Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of mRNA for the calmodulin-dependent form of brain nitric oxide synthase (NOS) was examined in cholinergic cells of the rat brain using a method combining in situ hybridization histochemistry with immunocytochemistry for choline acetyltransferase (ChAT) in the same brain sections. We constructed a riboprobe specific for brain NOS by subcloning a 493 bp fragment of the coding region which displayed low homology to other forms of NOS. The general distribution of NOS mRNA was in excellent agreement with previous studies using the full-length probe or NADPH diaphorase histochemistry. NOS mRNA was observed in many brain structures and relative levels were quantitated using grain counting procedures in a number of cholinergic and non-cholinergic neuronal groups throughout the brain. In the forebrain, ChAT-immunoreactive cells or cell groups were observed in medial septum (MS), vertical limbs of diagonal band (DBV) and horizontal limbs of diagonal band (DBH), nucleus basalis magnocellularis (NBM), substantia innominata (SI), and striatum (ST). In the brainstem, the cholinergic groups studied included those located in the pedunculopontine tegmental nucleus (PPTN), the laterodorsal tegmental nucleus (LDTN), the nucleus parabigeminalis and several motor nuclei. For NOS mRNA quantitation, silver grains overlying ChAT-stained neuronal profiles in sections on emulsion-dipped slides were counted digitally. In the LDTN and PPTN, virtually all the ChAT-positive cells expressed NOS mRNA at high levels. In MS, DBV and SI, about 30-50% of the ChAT-positive cells expressed NOS mRNA at low-to-moderate levels. Less than 20% of ChAT-positive neurons in the other cholinergic populations studied expressed NOS mRNA; the NBM was one of these low-expressing populations. Many scattered non-cholinergic cells expressing NOS mRNA were found in the striatum and cerebral cortex. In other non-cholinergic regions, high NOS mRNA expression was observed in the islands of Calleja, thalamic and hypothalamic nuclei, several amygdaloid nuclei, regions related to the optic tract, the interpeduncular nucleus, and the supramammillary nucleus. The heterogeneous distribution of NOS mRNA implies complex roles for nitric oxide neurotransmission in brain function, including for the cholinergic phenotype. Additionally, given the postulated involvement of nitric oxide in neurodegeneration, the widely varying levels of expression of NOS within identified central cholinergic neurons may relate to differential vulnerability of this phenotype in disease or aging.
Brain Res Mol Brain Res 1994 Apr
PMID:Nitric oxide synthase gene expression in cholinergic neurons in the rat brain examined by combined immunocytochemistry and in situ hybridization histochemistry. 751 28

The distribution of the enzyme synthesizing nitric oxide (NO) has been characterized in several mammalian enteric nervous systems. Two methods, immunohistochemical staining, employing anti-nitric oxide synthase antibodies, and histochemical localization of NADPH-diaphorase (NADPH-D), have given the same results. On the other hand, few studies have investigated nitric oxide synthase (NOS) in the gastrointestinal mucosa. Our study demonstrated the presence and distribution of the enzyme, NADPH-D, throughout all layers of the neonatal piglet intestinal tract. In the neonatal piglet, NADPH-D activity was found in nerve fibers parallel to the circular and to the longitudinal muscles and in the ganglion cells of Auerbach's plexus. However, the majority of NADPH-D activity was localized to the mucosa. Furthermore, the most intense activity in the mucosa was observed in villous epithelial cells. Other mucosal cells which were NADPH-D positive included the glandular epithelium and crypt cells. In addition, glandular epithelium in the deeper submucosa had very strong NADPH-D activity. Our results support the hypothesis that locally produced NO mediates physiological functions in the intestinal mucosa and submucosa.
Cell Mol Biol Res 1995
PMID:NADPH-diaphorase activity in piglet intestinal mucosa. 755 Apr 55

1. The time course of nitric oxide synthase (NOS) activity in neuronal, endothelial, and glial cells in the rat striatum after middle cerebral artery (MCA) occlusion and reperfusion was examined using a histochemical NADPH-diaphorase staining method. 2. In sham-operated rats, neuronal cells of the striatum exhibited strong NADPH-diaphorase activities. When rats were subjected to MCA occlusion for 1 hr, neuronal damage, including neurons with positive NADPH-diaphorase activities, appeared in the striatum at 3 hr after and extended to all areas of the striatum 3-4 days after reperfusion. 3. NADPH-diaphorase activities in the endothelial cells increased in the damaged part of striatum from 3 hr after, peaked at 1-2 days after MCA occlusion/reperfusion, then gradually decreased. 4. In parallel with the development of neuronal damage, some astrocytes and a high proportion of microglia/macrophages located in the perisite and in the center of the damaged striatum, respectively, exhibited a moderate to high level of NADPH-diaphorase activities. Most of these activities disappeared at 4 days after MCA occlusion. 5. These findings provided evidence that an inappropriate activation of NOS in endothelial cells and microglia/macrophages, in response to MCA occlusion/reperfusion, is closely associated with initiation and progression of ischemic neuronal injury in the striatum.
Cell Mol Neurobiol 1995 Jun
PMID:Time course of nitric oxide synthase activity in neuronal, glial, and endothelial cells of rat striatum following focal cerebral ischemia. 755 33

The NADPH-protochlorophyllide oxidoreductase (pchlide reductase, EC 1.6.99.1) is the major protein in the prolamellar bodies (PLBs) of etioplasts, where it catalyzes the light-dependent reduction of protochlorophyllide to chlorophyllide during chlorophyll synthesis in higher plants. The suborganellar location in chloroplasts of light-grown plants is less clear. In vitro assays were performed to characterize the assembly process of the pchlide reductase protein in pea chloroplasts. Import reactions employing radiolabelled precursor protein of the pchlide reductase showed that the protein was efficiently imported into fully matured green chloroplasts of pea. Fractionation assays following an import reaction revealed that imported protein was targeted to the thylakoid membranes. No radiolabelled protein could be detected in the stromal or envelope compartments upon import. Assembly reactions performed in chloroplast lysates showed that maximum amount of radiolabelled protein was associated to the thylakoid membranes in a thermolysin-resistant conformation when the assays were performed in the presence of hydrolyzable ATP and NADPH, but not in the presence of NADH. Furthermore, membrane assembly was optimal at pH 7.5 and at 25 degrees C. However, further treatment of the thylakoids with NaOH after an assembly reaction removed most of the membrane-associated protein. Assembly assays performed with the mature form of the pchlide reductase, lacking the transit peptide, showed that the pre-sequence was not required for membrane assembly. These results indicate that the pchlide reductase is a peripheral protein located on the stromal side of the membrane, and that both the precursor and the mature form of the protein can act as substrates for membrane assembly.
Plant Mol Biol 1995 Oct
PMID:The in vitro assembly of the NADPH-protochlorophyllide oxidoreductase in pea chloroplasts. 757 82

Nitric oxide synthase (NOS) produces nitric oxide, a mediator of potential importance in numerous physiologic and inflammatory processes in the lung. We localized constitutive NOS (c-NOS) and inducible NOS (i-NOS) within lung tissue by immunoperoxidase labeling with specific antibodies or by histochemical demonstration of the characteristic NADPH diaphorase activity of NOS. We analyzed human airway (n = 4) or parenchyma (n = 10) specimens obtained from uninvolved areas of surgical tumor resections. We also studied human fetal lung samples (n = 6) and normal or inflamed (16 h after intratracheal LPS instillation) rat lung tissue. Immunostaining with anti-c-NOS identified c-NOS antigen in rat lung nerves, endothelium, and airway epithelium. Normal or inflamed rat macrophages were not stained. Human nerve elements and large-vessel endothelium showed immunostaining with the anti-c-NOS, but no labeling of the airway or alveolar epithelium was seen. Immunostaining with anti-i-NOS showed strong labeling of rat macrophages after LPS treatment, in vivo or in vitro, while normals were negative. Human alveolar macrophages were occasionally positive for i-NOS, especially in areas of chronic inflammation, which also showed focal immunolabeling of endothelium. Uniform labeling of epithelium in large, cartilaginous airways was found with anti-i-NOS in both human bronchi and normal rat trachea samples, suggesting a constitutive role for a NOS that shares epitope(s) with or is highly homologous to the inducible, macrophage type of NOS. Histochemical staining for NADPH diaphorase activity was consistent with immunolocalization of NOS antigens.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1993 Oct
PMID:Nitric oxide synthase in human and rat lung: immunocytochemical and histochemical localization. 769 Nov 9

Retinal neurons that express the immediate early gene c-fos after light exposure were characterized by neurotransmitter content using histochemical and immunocytochemical staining. In Northern blots the amount of c-fos mRNA peaked at 30 min, but remained detectable 60 min following light stimulation. Fos proteins were seen in the inner nuclear and ganglion cell layers, and the staining was most intense two and three hours after beginning the light exposure. In the ganglion cell layer 30-40% of Fos-immunoreactive cells were cholinergic displaced amacrine cells and 3-5% were ganglion cells. In the inner nuclear layer 24% of Fos-immunoreactive cells were Type I and 7% Type II NADPH-diaphorase-reactive (nitric oxide synthase) amacrine cells, 11% were tyrosine hydroxylase-containing cells, and 10-15% cholinergic amacrine cells. No Fos immunoreactivity was seen in serotoninergic, somatostatin- or VIP-immunoreactive cells, bipolar, horizontal or photoreceptor cells. Nicotine, kainic acid, NMDA and SCH 38393, a dopamine D1 receptor agonist, induced Fos immunostaining in the inner nuclear and ganglion cell layers, but administration of the corresponding receptor blockers mecamylamine, kynuretic acid, MK-801, haloperidol and SCH 23990 did not prevent light-induced Fos expression.
Brain Res Mol Brain Res 1995 Mar
PMID:Light-induced c-fos expression in amacrine cells in the rabbit retina. 777 1

The study demonstrates a strong enzyme histochemical and immunohistochemical reaction staining for NADPH-diaphorase/NO-synthase in the secretory cells of the apocrine glands in the hairy skin, and the eccrine glands in the foot pads of domesticated mammals. The results obtained are discussed in view of a regulatory action of the NO generated by these enzyme activities, implying a direct influence of NO on the contractile properties of glandular myoepithelial cells. In this way, a basic and simple mechanism to couple secretion production and secretion extrusion can be proposed.
Cell Mol Biol (Noisy-le-grand) 1994 Mar
PMID:Demonstration of NADPH-diaphorase (NO-synthase) in the apocrine and eccrine skin glands of domesticated mammals. 800 48

Many solid tumors contain substantial fractions of hypoxic cells which are relatively resistant to both radiation therapy and certain cytotoxic drugs. We have previously shown that exposure of human HT29 cells to hypoxic conditions results in the overexpression of certain enzymes involved in the detoxication of xenobiotics, including NAD(P)H:(quinone acceptor) oxidoreductase (DT)-diaphorase, and gamma-glutamylcysteine synthetase, the rate-limiting enzyme in glutathione synthesis. This hypoxic effect on DT-diaphorase was shown to involve both transcriptional induction and altered message stability. We have investigated the effects of hypoxia on elements in the promoter region of DT-diaphorase. Electrophoretic mobility shift assays demonstrate the induction of a binding activity to the AP-1 response element of DT-diaphorase. Supershift assays suggest that this binding is due to AP-1 nuclear factors and that members of the jun family are induced to a greater degree than fos by hypoxia. Analysis of the kinetics of transcription factor expression indicates that the expression of c-jun and junD is induced during hypoxic exposure; mRNA levels fall during reoxygenation. Induction of fos on the other hand is not as florid during hypoxia (5-fold) and is most pronounced (17-fold) 24 h after the restoration of an oxic environment. Thus, the hypoxic response of DT-diaphorase expression is mediated in part through AP-1, initially by a jun-related mechanism and then by the involvement of fos. The affinity of transcription factors for the AP-1 binding site depends on the redox state of a cysteine residue located close to the DNA-binding region of both Fos and Jun. A nuclear protein, Ref-1, maintains the reduced state of Fos and Jun and promotes binding to AP-1. Nuclear extracts of HT29 cells exposed to hypoxia show markedly increased Ref-1 protein content. Elevation of ref-1 steady-state mRNA levels occurs as an early event following induction of hypoxia and persists when cells are restored to a normally oxygenated environment. Nuclear run-on analysis demonstrates that induction of transcription is the mechanism of ref-1 mRNA elevation. Electrophoretic mobility shift assays and immunodepletion assays were used to further define the interaction of Ref-1 with specific AP-1-binding proteins under hypoxic conditions. These data demonstrate that the induction of detoxicating enzyme expression in HT29 cells exposed to hypoxia results from the induction of both transactivating factors that bind to the AP-1 element and of redox proteins that enhance their affinity for this element.
Mol Cell Biol 1994 Sep
PMID:Activation of AP-1 and of a nuclear redox factor, Ref-1, in the response of HT29 colon cancer cells to hypoxia. 806 32

Trypanosoma brucei S427cl1 organisms made 6 divisions in modified minimal essential medium (BMEM) supplemented with fetal bovine serum (FBS)-low or high density lipoprotein (LDL, HDL) and fatty acid-free bovine serum albumin (FAF-BSA). Omission of lipoproteins or FAF-BSA from the medium caused the parasites to accumulate in G1 of the cell cycle and to lose the ability to replicate at 37 degrees C. Proteinase K-treated LDL or HDL, which did not have detectable apolipoprotein, supported the G1 to S cell cycle transition of T. brucei S427cl1 organisms in BMEM supplemented with FAF-BSA. Addition of C6:0, C7:0 or fatty C8:0 fatty acid (1 mol fatty acid mol-1 FAF-BSA in the incubation mixture) to serum-free medium supplemented with LDL or HDL and FAF-BSA prevented T. brucei S427cl1 organisms from progressing through G1 into S of the cell cycle. T. brucei S427cl1 organisms became stumpy-like forms during plateau phase growth under axenic conditions. Stumpy-like T. brucei S427cl1 organisms were mainly in G1 of the cell cycle, expressed raised levels of NAD diaphorase activity, were unable to replicate at 37 degrees C, but were able to differentiate to replicating procyclic organisms. Medium collected from plateau phase cultures of T. brucei S427cl1 did not support the G1 to S cell cycle transition of exponentially growing T. brucei organisms. The capacity of plateau phase medium to support G1 to S transition of T. brucei S427cl1 organisms was restored by addition of FAF-BSA and its capacity to support 4 cycles of replication of the parasites was restored by addition of FAF-BSA and LDL or HDL.
Mol Biochem Parasitol 1993 Feb
PMID:Control of G1 to S cell cycle progression of Trypanosoma brucei S427cl1 organisms under axenic conditions. 843 15

The study demonstrates weakly to strongly positive reaction staining for NADPH-diaphorase/NO- synthase in the peripheral cells of sebaceous glands in the hairy skin of domesticated mammals. Additionally, the structure of the blood capillary system surrounding these glands is better elucidated. The results obtained are discussed in view of a modulatory action of NO generated by these enzyme activities, implying a direct influence of this substance on the contractile elements of gland-associated blood capillaries. In this way, a simple and self-regulatory mechanism to couple blood flow and glandular metabolism can be proposed.
Cell Mol Biol (Noisy-le-grand) 1996 Mar
PMID:Demonstration of NADPH-diaphorase (NO-synthase) in sebaceous glands of the mammalian integument, with remarks on the glandular capillary net. 869 61


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