Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The protease-catalyzed conversion of peptides and proteins produced by recombinant DNA technology is a promising method for large-scale production of peptides including those with non-proteinogenic structural elements. As a model system we have investigated the proteinase-catalyzed modification of a chemically synthesized substance P-precursor. In the precursor peptide the residues of substance P(1-8) were flanked by tripeptide linkers on both sides. In the first step the C-terminal tripeptide amide was replaced by the authentic C-terminal tripeptide amide of substance P via alpha-chymotrypsin-catalyzed transpeptidation. The enzyme simultaneously attacks two peptide bonds in the precursor molecule leading to the formation of several side-products. The desired peptide was obtained with 25% yield. In the second step the other tripeptide linker was selectively and almost quantitatively removed from the N-terminus of the precursor via trypsin-catalyzed hydrolysis. This study demonstrates that substance P can be obtained from an engineered protein by proteinase-catalyzed processing.
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PMID:Proteinase-catalyzed conversion of a substance P-precursor peptide. 138 46

Substance P (SP) and the mRNA coding for its precursor peptide, preprotachykinin (PPT), were measured in medullary raphe nuclei (MRN) and neostriatum (NS) over development in order to determine (1) whether PPT mRNA levels correlate with peptide development, and (2) whether changes in PPT mRNA might help to account for the apparent decline in SP seen immunohistochemically in certain brain areas postnatally. Total RNA was quantified in dissected tissue pieces using the sensitive orcinol reaction. When MRN PPT mRNA levels measured by Northern blot analysis were adjusted to total RNA levels, PPT mRNA per MRN increased over development with a profile similar to that seen for SP peptide. Moreover, both peptide and mRNA levels exhibited a similar decline after postnatal day 15. Therefore, developmental regulation of SP biosynthesis in the MRN may, in part, explain previous evidence documenting a postnatal decline in SP there. In the NS, SP peptide and PPT mRNA increased with a similar profile from E18 through the first postnatal week. Thereafter, SP increased less rapidly than its mRNA, indicating incongruities in prohormone message and processed peptide in the NS.
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PMID:A comparison of substance P peptide and preprotachykinin mRNA levels during development of rat medullary raphe and neostriatum. 170 79

The terminal step in the biosynthesis of substance P is the conversion of its glycine-extended precursor to the mature, amidated peptide by the alpha-amidating enzyme. This posttranslational modification was demonstrated in cultured, dissociated sensory neurons of dorsal root ganglia from neonatal rats. An assay was developed to quantitate both substance P and its precursor peptide in these cells. More than 90% of these two peptides was present as mature peptide in uncultured cells. In contrast, after 8 days in culture, about 85% of the peptides was the precursor, which increased 200-fold, whereas the level of substance P itself tripled during this culturing period. Since alpha-amidating enzyme requires ascorbate for activity, this reducing agent was added to the culture medium. Ascorbate induced a dose-dependent rise in the percentage of amidated peptide, with an apparent Km of 20 microM. After 5 days of culturing in the presence of 500 microM ascorbate, substance P increased 8-fold, constituting 70% of the total. The alpha-amidating enzyme also needs copper for activity. Even with 500 microM ascorbate in the culture medium, the copper chelator diethyldithiocarbamate dose-dependently reduced substance P synthesis by the sensory neurons, with a concomitant increase in its precursor peptide. These results suggest the presence of alpha-amidating enzyme in sensory neurons of dorsal root ganglia. It is likely that conversion of other glycine-extended precursors to their mature peptides in cell cultures would also require ascorbate and copper.
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PMID:Posttranslational modification of glycine-extended substance P by an alpha-amidating enzyme in cultured sensory neurons of dorsal root ganglia. 751 6

C-terminal amidation is a posttranslational modification found in many neuropeptides. Peptidylglycine alpha-amidating monooxygenase (PAM) catalyzes the synthesis of the biologically essential C-terminal amide from a glycine-extended precursor peptide. Reported herein are the first potent inhibitors of PAM. Dipeptides containing a C-terminal homocysteine and an N-acylated hydrophobic amino acid were found to inhibit PAM with IC50s in the low nanomolar range. Inhibition potency was dependent on both the carboxylate and the thiolate functionalities of the homocysteine and on the hydrophobic groups of the second amino acid. The thiolate was postulated to produce high binding affinities through coordination with the active-site copper. The compound series also exhibited potent inhibition of PAM in rat dorsal root ganglion cells as demonstrated by a dose-dependent increase in the substance P-Gly/substance P ratio. These results indicate that the compounds have sufficient potency and intracellular bioavailability to aid future studies focused on neuropeptide function and the contributions of neuropeptides to various disease processes.
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PMID:Inhibition of peptidylglycine alpha-amidating monooxygenase by N-substituted homocysteine analogs. 752 81

Syntheses of substance P, somatostatin, and calcitonin gene-related peptide in sensory neurons have been suggested to be regulated by neurotrophic factors retrogradely transported from target tissues. In this study, we re-examined this idea by investigating the coexpression of neurotrophin receptor (trk family proto-oncogene) messenger RNAs, and preprotachykinin-A (a precursor peptide of substance P), alpha-calcitonin gene-related peptide and somatostatin messenger RNAs in lumbar dorsal root ganglion neurons by means of in situ hybridization histochemistry in rats. Approximately 35-40%, 5% and 15-20% of sensory neurons displayed signals for trkA, trkB, and trkC messenger RNAs, respectively. Approximately 28% of dorsal root ganglion neurons were positive for preprotachykinin-A messenger RNA, and were divided into two groups; those labeled strongly and those labeled weakly by in situ hybridization. All the strongly-labeled neurons (78% of preprotachykinin-A-positive cells) expressed trkA messenger RNA at the same time, while the weakly-labeled neurons did not. Thirty-seven per cent of dorsal root ganglion neurons expressed alpha-calcitonin gene-related peptide messenger RNA, and most of these neurons (84%) also expressed trkA messenger RNA. No or few preprotachykinin-A messenger RNA- and/or alpha-calcitonin gene-related peptide messenger RNA-expressing neurons were also positive for trkB or trkC messenger RNAs. Nine per cent of dorsal root ganglion neurons expressed somatostatin messenger RNA, and these neurons lacked all three trk messenger RNAs. Furthermore, most of these neurons (about 90%) showed positive, albeit weak, signals for preprotachykinin-A and alpha-calcitonin gene-related peptide messenger RNAs. The results suggest that expression of preprotachykinin-A and alpha-calcitonin gene-related peptide messenger RNAs is mediated by nerve growth factor via trkA receptor but not by brain-derived neurotrophic factor or neurotrophin-3, and that somatostatin gene transcription is not regulated by any member of the neurotrophin family in rat sensory neurons.
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PMID:Coexpression of preprotachykinin-A, alpha-calcitonin gene-related peptide, somatostatin, and neurotrophin receptor family messenger RNAs in rat dorsal root ganglion neurons. 884 23

Substance P as well as many other neuropeptides are synthesized as glycine-extended precursors and converted to the biologically active C-terminal amides by posttranslational modification. The final step of posttranslational processing is catalyzed by peptidylglycine alpha-amidating monooxygenase (PAM). In a previous study, N-substituted homocysteine analogs were found to be potent inhibitors of PAM partially purified from conditioned medium of cultured rat medullary thyroid carcinoma CA-77 cells. These compounds, however, were only modest inhibitors of substance P production in cultured dorsal root ganglion cells, possibly because of poor cell penetration. Several ester derivatives of hydrocinnamoyl-phenylalanyl-homocysteine, one of the most potent PAM inhibitors, were prepared to increase the intracellular accessibility of these compounds. Hydrocinnamoyl-phenylalanyl-(S-benzoyl-homocysteine) benzyl ester was identified as the most potent compound, inhibiting substance P biosynthesis in dorsal root ganglion cells with an IC50 of 2 microM. Inhibition of PAM resulted in a concomitant increase in the glycine-extended substance p (substance P-Gly) precursor peptide. In the presence of 3 microM benzyl ester derivative, the intracellular substance P-Gly level was 2.4-fold higher while the substance P level was 2.1-fold lower than the corresponding peptides in control cells. These results suggest that PAM inhibition represents an effective method for suppression of substance P biosynthesis and, therefore, may have therapeutic utility in conditions associated with elevated substance P levels. Furthermore, PAM inhibition may also prove useful in decreasing other amidated peptides.
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PMID:Suppression of substance P biosynthesis in sensory neurons of dorsal root ganglion by prodrug esters of potent peptidylglycine alpha-amidating monooxygenase inhibitors. 916 29

Substance P and neurokinin B are tachykinins that derive from different precursors. Both tachykinins are known to be involved in the processing of pain-related information. Initial studies suggested an antinociceptive effect for neurokinin B, but more recent data indicate that neurokinin B facilitates nociception. Unfortunately, morphologic correlates are lacking, as little is known about the distribution of neurokinin B, especially at the ultrastructural level. Because of its potentially important role in the processing of pain-related information, we decided to investigate the synaptic interactions of neurokinin B-immunoreactive profiles in laminae I-III of the rat cervical spinal dorsal horn and their relation to substance P-immunoreactive structures. An antibody raised against a portion of the neurokinin B precursor peptide was used for the detection of neurokinin B. Neurokinin B-like immunoreactivity occurred in all superficial laminae, with the highest density in inner lamina II and the lowest in lamina III. Neurokinin B-like immunoreactive axonal boutons were mainly dome-shaped and established symmetric synaptic contacts with dendrites or cell bodies. Neurokinin B-like immunoreactivity was also detected in dendritic profiles in all superficial laminae. Some of these dendritic profiles were part of synaptic glomeruli in inner lamina II and lamina III. Double-labeling for neurokinin B and substance P showed a lack of appositions and synapses between neurokinin B and substance P-positive profiles. Furthermore, very few profiles double-labeled for the two peptides were observed. Double-labeling for gamma-aminobutyric acid (GABA) and neurokinin B showed a complete absence of neurokinin B/GABA co-localization. Furthermore, neurokinin B-positive profiles were never presynaptic to GABA-immunoreactive profiles, but frequently neurokinin B-positive dendrites were postsynaptic to GABA-immunoreactive boutons. These results suggest that neurokinin B participates in circuits separate from those involving substance P, as virtually no anatomic correlation was found between the two neuropeptides.
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PMID:Immunocytochemical localization of neurokinin B in the rat spinal dorsal horn and its association with substance P and GABA: an electron microscopic study. 1075 7

A large 40-residue precursor peptide (propeptide 5) was synthesized by linking together four designed anticancer peptide analogs to the neuropeptides: vasoactive intestinal peptide, somatostatin, bombesin and substance P, using enzyme cleavable lysyl-lysine linkers. On incubation with the enzyme trypsin, propeptide 5 was cleaved in a sequence-specific manner at the lysyl-lysine residues in the linker to release the individual peptide fragments which were identified by LC-MS. Another precursor peptide (propeptide 5a), consisting of two of the peptide analogs linked through lysyl-lysine linker, was also preferentially cleaved at the Lys-Lys site on incubation with the enzyme trypsin. Propeptide 5 showed potent anticancer activity, both in vitro and in vivo, which was greater than that of the individual component peptides. The enhanced activity suggests that the propeptide is possibly cleaved in the biological system at the lysyl-lysine site to yield the individual peptide analogs, which together show a synergistic effect. On the basis of these experimental findings, it can be concluded that pairs of basic amino acids such as Lys-Lys can be used as facile linkers for delivering multiple biologically active peptides.
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PMID:Delivering multiple anticancer peptides as a single prodrug using lysyl-lysine as a facile linker. 1755 67

Substance P (SP) is a neuropeptide that is released from sensory nerves and several types of immune cells. It is involved in the transmission of pain and has a number of pro-inflammatory effects. Like other neuropeptides, SP is derived from a large precursor peptide, protachykinin A (PTA). Alternative splicing results in the production of four distinct PTA molecules that all contain the sequence of SP and a common N-terminal region consisting of 37 amino acids. We have developed a sandwich immunoassay using antibodies against the N-terminal part of PTA. Here we demonstrate that N-terminal PTA immunoreactivity is present in human circulation and cerebrospinal fluid (CSF). The concentration was about 90 times higher in CSF than in EDTA-plasma. Analytical reversed phase HPLC revealed that NT-PTA 1-37 is the main immunoreactivity in human circulation and CSF. Moreover, compared to the low in vitro stability of SP of less than 12 min, NT-PTA immunoreactivity is absolutely stable in EDTA-plasma and CSF for more than 48 h. As NT-PTA 1-37 is produced in stoichiometric amounts and is theoretically co-released with SP, we suggest the measurement of NT-PTA immunoreactivity as surrogate molecule for the release of bioactive SP.
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PMID:Detection of stable N-terminal protachykinin A immunoreactivity in human plasma and cerebrospinal fluid. 1837 54

Sortilin, a member of the family of Vps10p domain receptors, has been shown to be able to bind the precursor peptide of nerve growth factor (proNGF). ProNGF interacts with sortilin and the p75(NTR) receptor on the cell surface to form a molecular complex capable of activating an apoptotic cascade. Keratinocytes can secrete proNGF and they have p75(NTR) on their surface. The expression of sortilin in normal human keratinocytes has not yet been clearly shown. In this study, we show that keratinocytes express sortilin mRNA, and the presence of sortilin protein is shown in cultured keratinocytes and in normal human skin. We have also shown that the cutaneous neuropeptides substance P, calcitonin gene-related peptide, vasoactive intestinal polypeptide, and galanin are able to reduce the expression of sortilin mRNA and sortilin protein in cultured human keratinocytes. In addition, each of the analyzed neuropeptides has the ability to arrest the proNGF-induced apoptosis of human keratinocytes. These results suggest that all the participants in the NGF/proNGF pathway are present in the keratinocytes, and cutaneous neuropeptides can modulate their expressions and actions. The NGF/proNGF balance and its regulation by neuropeptides may have an important role in skin homeostasis.
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PMID:Sortilin is expressed in cultured human keratinocytes and is regulated by cutaneous neuropeptides. 2061 75


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