EC:1.6.99.3 - FACTA Search

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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the localization of nitric oxide synthase in the pancreas of the dog in comparison to the rat by the methods of immunocytochemistry using antineuronal type nitric oxide synthase serum and histochemistry using NADPH-diaphorase activity. In both species, the most intense staining was observed in neuronal cell bodies and fibers in the pancreas and nitric oxide synthase immunoreactivity was completely colocalized with NADPH-diaphorase activity. However, there were differences of the distribution between the two species. In the dog pancreas, immuno- and NADPH-diaphorase-positive nerve fibers were numerous around pancreatic ducts and moderate around the arteries and the acini but few in the islets. In contrast, in the rat pancreas, immuno- and diaphorase-positive fibers were fewer around the pancreatic ducts and acini and more abundant in the islets. The expression ratio of NADPH-diaphorase in intrapancreatic ganglion cell bodies that were scattered in the interlobular connective tissue was low to moderate (28.1% in the right lobe, 49.5% in the left lobe) in the dog, while the ratio in rat pancreas was very high in both lobes of the pancreas (about 86%). Except for neuronal staining, weak NADPH-diaphorase-positive reactions were detected in the vascular endothelial cells of the pancreas in both species. In rat islet cells, weak neuronal type nitric oxide synthase immunoreactivity was observed; however, in dog islet cells, no immunoreactivity was detected. These results suggest that nitric oxide in the pancreas is derived from vascular endothelium and neuronal tissue in both species and that the neuronal nitrergic regulation of the exocrine and endocrine pancreas is different between the species.
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PMID:Comparative distribution of nitric oxide synthase (NOS) in pancreas of the dog and rat: immunocytochemistry of neuronal type NOS and histochemistry of NADPH-diaphorase. 912 23

Previous studies have shown that nitric oxide synthase (NOS), the enzyme that catalyzes the formation of nitric oxide (NO), is expressed in skeletal muscle. The aim of the present study was to test the hypothesis that NO can modulate glucose metabolism in slow- and fast-twitch skeletal muscles. Calcium-dependent NOS was detected in skeletal muscle, and the enzyme activity was greater in fast-type extensor digitorum longus (EDL) muscles than in slow-type soleus muscles. Both the neuronal-type (nNOS) and endothelial-type (eNOS) enzymes are expressed in resting skeletal muscles. However, nNOS protein was only detected in EDL muscles, whereas eNOS protein contents were comparable in soleus and EDL muscles. NOS expression in muscle cryosections (diaphorase histochemistry) was located in vascular endothelium and in muscle fibers, and the staining was greater in type IIb than in type I and IIa fibers. The macrophage-type inducible NOS (iNOS) was not detected in resting muscle, but endotoxin treatment induced its expression, concomitant with elevated NO production. iNOS induction was associated with impaired insulin-stimulated glucose uptake in isolated rat muscles. In vitro, NOS blockade with specific inhibitors did not affect basal or insulin-stimulated glucose transport in EDL or soleus muscles. In contrast, the NO donors GEA 5024 and sodium nitroprusside induced dose-dependent inhibition (up to 50%) of maximal insulin-stimulated glucose transport in both muscles with minor effects on basal uptake values. GEA 5024 also blunted insulin-stimulated glucose transport and amino acid uptake in cultured L6 muscle cells without affecting insulin binding to its receptor. On the other hand, the permeable cGMP analogue dibutyryl cGMP did not affect muscle glucose transport. These results strongly suggest that NO modulates insulin action in both slow- and fast-type skeletal muscles. This novel autocrine action of NO in muscle appears to be mediated by cGMP-independent pathways.
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PMID:Expression of nitric oxide synthase in skeletal muscle: a novel role for nitric oxide as a modulator of insulin action. 935 14

The distributions of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) and nitric oxide synthase (NOS) in mammalian cochlea were studied at light and electron microscope levels by NADPH-d histochemistry and brain NOS (bNOS) immunohistochemistry. The cochleae from 15 albino guinea pigs were perilymphatically fixed with 2% periodate-lysine-paraformaldehyde, decalcified in 10% EDTA and processed for light and electron microscopy after NADPH-d or NOS staining in frozen and vibratome sections respectively. One human cochlea was available for light microscope examination of NADPH-d or bNOS stained sections. Light microscope results revealed that type I neurons and nerve fibers of the spiral ganglion cells were labeled by bNOS immunohistochemistry as well as NADPH-d histochemistry in both guinea pig and human cochleae. At subcellular level, NADPH-d reaction product was localized in the mitochondria of the neuronal cytoplasm and axoplasm and in the cytoplasm of the vascular endothelium. The immunoreaction products of bNOS were evenly distributed in the neuronal cytoplasm and axoplasm. Myelinated and unmyelinated fibers in the intraganglionic spiral bundle and the inner spiral and inner radial fibers below the inner hair cells were labeled for bNOS. The nerve endings below the outer hair cells were not stained. NOS immunoreaction product was also found in the outer hair cells, Schwann cells of myelinated nerve fibers, Deiter's cells, pillar cells and the tympanic lamina cells. No difference was found in the staining pattern of both NADPH-d and NOS reaction products between human and guinea pig cochleae at the light microscope level. The results suggest that NO plays an important role in the maintenance of auditory function in the mammal.
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PMID:Localization of nitric oxide synthase and NADPH-diaphorase in guinea pig and human cochleae. 947 7

Nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) histochemistry was used to demonstrate the presence of nitric oxide in the developing chicken thymus. NADPH-d was first expressed in the epithelial cells located at the corticomedullary junction of the thymic rudiment on day 13 of incubation. The number of labelled cells gradually increased from day 13 to day 21. Ultrastructural evidence showed that the labelling was localized in a heterogeneous population of cells in the medulla near the corticomedullary junction, comprising the cystic, undifferentiated, myoid, lymphoid and epithelial reticular cells. At this age, the vascular endothelium was NADPH-d positive. Labelling was also detected in some macrophages. The reaction product primarily labelled profiles of rough endoplasmic reticulum and to a lesser extent the outer membranes of mitochondria, portions of the nuclear envelope and the Golgi apparatus. By day 18/19, NADPH-d-labelled nerve fibres were occasionally observed in the interlobular connective tissue. By day 21, these fibres formed perivascular plexuses. Labelled nerve fibres were occasionally observed in the medullary parenchyma. Possible functions of nitric oxide in the embryonic thymus are discussed.
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PMID:Ontogeny of NADPH-d expression in the thymic microenvironment of the chick embryo. 979 49

Experiments were carried out to investigate the functional and anatomical relationships between neuronal elements and cerebral microvessels in 300-350-microm thick coronal hippocampal slices maintained at 33-35 degrees C, obtained from 150-200 g male Wistar rats. Cerebral arterioles (9-22 microm in diameter) were visualized in situ and pre-constricted by 22.0+/-6.6% by the addition of the thromboxane A2 agonist U46619 (75 nM), to the bathing medium. The glutamate agonist N-methyl-D-aspartate (0.01-1 mM) produced a dose-related increase in luminal diameter of pre-constricted vessels. In the presence of 4 microM haemoglobin to scavenge nitric oxide from the extravascular environment of the slice, the increase in diameter evoked by 0.1 mM N-methyl-D-aspartate was significantly reduced from 17.5+/-4.6% to 4.8+/-1.7% indicating that N-methyl-D-aspartate-induced vasodilatation of cerebral microvessels is mediated via a mechanism which involves neuronally-derived nitric oxide. In a parallel anatomical study, beta-nicotinamide adenine dinucleotide phosphate-dependent diaphorase staining was used to reveal the enzyme nitric oxide synthase in vascular endothelium and neurons in slices. A small subpopulation (< 11 cells per slice) of darkly-stained multipolar neurons, 21-32 microm in diameter was observed to give rise to a dense network of fine diaphorase-reactive nerve fibres that ramified throughout the whole of the hippocampus and appeared to come into close apposition with arterioles. Morphometric analysis of the relationship between cerebral microvessels, beta-nicotinamide adenine dinucleotide phosphate, reduced form-dependent diaphorase-reactive neuronal elements and individual pyramidal layer neurons, identified by filling with biocytin, revealed that for a given point on a pyramidal layer neuron, the proximity of the nearest diaphorase-reactive nerve fibre was less than 10 microm, whilst the distance to the nearest arteriole (the smallest functional unit for controlling blood flow) was in excess of 70 microm. Such a distance would probably preclude diffusion of vasoactive metabolites in effective concentrations from the area of increased neuronal activity. We therefore propose that the diaphorase-reactive nerve network constitutes the functional link. It is possible that during periods of increased neuronal activity, spillover of glutamate from synapses may activate the diaphorase-reactive network. Release of nitric oxide from the network in the vicinity of local cerebral arterioles may then produce relaxation of the vascular smooth muscle, enabling increased blood flow into the capillary network supplying the region of increased metabolic activity. This study has shown that the process whereby increases in neuronal activity elicit a local change in cerebral blood flow remains functionally intact in hippocampal slice preparations. Nitric oxide of neuronal origin appears to be involved in mediating the coupling between neurons and cerebral arterioles. Stereological analysis of the relationship between neuronal and vascular elements within hippocampal slices suggested that a small subpopulation of nitric oxide synthase-containing neurons which give rise to a diffuse network of fine nitric oxide synthase-containing nerve fibres that lie in close apposition to cerebral arterioles may provide the anatomical substrate for coupling of blood flow to metabolism.
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PMID:Neurovascular relationships in hippocampal slices: physiological and anatomical studies of mechanisms underlying flow-metabolism coupling in intraparenchymal microvessels. 1039 29

Nitric oxide (NO) is a novel gaseous intercellular transmitter thought to play important physiological roles in the regulation of blood flow and hormone secretion in, for example, the pituitary, the thyroid, and the endocrine pancreas. Whether nitric oxide synthase (NOS) is present in the human parathyroid glands has not yet been demonstrated. In the present study, histologically normal, but functionally suppressed human parathyroid glands and parathyroid adenomas from patients with primary hyperparathyroidism were investigated by immunocytochemistry with antibodies against neuronal NOS and by reduced nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase histochemistry. We also used H&E to identify the NOS-immunoreactive cells. Immunocytochemistry demonstrated the presence of neuronal-type NOS in a subpopulation of glandular cells, identified as oxyphilic cells, in both normal parathyroid glands and adenomas. NADPH-diaphorase staining visualized NOS in the endothelium of blood vessels and in glandular cells, corresponding to those containing immunoreactive NOS. In addition, we found NADPIH-diaphorase staining in many chief cells. Our results indicate that both glandular cells and vascular endothelium in human parathyroid glands and adenomas express NOS. There is thus a morphological substrate for locally produced NO that may be involved in the regulation of parathyroid blood flow and hormone secretion.
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PMID:Nitric Oxide Synthase in Human Parathyroid Glands and Parathyroid Adenomas. 1211 33

Ischemic preconditioning (IPC) may protect the liver from ischemia reperfusion injury by nitric oxide formation. This study has investigated the effect of ischemic preconditioning on hepatic microcirculation (HM), and the relationship between nitric oxide metabolism and HM in preconditioning. Rats were allocated to 5 groups: 1. sham laparotomy; 2. 45 minutes lobar ischemia followed by 2-hour reperfusion (IR); 3. IPC with 5 minutes ischemia and 10 minutes reperfusion before IR; 4. L-arginine before IR; and 5. L-NAME + IPC before IR. HM was monitored by laser Doppler flowmeter. Liver transaminases, adenosine triphosphate, nitrites + nitrates, and guanosine 3'5'-cyclic monophosphate (cGMP) were measured. Nitric oxide synthase (NOS) distribution was studied using nicotinamide adeninine dinucleotide phosphate (NADPH) diaphorase histochemistry. At the end of reperfusion phase, in the IR group, flow in the HM recovered partially to 25.8% of baseline (P < .05 versus sham), whereas IPC improved HM to 49.5% of baseline (P < .01 versus IR). With L-arginine treatment, HM was 31.6% of baseline (NS versus IR), showing no attenuation of liver injury. In the preconditioned group treated with L-NAME, HM declined to 10.2% of baseline, suggesting not only a blockade of the preconditioning effect, but also an exacerbated liver injury. Hepatocellular injury was reduced by IPC, and L-arginine and was increased by NO inhibition with L-NAME. IPC also increased nitrate + nitrate (NOx) and cGMP concentrations. NOS detected by NADPH diaphorase staining was associated with hepatocytes and vascular endothelium, and was induced by IPC. IPC induced NOS and attenuated HM impairment and hepatocellular injury. These data strongly suggest a role for nitric oxide in IPC.
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PMID:Effect of ischemic preconditioning on hepatic microcirculation and function in a rat model of ischemia reperfusion injury. 1247 59

The metabolic changes in the homografted canine heart were studied in order to define the biochemical alterations accompanying homograft rejection. In several experiments, homograft rejection was accelerated by prior sensitization of the host animal. The homografted heart released pyruvate and lactate as well as malic dehydrogenase and aldolase. Extraction of glucose by the graft usually remained positive. During the accelerated rejection, the release of pyruvate and lactate was more pronounced, and even glucose appeared in increased concentrations in coronary vein blood. In many experiments the respiratory quotient of the transplanted heart as well as its glucose-oxygen extraction ratio were elevated. It seemed likely that the elevated respiratory quotients were the result of conversion of carbohydrates to fat, since the injection of thiamine hydrochloride resulted in further elevation of the respiratory quotient and in an increased myocardial pyruvate extraction. Apparently, thiamine corrected a metabolic block at the level of the cocarboxylase. The metabolic block or blocks present in the transplanted heart are likely to be the result of diminution in intracellular enzymes and coenzymes resulting from increased cellular permeability. The redox potential across the transplanted heart was positive, indicating the absence of anoxia. The results illustrate that glycolysis proceeds in the transplanted heart in the presence of oxygen. Histopathologic and histochemical studies show the earliest lesion to be an accumulation of lymphocytes around vessels at 3 hours. Swelling of vascular endothelium occurs. By 5 hours a polar perivascular cellular infiltrate of lymphocytes, plasma cells, macrophages, and histiocytes exists. Changes following at 19 hours show the appearance of Aschoff- and Anitschkow-like cells. Granulomatous myocarditis which was first perivascular became interstitial with lymphocytic and histiocytic invasion of the myocardium. After 8 days acceleration of swelling of vascular endothelium and granulomatous lesions were observed and necrosis of the myocardium was prominent. Endothelial hyperplasia occurred at 14 days. In the accelerated reaction these changes were intensified and necrosis began as early as 4 hours after grafting. Histochemical changes of DPNH diaphorase, lactic, malic, and succinic dehydrogenase showed only significant diminution of malic dehydrogenase in the cardiac muscle which was concurrent with the increase of this enzyme in the serum.
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PMID:Studies on the transplanted heart. Its metabolism and histology. 1387 18

We investigated co-adaptation of enzymatic systems of cells using data on activity of NAD(Ph)-dependent enzymes and AgNOR proteins of vascular endothelium vis-a-vis angiogenesis in benign and malignant smooth muscle tumors of the corpus uteri. Overall metabolic activity (NAD-H2 diaphorase) was found to directly correlate with angiogenesis and endothelial vessel proliferation (r = 0.76 and 0.84, respectively). SDH-regulated oxidation in the main metabolic succession of a tricarbonic acid cycle depended on blood supply and endothelial vessel proliferation (r = 0.84 and 0.92, respectively; p = 0.04). A similar relationship was shown for anaerobic glycolysis of SDH (LDH content), on the one hand, and blood supply and endothelial vessel proliferation(r = 0.57 and 0.70, respectively; p = 0.02), on the other. Hence, metabolic profile varied in unaltered myometrium and tumor with variable cellular density and peculiar extracellular matrix. The highest levels of metabolic activity with NAD(Ph)-dependent enzyme co-adaptation was observed in sarcomas which were also characterized by the highest vascular density for endothelial proliferation.
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PMID:[Co-adaptation of enzymatic systems of cells and blood supply in smooth muscle tumors of the corpus uteri]. 1906 75

The aim of the present investigation was to detect the regularities of postnatal development of "motor end-plate-muscle fiber (MF)-vascular network" system in different calf muscles of intact albino rats. Gastrocnemius, plantaris and soleus muscles were studied in 72 albino rats aged from 14 to 180 days. Identification of MF type was performed on the basis of succinate dehydrogenase and NADH-diaphorase activity. Cholinesterase activity of the neuro-muscular synapse (NMS) and alkaline phosphatase activity in the vascular endothelium were demonstrated using a combined histochemical method. The diameter of vascular network and the number of enzyme-active zones (EAZ) per one MF were the earliest parameters to be stabilized (before day 30). Histochemical profile of skeletal muscle was stabilized by the end of day 60. Dynamics of MF diameter and EAZ in NMS, vessel diameter and numbers per one MF is characterized by the periods of active changes (days 14-30), decrease (days 30-60) and stabilization (after day 60) of variance rate. The association between the level of oxidative metabolism and MF diameter was demonstrated.
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PMID:[Differentiation of calf skeletal muscles in the postnatal period of ontogenesis]. 2096 Jul 12

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