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:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Central terminals of the primary sensory neurons depend on the integrity of the retrograde transport mechanism within the peripheral axon. Whenever retrograde transport is impaired (either by injury or by blockade induced by perineural application of microtubule inhibitors) central terminals undergo transganglionic degenerative atrophy (TDA), characterized by depletion of substance P, somatostatin, FRAP (fluoride resistant acid phosphatase), TMPase (thiamine monophosphatase) and lectin-binding fucose-terminated glyco-conjugates. The TDA is essentially a failure of the central terminals to bind the above genuine marker substances. TDA-inflicted central terminals undergo a slowly proceeding ultrastructural deterioration, accompanied by derangement of the dorsal root potential, reflecting decreased functional activity of synaptic transmission between first and second-order cells. One of the important trophic substances carried by retrograde axoplasmic transport to dorsal root ganglion cells is nerve growth factor (NGF); blockade of NGF transport results in TDA; conversely, locally applied NGF delays or prevents TDA.
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PMID:Transganglionic regulation of the primary sensory neuron. 244 67

Localization of GM1 ganglioside, the receptor for cholera toxin, and choleragenoid, which is the binding subunit of cholera toxin, was studied in the rat L5 dorsal root ganglion. Sections were incubated with choleragenoid and treated immunocytochemically. Choleragenoid-like immunoreactive cells were then examined for possible co-localization with carbonic anhydrase-like, RT 97 (antibody to neurofilament proteins), substance P-like, somatostatin-like and calcitonin gene-related peptide-like immunoreactivity and fluoride-resistant acid phosphatase (FRAP) activity, using adjacent sections. A subpopulation of dorsal root ganglion neurons exhibited choleragenoid-like immunoreactivity. The majority of these were medium-sized and large neurons. The strongest immunoreactivity was found in the area of the plasma membrane, but strong reactivity was also seen in the cytoplasm. The majority of the choleragenoid-like immunoreactive cells showed carbonic anhydrase-like and RT 97 immunoreactivity. Cells showing co-localization of choleragenoid-like and neuropeptide-like immunoreactivity or activity for FRAP were rarely observed. Our results suggest that the GM1 receptor is localized primarily on carbonic anhydrase-containing and RT 97-immunoreactive primary sensory neurons.
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PMID:Immunocytochemical evidence for the localization of the GM1 ganglioside in carbonic anhydrase-containing and RT 97-immunoreactive rat primary sensory neurons. 249 5

1. The primary sensory neurones have been classified into large light (LLC), type A, small dark (SDC), type B and type C cells on the basis of size, ultrastuctural and immunocytochemical characteristics. 2. Subclassifications have been described according to the configuration and spatial organization of cytoplasmic organelles. 3. Furthermore, the LLC are immunoreactive with a monoclonal antibody, RT97, directed against a neurofilament protein and the SDC are positive with anti-arginine vasopressin (AVP). 4. The majority of the neurochemical substances including substance P (SP), somatostatin (SOM), fluoride resistant acid phosphatase (FRAP), 5-hydroxytryptamine (5-HT) and glutamate were localized to the small and intermediate diameter neurones measuring 9-40 microns. 5. The cytochemistry of the dorsal horn was similar to the dorsal root ganglia (DRG). 6. There is good evidence that substance P (SP) and somatostatin (SOM) are transmitters for a proportion of nociceptive neurones but the neurotransmitters utilized by the rest of the subtypes are unknown. 7. 5-hydroxytryptamine (5-HT) and glutamate may be putative transmitters of the primary sensory neurones as they are localized in 28-30% of the SDC. 8. The wider distribution and extensive coexistence of the neuropeptides is incompatible with neurotransmitter function, but some may be neuromodulators whereas others such as arginine vasopressin (AVP) are useful markers for identifying type B neurones.
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PMID:Cytochemistry of the trigeminal and dorsal root ganglia and spinal cord of the rat. 256 21

Subpopulations of dorsal root ganglion neurons can be distinguished on the basis of their peripheral receptive properties, spinal terminal arbors and neuropeptide content. We have used monoclonal antibodies (MAbs) to define antigenic determinants on functional populations of DRG neurons projecting to the superficial dorsal horn of the spinal cord. Three MAbs recognize defined carbohydrate epitopes associated with lacto- and globo-series glycolipids that constitute the stage-specific embryonic antigens (SSEAs) 1, 3 and 4. SSEA-3 and SSEA-4 are present in the cytoplasm of about 10% of DRG neurons in adult rat. These neurons are distinct from those that contain substance P, somatostatin or the fluoride-resistant acid phosphatase enzyme, FRAP. SSEA-1 is present in a small percentage of DRG neurons. SSEAs are present on the surface of DRG neurons maintained in dissociated cell culture: 6% are SSEA-1+, 7% are SSEA-3+ and 10-15% are SSEA-4+. MAbs LD2, KH10, TC6 and TD10 identify epitopes expressed coincidently in 25% of small DRG neurons that project to lamina II of the dorsal horn. All somatostatin- but less than 1% of substance P-immunoreactive DRG neurons express these antigens. MAb LA4 labels a distinct population of small DRG neurons that also projects to lamina II. There is extensive overlap between LA4+ neurons and those that contain FRAP. Antigens recognized by these MAbs are expressed on the surface of 10-20% of DRG neurons in culture. Preliminary biochemical studies suggest that these antigens may be glycolipids. Molecules bearing carbohydrate differentiation antigens may be involved in the development and specification of sensory connections in the dorsal horn of the spinal cord.
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PMID:Structure and expression of differentiation antigens on functional subclasses of primary sensory neurons. 258 Mar 22

Somatostatin is a 14-amino acid peptide hormone that is proteolytically processed from its precursor, prosomatostatin, by a paired-basic-specific protease localized in the Golgi apparatus and secretory vesicles. Yeast (Saccharomyces cerevisiae MAT alpha) synthesize an analogous peptide hormone precursor, pro-alpha-factor, that contains tandem repeats of alpha factor (13 amino acids) flanked by spacers that include paired basic residues. To investigate the role of these two pro regions in mediating intracellular transport and processing, cloned genes specific for preprosomatostatin and prepro-alpha-factor were used to generate recombinants encoding hybrids between the alpha-factor pro region (amino-terminal) and somatostatin (carboxyl-terminal). These recombinants were inserted into yeast expression vectors under control of either the native alpha-factor promoter or the inducible yeast PHO5 (acid phosphatase) promoter. Yeast transformed with these plasmids expressed the hybrid messenger RNAs constitutively (alpha-factor promoter) or when induced in phosphate-deficient medium (PHO5 promoter). Radioimmunoassay of culture media revealed the secretion of up to 200 ng of immunoreactive somatostatin/10(7) cells. Metabolic labeling with [35S]cysteine, followed by immunoprecipitation with anti-somatostatin antibodies revealed two forms of hybrid precursor intracellularly, one of Mr 25,000, containing core carbohydrates, and a second of Mr 11,000, which was unglycosylated. Translation of mRNA extracted from these transformants in the wheat germ cell-free system revealed that the Mr 11,000 form was the primary translation product, whereas the Mr 25,000 species could be generated in vitro by inclusion of mammalian rough microsomes. The secreted immunoreactive material was shown to be authentic somatostatin by high pressure liquid chromatography analysis and protein sequencing. These results demonstrate that the yeast processing enzymes recognize these chimeric precursors, resulting in the secretion of the mature peptide hormone.
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PMID:Secretion of somatostatin by Saccharomyces cerevisiae. Correct processing of an alpha-factor-somatostatin hybrid. 287 17

Cysteamine and propionitrile cause severe duodenal ulcers with perforation within 24-48 h after a single injection in rats. These animal models were used to gain insight into the early, preulcerogenic biochemical changes in the duodenal mucosa. The results indicate that a single sc injection of cysteamine and propionitrile induced dose- and time-dependent decreases in the activity of phosphoprotein phosphatase (PPPase) in homogenate and particulate fractions of rat duodenal mucosa. The decrease in enzyme activity was detectable 4 h after the injection of the ulcerogens, it was maximal at 12 h, and hardly detectable at 24 h. No effect on the enzyme activity was found under in vitro conditions. PPPase activity in the liver was not influenced by either cysteamine or propionitrile. Furthermore, the toxic but nonulcerogenic derivative of cysteamine ethanolamine had no effect on PPPase in the duodenum. Thus, the effect of the duodenal ulcerogens on PPPase activity was indirect and organ specific, related only to the target organ (i.e., duodenal mucosa). The effect of the drugs was also selective at the level of mucosal cells: both duodenal ulcerogens depleted protein and alkaline phosphatase but not lysosomal acid phosphatase. The decrease of PPPase activity could be a general property of the duodenal ulcerogens since it is independent of their effect on endogenous somatostatin.
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PMID:The influence of cysteamine and propionitrile on duodenal phosphoprotein phosphatase in rats. 289 91

The anatomical and biochemical features of primary sensory afferents and the peptidergic innervation of cremaster motoneuron efferents in the genitofemoral (Gf) nerve were analyzed in the rat using immunohistochemical, histochemical, retrograde tracing and lesion methods. Afferent fibers in the Gf nerve were shown to originate from neurons in L1 and L2 dorsal root ganglia (DRG) and to project to L1 to T12.5 in the spinal cord. Some of the DRG neurons giving rise to these fibers contained substance P (SP) or the enzyme fluoride-resistant acid phosphatase but none appeared to contain somatostatin. The dermatome area of the Gf nerve, as determined by plasma extravasation methods, was located in the rostral scrotal and adjacent abdominal region. Identification of cremaster motoneurons by retrograde labelling from the Gf nerve revealed these neurons to be located in the L1 to L2 spinal cord segment, to have prominent rostrocaudally oriented dendritic aborizations and to receive a rich innervation by fibers containing SP, thyrotropin-releasing hormone (TRH) or met-enkephalin (met-Enk). Lesion studies indicated the SP-and met-Enk-containing fibers to be supplied by local intraspinal systems and the TRH-containing fibers by supraspinal systems. In female rats, motoneurons corresponding to the male version of the cremaster motoneuronal pool were less developed and received far fewer peptidergic connections than that observed in males. The multiple neural systems innervating cremaster motoneurons together with sensory afferents in the Gf and other scrotal nerves are suggested to be involved in the contribution of cremaster muscles to thermoregulation of the scrotum.
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PMID:Neural relations of cremaster motoneurons, spinal cord systems and the genitofemoral nerve in the rat. 393 95

Combined retrograde axonal tracing with the fluorescent dye Fast Blue and fluoride-resistant acid phosphatase (FRAP) histochemistry revealed that the FRAP-containing sensory neurons project to both somatic and autonomic peripheral nerves. Furthermore, the combination of indirect immunohistochemistry after colchicine treatment and FRAP histochemistry showed that a population of FRAP-containing sensory neurons are also substance P, cholecystokinin or somatostatin positive.
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PMID:Peripheral projections and neuropeptide coexistence in a subpopulation of fluoride-resistant acid phosphatase reactive spinal primary sensory neurons. 609 69

The distribution of fluoride-resistant acid phosphatase, substance P and somatostatin were investigated in the dorsal horn of the spinal cord and in dorsal root ganglia. In the dorsal horn, the distribution of fluoride-resistant acid phosphatase closely paralleled that of somatostatin and only partly overlapped with that of substance P. In sensory ganglia, none of the fluoride-resistant acid phosphatase-containing neurones contained either substance P or somatostatin. The results suggest the existence of a population of fluoride-resistant phosphatase-positive sensory neurones which is distinct from neurones containing either of these peptides.
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PMID:Fluoride-resistant acid phosphatase-containing neurones in dorsal root ganglia are separate from those containing substance P or somatostatin. 617 4

Capsaicin was applied locally to the sciatic or saphenous nerve, and the effects on axoplasmic transport, neurogenic plasma extravasation, and thermal pain were studied. Capsaicin (10 mg/ml) led to a complete block of axoplasmic transport of immunoreactive substance P (I-SP) and somatostatin (I-SRIF) in rat sciatic nerve without affecting the transport of noradrenaline or acetylcholinesterase. Inhibition of I-SP transport was also found in sciatic nerves of guinea-pig, cat and rabbit. In contrast, one or two weeks after systemic capsaicin treatment (125 mg/kg s.c.), orthograde transport of I-SP was the same in control and capsaicin-treated rats. After local capsaicin application to the sciatic nerve, a decrease of I-SP was found not only in skin and sciatic nerve distal to the site of application, but also in dorsal root ganglia, dorsal roots and the dorsal half of the spinal cord segments L 4-5. This was accompanied by a loss of acid phosphatase activity in the substantia gelatinosa supplied by sciatic nerve afferents. Plasma extravasation by mustard oil was reduced in the skin of the hind paw with a time course identical to the I-SP depletion. The response to noxious heat (hot plate test) was, however, abolished earlier. These results indicate that capsaicin applied to a peripheral nerve inhibits axoplasmic transport in sensory but not in adrenergic or cholinergic neurons, which leads to long-term biochemical and functional changes of the entire sensory neuron. In addition, capsaicin appears to inhibit impulse propagation in certain populations of sensory neurons.
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PMID:Capsaicin applied to peripheral nerve inhibits axoplasmic transport of substance P and somatostatin. 617 69


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