. This analysis also indicated that the substance K receptor mRNAs are expressed in the gastrointestinal tract. Interestingly, no appreciable substance K receptor mRNAs were detected in poly(A)+ RNAs isolated from the brain and spinal cord, even though these tissues are known to not only contain substance K but also express the mRNA encoding the substance K precursor.     

The amino acid sequence of bovine hypothalamic substance P. Identity to substance P from colliculi and small intestine.

Bovine substance P has been isolated in pure form from hypothalamic fragments and its complete amino acid sequence determined by studies performed on the intact peptide and on its isolated papain-generated fragments. Direct evidence for the positioning of each residue was obtained, amide assignments were unequivocally established, and the COOH-terminal residue was isolated and identified as Met-NH2. The results of total enzymic digestion performed on each of the peptides obtained argue against the presence of any non-amino acid constituents in the molecule. The amino acid sequence obtained is identical with that previously reported for material isolated form bovine colliculi and from equine small intestine.     

Human substance P receptor (NK-1): organization of the gene, chromosome localization, and functional expression of cDNA clones.

The gene for the human substance P receptor (NK-1) was cloned using cDNA probes made by the polymerase chain reaction from primers based on the rat sequence. The gene spans 45-60 kb and is contained in five exons, with introns interrupting at sites homologous to those in the NK-2 receptor gene. Analysis of restriction digests of genomic DNA from mouse/human cell hybrids indicates the NK-1 receptor is a single-copy gene located on human chromosome 2. Polymerase chain reaction using primers based on the 5' and 3' ends of the coding sequence was used to generate full-length cDNAs from human lung and from IM9 lymphoblast cells. When transfected into COS-7 cells, the NK-1 receptor binds 125I-BHSP with a Kd of 0.35 +/- 0.07 nM and mediates substance P induced phosphatidylinositol metabolism. The receptor is selective for substance P; the relative affinity for neurokinin A and neurokinin B is 100- and 500-fold lower, respectively. Human IM9 lymphoblast cells express relatively high levels of the NK-1 receptor, and Northern blot analysis indicates modulation of mRNA levels by glucocorticoids and growth factors, suggesting that this cell line may be useful as a model for studying the control of NK-1 receptor gene expression.     

Hypothalamic substance P as a candidate for transmitter of primary afferent neurons.

A peptide that exerts a depolarizing action on frog spinal motoneurons was found in the dorsal root of bovine spinal nerve. Pharmacological, chemical, and immunological properties of this motoneuron-depolarizing peptide were investigated and the results indicated that the peptide is identical with an undecapeptide, substance P, recently isolated from bovine hypothalamus by M.M.Chang and S.E.Leeman. The amount of hypothalamic substance P in bovine dorsal root determined by bioassay or radioimmunoassay was 24-130 pmole/g wet wt, whereas that in the ventral root was 9-27 times less. The effects of synthetic hypothalamic substance P on the isolated spinal cord of the frog and the newborn rat were studied. The peptide exerted a powerful depolarizing action on the motoneurons, its potency being about 200 times higher than that of L-glutamate. Distribution of substance P in the cat spinal cord was studied. The concentration of the peptide was highest in the dorsal part of dy lowered. When the dorsal root of the cat was ligated, substance P accumulated in a high concentration on the ganglion side of the ligature. These results, taken together, support the hypothesis that hypothalamic substance P is an excitatory transmitter of primary afferent neurons.     

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.     

Molecular cloning and sequence of the gene for p9Ka. A cultured myoepithelial cell protein with strong homology to S-100, a calcium-binding protein

The gene for p9Ka, a protein of molecular weight 9000 that is expressed in cultured rat mammary myoepithelial cells, has been isolated from a normal rat genomic library in bacteriophage lambda, by its ability to hybridize to a cloned complementary DNA corresponding to p9Ka mRNA. The cloned rat genomic DNA fragment hybridized to translatable p9Ka mRNA. A nucleotide sequence of 2340 base-pairs of genomic DNA surrounding the p9Ka cDNA sequence has been obtained; the gene contains one intervening sequence of 675 nucleotides. The 3' end of the p9Ka mRNA has been identified on the gene sequence to be 13 nucleotides downstream from a poly(A) addition signal AATAAA. The gene contains an open reading frame of 101 amino acid residues, which is the only open reading frame in the entire gene long enough to encode a protein of molecular weight at least 9000. This hypothetical protein sequence shows greater than 40% homology to rat or bovine S-100 protein and over 30% homology to bovine intestinal calcium-binding protein. The results suggest that p9Ka may be related to a family of low molecular weight calcium-binding proteins.