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 major findings and conclusions of this study are the following: Indirect evidence for the presence of the bronchoconstrictive transmitter acetylcholine in the human bronchial smooth muscle was obtained by demonstration of acetylcholinesterase-positive nerve fibers and nerve profiles of cholinergic type. Acetylcholinesterase-positive nerve fibers and nerve profiles of cholinergic type were found in human bronchial glands. A sparse adrenergic innervation of the human bronchial smooth muscle and glands was found by using catecholamine histofluorescence. This observation was supported by finding ultrastructurally adrenergic-like nerve profiles close to smooth muscle cells. Direct evidence for the presence of a new possible bronchodilating transmitter VIP (vasoactive intestinal peptide) in the human bronchial smooth muscle was obtained both by light microscopical demonstration of VIP immunoreactive nerve fibers and by localization of VIP like immunoreactivity in granules in nerve profiles. Nerve fibers containing VIP-immunoreactivity were found in the human bronchial glands by light microscopy. Substance P-immunoreactive nerves were found in the lower respiratory tract of the rabbit but not of man by light microscopy. Intraepithelial nerves were demonstrated in man from trachea to segmental bronchi and their concentration was established. The intraepithelial nerves seem to have two predominant locations: either close to the airway lumen or near the basement membrane. Nerves near the lumen were found only in larger airways e.g. trachea and lobar bronchi.
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PMID:Autonomic innervation of the human respiratory tract as revealed by histochemical and ultrastructural methods. 241 Feb 88

The localization and distribution of neuropeptide Y-like immunoreactivity in the guinea-pig heart were studied by use of immunohistochemical methods. A widespread distribution of immunoreactive processes was observed in all regions of the heart. They occur either singly or together with several other immunoreactive processes and are most often aligned parallel to the myocardial bundles. A dense network of processes is present in the region of both the sinuatrial and atrioventricular nodes and single fibers are occasionally observed to be closely associated with nodal ganglion cells. Positive cell bodies were not seen within the heart. All small, medium and large coronary vessels are surrounded by a dense network of immunoreactive processes. A rich innervation at the media-adventitia junction of the aorta, pulmonary trunk, superior and inferior vena cava was also observed. Comparison of adjacent sections stained with antisera directed to avian pancreatic polypeptide, carboxyl-terminal hexapeptide of pancreatic polypeptide or neuropeptide Y demonstrated a very similar immunoreactive pattern, suggesting that these antisera are reacting with the same or a closely related substance. Likewise, the same immunoreactive patterns were observed in adjacent sections incubated in antiserum to neuropeptide Y or tyrosine hydroxylase, and analysis of elution-restained sections demonstrated that the same processes contain both neuropeptide Y- and tyrosine hydroxylase-like immunoreactivity. Neuropeptide Y- and tyrosine hydroxylase-like immunoreactivity was reduced by the same magnitude after treatment with the sympathetic neurotoxin 6-hydroxydopamine, but it was not affected by the primary sensory neurotoxin capsaicin. Furthermore, the pattern of neuropeptide Y- and tyrosine hydroxylase-like immunoreactivity did not match the staining patterns observed with antisera to vasoactive intestinal polypeptide or substance P or with the acetylcholinesterase staining pattern. In conclusion, neuropeptide Y-like immunoreactivity in the heart and great vessels coexists with that for catecholamines and is likely to originate from sympathetic ganglia.
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PMID:Distribution and colocalization of neuropeptide Y- and tyrosine hydroxylase-like immunoreactivity in the guinea-pig heart. 241 9

Degeneration of cholinergic neurons from the basal forebrain nuclei is suspected to be the cause of Alzheimer disease. We have developed dissociated cultures of cholinergic neurons from these nuclei (the nucleus basalis of Meynert, the medial septal nucleus, and the diagonal band nuclei). Brain slices of the forebrains were made by a vibratome, and the basal forebrain nuclei were dissected out, dissociated, and cultured. Choline acetyltransferase immunocytochemistry and acetylcholinesterase cytochemistry revealed large cholinergic cells (average diameter, 20-25 micron) in these cultures. About 75% of large neurons (20 micron or larger in diameter) were cholinergic. Electrophysiological experiments were performed on these large neurons. The neurons usually did not show spontaneous firing, but steady depolarizations produced trains of action potentials, which adapted quickly. The neurons responded with depolarization to the application of L-glutamic acid. Substance P produced depolarization (sometimes hyperpolarization), and during the depolarization membrane resistance was increased.
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PMID:Dissociated cell culture of cholinergic neurons from nucleus basalis of Meynert and other basal forebrain nuclei. 241 32

Location, distribution and density of nerve fibers immunoreactive to neuropeptide tyrosine, vasoactive intestinal polypeptide and substance P were studied in the reproductive tract of the female rat and compared with acetylcholinesterase-positive ("cholinergic") and noradrenergic nerves. Plexuses of all types of fibers were present in the vagina, uterine cervix, uterine horn and oviduct. In the tubular reproductive organs all of these types of nerve fibers appeared to innervate vascular and non-vascular smooth muscle and nearly all types of fibers formed plexuses subjacent to the epithelium lining the organs. Individual fibers of all classes appeared to innervate fascicles of smooth muscle in the mesometrium of the uterine horn. A few acetylcholinesterase-positive and substance P-immunoreactive fibers were present in the ovary but no vasoactive intestinal polypeptide-immunoreactive nerves were observed. Noradrenergic and neuropeptide tyrosine-immunoreactive nerves were numerous in the ovary where they were seen in the interstitial gland tissue and associated with follicles and blood vessels. It is suggested that these nerves may influence hemodynamic events and non-vascular smooth muscle in such functions as transport of sperm and ova and parturition. Substance P-immunoreactive nerve fibers are likely to be sensory fibers that could have roles in neurohormonal reflexes.
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PMID:Comparative distribution of neuropeptide tyrosine-, vasoactive intestinal polypeptide-, substance P-immunoreactive, acetylcholinesterase-positive and noradrenergic nerves in the reproductive tract of the female rat. 241 49

Colocalization of substance P (SP), corticotropin releasing factor (CRF), and acetylcholinesterase (AChE) was detected by retrograde tracing and immunocytochemical staining in the nucleus tegmentalis dorsalis lateralis (ntdl) projecting to the medial frontal cortex (MFC), septum, and thalamus of the rat. The histochemical results suggest that SP and CRF coexist within a subpopulation of ntdl cholinergic neurons that project to a number of forebrain regions including the MFC. Behavioral studies of the effects of SP, CRF, and the cholinergic agonist, carbachol, employed microinjections into the MFC of rats. SP and CRF did not elicit any behavioral effects when administered alone. Carbachol (1-5 micrograms/side) produced a stereotyped motor behavior, consisting of rapid forepaw treading while in an upright posture, resembling "boxing." SP (1 micrograms/side) increased carbachol-induced "boxing." CRF (1-10 ng/side) decreased carbachol-induced "boxing." One possible functional significance of the coexistence of SP, CRF, and acetylcholinesterase, in neurons projecting to the medial frontal cortex in rats, appears to be a modulatory potentiation of cholinergic response by SP, and a modulatory inhibition of the cholinergic response by CRF.
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PMID:Behavioral investigation of the coexistence of substance P, corticotropin releasing factor, and acetylcholinesterase in lateral dorsal tegmental neurons projecting to the medial frontal cortex of the rat. 241 3

The Edinger-Westphal (EW) nucleus, also known as the accessory oculomotor nucleus in the chick, provides the cholinergic preganglionic input to the parasympathetic ciliary ganglion. In addition to acetylcholine, many EW neurons have been shown to contain enkephalin-like and/or substance P-like immunoreactivity. Establishment of EW neurons in culture would make possible study of their interactions with ciliary ganglion neurons in vitro and in addition would provide a valuable system for studying cholinergic/peptidergic neurons of the vertebrate central nervous system. We describe here dissociated cell cultures established from midbrain tissue containing the EW nucleus. In these cultures, 86% of the cells with neuronal morphology were positive for intracellular acetylcholinesterase activity, 54% were positive for enkephalin-like immunoreactivity, and 4% were positive for substance P-like immunoreactivity. The proportions of neurons that scored as labeled were even higher if the number of positive cells was compared to the number of cells in sister cultures immunoreactive for the large neurofilament protein polypeptide. When the cultures were stained simultaneously for acetylcholinesterase activity and enkephalin-like immunoreactivity, 34% of the cells with neuronal morphology were positive for both. In cultures derived from adjacent tissue regions very few cells expressed both activities. These results suggest that the cells expressing both acetylcholinesterase activity and enkephalin-like immunoreactivity in culture are EW neurons. The putative EW neurons survive for weeks in vitro in the absence of their normal target, the ciliary ganglion.
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PMID:Preganglionic neurons from the Edinger-Westphal nucleus: growth and histochemical characterization in cell culture. 241 24

Light and electron microscopic peroxidase-antiperoxidase immunocytochemistry has been used to localize choline acetyltransferase, substance P and enkephalin in the hypoglossal nucleus of the rat. Choline acetyltransferase immunoreactivity was observed in motoneurone cell bodies and proximal dendrites, in large varicosities in the surrounding neuropil and in nerve terminals in synaptic contact with immunostained motoneurones. Most choline acetyltransferase immunostained terminals which made synaptic contact with motoneurone cell bodies and proximal dendrites possessed prominent subsynaptic cisterns and belong to the terminal type referred to in the literature as C or L. Substance P and enkephalin immunoreactivity did not occur in motoneurones but was seen in fibres and synaptic terminals. Substance P immunoreactive fibres made multiple axosomatic contacts while enkephalin immunoreactive terminals made synaptic contact mainly with large and small dendrites. C terminals were not stained for either substance P or enkephalin. This study provides immunocytochemical support for the classic identification of hypoglossal motoneurones as cholinergic and in addition shows that these neurones are innervated by a number of morphologically and chemically distinct terminal types. C terminals have previously been shown to contain cholinesterase and our demonstration that these terminals contain choline acetyltransferase thus provides additional evidence for their cholinergic nature and for a cholinergic innervation of hypoglossal motoneurones. The origin of the immunoreactive terminals was not identified in this study but possible candidates include the raphe nuclei for substance P. and propriobulbar interneurones for choline acetyltransferase.
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PMID:Inputs to motoneurones in the hypoglossal nucleus of the rat: light and electron microscopic immunocytochemistry for choline acetyltransferase, substance P and enkephalins using monoclonal antibodies. 242 Nov 99

The peptidase site of human plasma cholinesterase (butyrylcholinesterase) is distinct from its esteratic site. We found that the number of peptidase sites on an enzyme highly purified from pooled plasma is less than 0.1, as compared with 4 esteratic sites, per tetramer. However, the subunits which carry the peptidase sites are electrophoretically indistinguishable from esteratic subunits. The atypical-silent enzyme (Ea1Es1) had a much higher absolute peptidase activity when substance P was used as the substrate, and we found that the number of peptidase and esteratic sites of this enzyme was roughly the same. This suggests that the mutated esteratic site of the silent possesses a peptidase activity. The esteratic site of the usual allozyme (Eu1Eu1) has no peptidase activity towards substance P. However, a small proportion of peptidase subunits are present in all preparations of enzymes purified from the plasmas of homozygote individuals. The peptidase activity of butyrylcholinesterase might therefore correspond to a specific isoenzyme produced by an epigenetic mechanism or produced by a gene distinct from genes E1 and E2 encoding for cholinesterase subunits. However, the possibility that highly purified cholinesterase contains traces of a dipeptidylaminopeptidase cannot be completely ruled out.
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PMID:Is the peptidase activity of highly purified human plasma cholinesterase due to a specific cholinesterase isoenzyme or a contaminating dipeptidylaminopeptidase? 242 54

The organization of afferent and efferent connections of the interpeduncular nucleus (IP) has been examined in correlation with its subnuclear parcellation by using anterograde and retrograde tracing techniques. Based on Nissl, myelin, and acetylcholinesterase staining five paired and three unpaired IP subnuclei are distinguished. The unpaired division includes the rostral subnucleus (IP-R), the apical subnucleus (IP-A), and the central subnucleus (IP-C). The subnuclei represented bilaterally are the paramedian dorsal medial (IP-DM) and intermediate subnuclei (IP-I) and the laterally placed rostral lateral (IP-RL), dorsal lateral (IP-DL), and lateral subnuclei (IP-L). Immunohistochemical techniques showed cell bodies and fibers and terminals immunoreactive for substance P, leu-enkephalin, met-enkephalin, or serotonin to be differentially distributed over the different IP subnuclei. Substance P-positive perikarya were found in IP-R, enkephalin neurons in IP-R, IP-A, and the caudodorsal part of IP-C, and serotonin-containing cell bodies in IP-A and the caudal part of IP-L. Efferent IP projections were studied both by injecting tritiated leucine in IP and by injecting HRP or WGA-HRP in the presumed termination areas. The results indicate that the major outflow of IP is directed caudal-ward to the median and dorsal raphe nuclei and the caudal part of the central gray substance, i.e., the dorsal tegmental region. The projection appears to terminate mainly in the raphe nuclei, around the ventral and dorsal tegmental nuclei of Gudden, and in the dorsolateral tegmental nucleus. The descending projection to the dorsal tegmental region originates in virtually all IP subnuclei, but the main contribution comes from IP-R and the lateral subnuclei IP-RL, IP-DL, and IP-L. Sparser projections to the dorsal tegmental region originate in IP-C and IP-I, whereas the contribution of IP-A is only minimal. The projections from IP-R are mainly ipsilateral and those from IP-DM are mainly contralateral. IP fibers to the median and dorsal raphe nuclei originate predominantly in IP-R and IP-DM, and to a lesser extent in IP-C, IP-I, IP-RL, and IP-DL. A much smaller contingent of IP fibers ascends to diencephalic and telencephalic regions. A relatively minor projection, stemming from IP-RL and IP-DL, reaches the lateral part of the mediodorsal nucleus, the nucleus gelatinosus, and some midline thalamic nuclei. These IP fibers follow either the habenulo-interpeduncular pathway or the mammillothalamic tract.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cytoarchitecture, fiber connections, and some histochemical aspects of the interpeduncular nucleus in the rat. 242 12

Transmural nerve stimulation (TNS) of the right atria in vitro produced positive and negative chronotropic responses in rats and guinea pigs. The negative component appeared only temporarily soon after the cessation of TNS and was usually masked by the positive component. The positive and negative chronotropic responses were accompanied by an increase and decrease in contractile force, respectively. Atenolol (3 X 10(-6) M) decreased and atropine (10(-6) M) potentiated the TNS-induced positive chronotropic response. In the presence of both atenolol and atropine, TNS accelerated the heart rate markedly in the right atria of guinea pigs and slightly in those of rats. TNS-induced acceleration of the heart rate was also observed in surgically sympathectomized or reserpine-pretreated (5 mg/kg/48 hr and 2.5 mg/kg/24 hr i.p.) right atrium, in which tyramine (up to 10(-4) M) exerted no appreciable effect. Inasmuch as tetrodotoxin (10(-6) M) almost abolished the TNS-induced chronotropic response, this atenolol- and atropine-resistant response is likely mediated by nonadrenergic noncholinergic (NANC) nerve(s). The NANC nerve-mediated positive chronotropic response was not affected by diphenhydramine (10(-6) M), cimetidine (10(-6) M), methysergide (10(-6) M) and hexamethonium (3 X 10(-6) M). The NANC nerve-mediated response was relatively slow at the onset yet long-lasting compared with adrenergic and cholinergic responses, suggesting that the neurotransmitter of the NANC nerve is a certain substance which may be inactivated more slowly than biogenic amines. Histochemical studies demonstrated the presence of vasoactive intestinal polypeptide-like and substance P-like immunoreactive nerves in the right atrium, as well as catecholamine-fluorescence and acetylcholinesterase-positive nerves.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacological analysis of autonomic innervation of the right atria of rats and guinea pigs: demonstration of nonadrenergic noncholinergic nerves. 242 43


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