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

---

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

Morphological and pharmacological data suggest that catecholaminergic neurons receive afferent axons positively labeled for the peptides, substance P and [Met5]-enkephalin. In the present study, electron microscopic immunocytochemistry was used to determine whether a positive reaction for these peptides could be localized to axon terminals forming synapses with catecholaminergic neurons in the locus coeruleus and A2 regions of rat brain. Adjacent sections through these areas were incubated with antiserum to either substance P, [Met5]-enkephalin, or tyrosine hydroxylase, a specific marker for catecholaminergic neurons. The sections were subsequently processes by the peroxidase-antiperoxidase immunocytochemical technique. In both the locus coeruleus and A2 region, tyrosine hydroxylase was localized primarily to perikarya and dendrites of intrinsic neurons; whereas substance P and enkephalin-like immunoreactivity was localized to axons and axon terminals. The axon terminals showing positive reactions for substance P and [Met5]-enkephalin were morphologically similar to each other and to one type of axon terminal which formed synapses with dendrites labeled for tyrosine hydroxylase. This type of axon terminal always formed asymmetric synaptic junctions and contained 3-4 large (75-100 nm) dense vesicles (LDVs) and many small (40-60 nm) clear vesicles (SCVs). The reaction product for substance P and [Met5]-enkephalin was distributed throughout the lumen of the LDVs and formed a rim of labeling around the outer boundaries of the SCVs. These findings demonstrate that substance P and [Met5]-enkephalin-positive reactions are selectively localized to subcellular organelles in axon terminals in the locus coeruleus and A2 region of rat brain. They further suggest that the labeled axon terminals form synapses with dendrites of the catecholaminergic neurons.
...
PMID:Electron microscopic localization of substance P and enkephalin in axon terminals related to dendrites of catecholaminergic neurons. 3 43

Neuronal antigens can be demonstrated histologically by numerous direct and indirect immunocytochemical techniques in which a specific antibody is identified by a marker compound such as fluorescein isothiocyanate, ferritin, or horseradish peroxidase. One of the more sensitive methods for the light and electron microscopic localizations of antigens in sections of tissue is the peroxidase-antiperoxidase (PAP) technique. The experimental procedures and the results obtained using this technique for the localization of the catecholamine synthesizing enzyme, tyrosine hydroxylase, are described. The cellular and ultrastructural localization of the enzyme is demonstrated in perikarya, processes, and terminals of catecholaminergic neurons in rat brain. The immunocytochemical localization of tyrosine hydroxylase is compared to the localization of two peptides, substance P and [Met5]-enkephalin, in the A2 region of the medulla. These studies suggest that a synaptic interaction exists between the catecholaminergic neurons and neurons showing positive immunoreactivity for the peptides. The limitations of the PAP immunocytochemical technique are also discussed in relation to the immunocytochemical localization of tyrosine hydroxylase and other antigens.
...
PMID:Immunocytochemical localization of neuronal antigens: tyrosine hydroxylase, substance P, [Met5]-enkephalin. 3 6

1. A morphological and physiological comparison was made between embryonically and postnatally derived superior cervical ganglion neurons (SCGN) grown in dissociated cell culture. It was found that while morphologically distinct, the physiological properties of the postnatal neurons were the same as their embryonic counterparts. 2. Intracellular injection of horseradish peroxidase (HPR) demonstrated that SCGN from any age of animal elaborated two basic types of processes, although the pattern of process ramification was unique for each neuron. The two types of proceses were 1) the large, smooth, rapidly tapering; and 2) the thin, nontapering variety, which often contained varicosities along its length. It is suggested that the former are dendritic in function, while the latter act as axons. 3. A difference was noted in somal size and the number of primary processes extended by the embryonic and postnatal neurons, with the latter more closely resembling the in vivo morphology. 4. Resting potentials and action-potential amplitudes of postnatal SCGN were comparable to those found previously for embryonic SCGN in vitro. 5. Iontophoretic application of putative neurotransmitter substances revealed the presence of acetylcholine receptors (AChR) on both embryonic and postnatal SCGN. Picrotoxin-sensitive depolarizing responses to iontophoresed gamma-aminobutyric acid (GABA) was seen on a few embryonic neurons, but not on the older cells. No responses were detected when norepinephrine (NE), glutamate, cAMP, substance P, or dopamine were applied to the SCGN of either age group. 6. Synatpic interaction between postnatal SCGN were found at an earlier in vitro age (12 days) than was the case for embryonic neurons (20 days). 7. Synaptic transmission was found to be chemical in nature. This was shown by 1) a dependence on external Ca2+ concentrations; 2) steplike fluctuations in synpatic potential amplitude, and 3) a variation in potential amplitude with changes in membrane potential. 8. It is concluded that the postnatal SCGN are able to survive in culture even when taken from animals up to 12.5 wk old. The elaboration of processes is in many ways strikingly similar to sympathetic neurons in the animal, and they are able to form functional synaptic interactions.
...
PMID:Postnatal rat sympathetic neurons in culture. I. A comparison with embryonic neurons. 3 83

The localization of three different putative neurotransmitters -- indoleamine, catecholamine, and Substance P -- was studied in the paratrigeminal nucleus of the rat and rhesus monkey at the light and electron microscope level by autoradiography following administration of [3H]5-hydroxytryptamine, or [3H]norepinephrine, and by immunocytochemistry using the unlabelled anti-Substance P antiserum peroxidase--antiperoxidase technique. The paratrigeminal neurons are not monoaminergic but certain cells exhibit Substance P-like immunoreactivity. These cells receive a rich plexus of indoleamine afferents, a sparse catecholamine input, and a rich plexus of fibres with Substance P-like immunoreactivity. Of the entire monoaminergic population of labelled axons, more than 60% are synaptic and less then 40% nonsynaptic, and this proportion is the same for indoleamines as for catecholamines. Indoleamine axons form a heterogeneous population with at least four different morphological types that are synaptic and three that are nonsynaptic. They bear distinctive collections of small, clear, tubular or large granular vesicles, which distinguish one category of axon from another. These axons engage in numerous axo--somatic, axo--spinous, axo--dendritic, and possibly axo--axonic relations with paratrigeminal neurons. The catecholamine axons are also heterogeneous in axoplasmic morphology but their terminal contacts are distributed to more peripheral portions of dendrites. The significance of the inter-relations between the monaminergic and peptidergic elements in the paratrigeminal nucleus is discussed in relation to the possible functions of this nucleus as a nociceptive, chemosensitive, or pressure-sensitive centre on the lateral medullary surface.
...
PMID:The paratrigeminal nucleus. II. Identification and inter-relations of catecholamine axons, indoleamine axons, and substance P immunoreactive cells in the neuropil. 9 96

5-Hydroxytryptamine (serotonin)-containing neurons in the rat's medullary raphe and interfascicularis hypoglossi cell groups were identified by means of autoradiography following prolonged intraventricular administration of 5-hydroxy[(3)H]tryptamine, fluorescence histochemistry for the demonstration of endogenous 5-hydroxytryptamine, and microspectrofluorimetric analysis of excitation and emission spectra. Immunocytochemical methods (the unlabeled primary antibody-peroxidase antiperoxidase and indirect immunofluorescence methods) were applied with antisera to substance P in order to localize immunoreactivity in these medullary neurons. It was demonstrated that the raphe nuclei and the interfascicularis hypoglossi nucleus are heterogeneous cell groups that contain: (i) Neurons that display both an uptake-storage capacity for 5-hydroxy[(3)H]tryptamine and a formaldehyde-induced fluorescence with spectral characteristics identical to those of the 5-hydroxytryptamine fluorophor. These cells exhibit high to low fluorescence intensities without detectable substance P-like immunoreactivity. (ii) Neurons with various 5-hydroxytryptamine fluorescence intensities and intense to low degrees of substance P-like immunoreactivity. (iii) Neurons with various degrees of substance P-like immunoreactivity without detectable 5-hydroxytryptamine fluorescence or 5-hydroxy[(3)H]tryptamine uptake and storage capacity. These results indicate that some neurons contain high or low levels of only 5-hydroxytryptamine or substance P, whereas other neurons contain both 5-hydroxytryptamine and substance P in various proportions. The present findings demonstrate the presence of two putative transmitters, a biogenic amine and a polypeptide, within the same neuron in the mammalian central nervous system.
...
PMID:Serotonin and substance P coexist i, neurons of the rat's central nervous system. 27 44

The indirect immunofluorescence method and the unlabeled primary antibody peroxidase antiperoxidase method are used to demonstrate the substance P (SP) plexus in the spinal cord and SP cells in the sensory ganglia of the rat. The normal untreated and the control side of the dorsal rhizotomized rat show vast SP immunoreactive plexuses in the substantia gelatinosa, central gray, and ventral gray regions of the spinal cord. In each sensory ganglion, approximately 250 SP immunoreactive cells are found singly or in small groups of 2 or 3, near blood capillaries or among ganglion and satellite cells. They contain intensely immunoreactive cytoplasmic granules 0.1-3.0 mum across. Occasionally, free intensely immunoreactive granules are found in the surrounding tissue near an SP cell but not clearly within the confines of the cell. Another type of immunoreaction has been observed with both methods. A less intense, homogeneous reactivity has been found in lamellae insinuated between ganglion cells and near blood capillaries close to an SP cell; the characteristic disposition of this homogeneous reactivity suggests an extracellular location. Unilateral rhizotomy results in an increased number of immunoreactive SP cells and nerve fibers as well as a more extensive homogeneous immunoreactivity. These results add to existing evidence that SP cells in sensory ganglia send fibers via the dorsal roots to the spinal cord. SP cells, fibers, and terminals do not take up exogenously applied (125)I-labeled [Tyr(8)]SP and cannot be demonstrated by subsequent autoradiography. No neurotensin immunoreactive cells were found in sensory ganglia.
...
PMID:Immunocytochemical identification of substance P cells and their processes in rat sensory ganglia and their terminals in the spinal cord: light microscopic studies. 33 42

The unlabeled substance P (SP) antibody-peroxidase-antiperoxidase reaction was used on tissue prior to embedding in epoxy reins for ultrastructural identification of the SP cell and its immunoreactive granules. The SP cell is 10-20 mum in diameter and has sparse cytoplasm with numerous intensely reactive SP granules 100-300 nm across, large clear vacuoles, elaborate smooth endoplasmic reticulum, fragmentary rough endoplasmic reticulum, dispersed ribosomes, few mitochondria, and a modest Glogi apparatus. The large SP-reactive granules are discharged into the extracellular space, either with cell membrane intact or as unbound dense material. The membrane-bound dense granucles are transported intact through endothelial cells into the blood or are picked up by Schwann cells and fibroblasts. Other SP-reactive granules lose their limiting membranes, fragment, and then disperse into fine immunoreactive grains that bind to the extracellular matrix and to collagen. Dispersed SP-reactive granules are transported within myriad pinocytotic vesicles across endothelial cells with numerous luminal plications and are discharged into the blood. Pinocytosis of dispersed SP-reactive material, that can be detected intracellularly, also occurs in Schwann cells and fibroblasts. The SP axons to the substantia gleatinosa are unmyelinated or finely myelinated. Their synaptic varicosities display a generalized axoplasmic immunoreactivity, which also occurs in and around small vesicles. The larger SP synaptic vesicles are intensely reactive.
...
PMID:Ultrastructural identification of substance P cells and their processes in rat sensory ganglia and their terminals in the spinal cord by immunocytochemistry. 33 57

Immunocytochemical techniques locating neurotransmitter-synthsizing enzymes are currently being employed to determine the nature of transmitters associated with individual neurons. The use of peroxidase-anti-peroxidase Fab (PAP Fab) complex modified from Sternberger's PAP method, among several other immunocytochemical methods is recommended for the visualization of antigens in cerebral tissues. The enzyme fixed in nervous tissues is reacted with anti-enzyme produced in rabbits followed by incubation with goat-anti-rabbit serum. Subsequent application of PAP Fab complex prepared separately results in a formation of a complex composed of enzyme: anti-enzyme: goat-anti-rabbits: PAP-Fab. The enzymes can be visualized under light and electron microscope by the deposition produced by the action of peroxidase on 3,3'-diaminobenzidine. Thus, the antibody to glutamate decarboxylase (GAD), the enzyme that synthesizes gamma-aminobutyric acid (GABA) was employed to identify GABAergic neurons in central nervous system of rodents. Specific staining for GAD was highly localized in close association with synaptic vesicles in certain axon terminals including basket, Golgi and the Purkinje cell terminals in the cerebellum. The distribution of GAD observed in immunocytochemical preparations was consistent with indirect biochemical, physiological and morphological data dealing with the synaptic role of GABA neurons in the cerebellum. The correlation of the immunocytochemical distribution of GABA neurons in the spinal cord, substantia nigra, olfactory bulb, retina and Ammon's horn with physiological and biochemical results can also been obtained. The method has been successfully employed to visualize dopamine-beta-hydroxylase (DBH) and substance P. DBH, as an indicative enzyme for noradrenergic (NA) neurons, was highly localized in the neuronal soma of the locus coeruleus and in synaptic varicosities in the stria terminalis associated with synaptic vesicles. Association of substance P in probable primary afferent terminals with large vesicles also supports the synaptic function of the compound in the spinal cord.
...
PMID:[Immunocytochemical technique--Application for identifying GABA neurons (author's transl)]. 35 33

A novel method for detecting the membrane receptors of Substance P (SP) has been developed. The method does not require radioactive derivatives of SP and is based on quantitation of specifically bound biotinylated SP (Bt-SP), the analysis being performed after destruction of the ligand-receptor complex in acidic conditions and Bt-SP extraction into solution. The acidic extract from the Bt-SP-membrane complex after neutralization is added to immulon microELISA plate coated with affinity purified anti-SP-antibodies. The sensitivity of subsequent detection of Bt-SP enhances by using a new type of the streptavidin conjugate with a polymeric form of horseradish peroxidase. Enzyme immunoassay conditions were optimized using [125I]-labelled SP derivative. The developed method allows the determination of femtomoles of SP in a sample and has a sensitivity comparable to that of radioligand analysis.
...
PMID:[A new immunochemical method for detecting substance P receptors based on the biotin-streptavidin system]. 128 Jan 42

In order to study the relationship between retinal projections and immunohistochemically identified neurotransmitter systems in the primary visual centers of the brain in lizards, intraocular injections of horseradish peroxidase were combined with immunohistochemistry. Antibodies raised against six substances were applied: choline acetyltransferase (ChAT), serotonin (5-HT), tyrosine hydroxylase (TH), dopamine (DA), substance P (SP), and leu-enkephalin (LENK). In the primary visual centers of the lizards Gekko gecko and Gallotia galloti, notable overlap was observed between retinofugal fibers with: 1) ChAT-immunoreactive fibers in almost all primary visual centers; 2) 5-HT-immunoreactive fibers in the ventral lateral geniculate body and the basal optic nucleus; 3) TH-immunoreactive fibers in the nucleus ovalis and the dorsal lateral geniculate body; 4) SP- and LENK-immunoreactive fibers in the perirotundal belt; and 5) TH- and SP-immunoreactive fibers in the pretectal posterodorsal nucleus. The latter nucleus also contains dopaminergic cell bodies that lie outside the retinal target area but have dendrites extending into it. Several differences were noted in the distribution of 5-HT, TH-, DA-, and LENK-immunoreactive fibers in the tectum of the midbrain in the two species studied. Distinct laminae of 5-HT-immunoreactive fibers (layer 9) and TH- and DA-immunoreactive fibers (layers 9 and 11) are present in G. gecko but absent or, at least, less distinct in G. galloti. On the contrary, the optic layers in the tectum of G. galloti show a rather dense plexus of LENK immunoreactive fibers, whereas the corresponding layers in G. gecko are devoid of LENK-immunoreactivity. Since only a very few ChAT immunoreactive fibers were observed in the optic nerve of G. galloti, most of the observed immunoreactive fibers in the primary visual centers are considered to have an extraretinal origin. Putative sources of the cholinergic, the monoaminergic, and the peptidergic innervation of the primary visual centers in reptiles include the isthmic nucleus, the raphe nuclei, the substantia nigra and the nucleus of the posterior commissure, as reported in other amniotes.
...
PMID:Cholinergic, monoaminergic and peptidergic innervation of the primary visual centers in the brain of the lizards Gekko gecko and Gallotia galloti. 128 May 14


1 2 3 4 5 6 7 8 9 10 Next >>

---