EC:1.6.99.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.1 (NADPH-diaphorase)
3,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously found that quinolinic acid striatal excitotoxin lesions result in a relative sparing of somatostatin and neuropeptide Y neurons. In the present study we examined dose-response effects of excitotoxins acting at the three subtypes of glutamate receptors: N-methyl-D-aspartate (AA1), quisqualate (AA2), and kainic acid (AA3). Concentrations of both somatostatin-like immunoreactivity (SLI) and neuropeptide a Y-like immunoreactivity (NPYLI) were compared with those of substance P-like immunoreactivity (SPLI) and GABA. Kainic acid (AA3), quisqualic acid (AA2), and AMPA (AA2) resulted in dose-dependent reductions in all four neurochemical markers examined, while N-methyl-D,L-aspartate (AA1) and quinolinic acid (AA1) resulted in relative sparing of SLI and NPYLI. At doses of each excitotoxin which resulted in comparable 50% reductions in both GABA and SPLI only N-methyl-D,L-aspartate and quinolinic acid had no significant effect on concentrations of SLI and NPYLI. The relative sparing of somatostatin-neuropeptide Y neurons was confirmed histologically by using histochemical staining for NADPH-diaphorase neurons combined with either Nissl stains, or immunohistochemical staining for enkephalin. Lesions with N-methyl-D-aspartate agonists resulted in preferential sparing of NADPH-diaphorase neurons while these neurons were more vulnerable than other neurons to kainic acid or AMPA. Choline acetyltransferase neurons were relatively spared, as compared with other neurons, by agents acting at all three glutamate receptor subtypes. N-methyl-D,L-aspartate lesions were blocked with MK-801, while there was no effect on quisqualic acid or kainic acid lesions. The relative sparing of somatostatin-neuropeptide Y neurons following striatal excitotoxin lesions with N-methyl-D-aspartate (AA1) agonists probably reflects a paucity of AA1 receptors on these neurons. Since these neurons are also spared in Huntington's disease, excitotoxins acting at the N-methyl-D-aspartate (AA1) site provide an improved neurochemical model of this illness.
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PMID:Differential sparing of somatostatin-neuropeptide Y and cholinergic neurons following striatal excitotoxin lesions. 256 16

Choline acetyltransferase immunohistochemistry has identified a large group of cholinergic neurons in the pontine tegmentum. By combined immunohistochemical and enzyme histochemical studies this particular cholinergic cell group was found to contain an enzyme, NADPH-diaphorase, that can be visualized histochemically. Thus NADPH-diaphorase histochemistry provides a simple, reliable method to selectively stain the cholinergic neurons of the brainstem reticular formation. The resolution obtained by this novel histochemical technique is similar to that found with the Golgi stain, and it should therefore be of great value in morphological studies of this cholinergic cell group.
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PMID:NADPH-diaphorase: a selective histochemical marker for the cholinergic neurons of the pontine reticular formation. 636 24

The morphology and distribution of perikarya positive for choline acetyltransferase, somatostatin, calcium binding protein (calbindin D28K) and nicotinamide adenine dinucleotide phosphate diaphorase were surveyed in the human striatum. Choline acetyltransferase and somatostatin antibodies labeled separate populations of large striatal interneurons. Somatostatin immunoreactivity and nicotinamide adenine dinucleotide phosphate diaphorase (nitric oxide synthase) activity were completely co-localized. Calbindin antibody identified two distinct groups of striatal neurons: (1) numerous medium-sized, lightly stained neurons, probably analogous to striatopallidal projection neurons in the rat, and (2) much less numerous, large, darkly stained neurons. Half of the latter group, but none of the former, were also nicotinamide adenine dinucleotide phosphate diaphorase-positive. Somatostatin-positive and medium-sized, calbindin-positive neurons were more numerous in the caudate nucleus than in the putamen or ventral striatum. By contrast, large calbindin-immunoreactive neurons were more frequently encountered in the putamen. Choline acetyltransferase-positive neurons were evenly distributed across striatal components. In aged control subjects, the size of large, darkly stained calbindin-positive neurons was reduced relative to young subjects. Aging had no effect on somatostatin-, medium-sized calbindin-, or choline acetyltransferase-positive neurons. However, in histologically confirmed cases of Alzheimer's disease, there was a selective, 75% loss of choline acetyltransferase-immunoreactive perikarya from the ventral striatum, but not from the dorsal striatum, compared to aged controls. Furthermore, the remaining cholinergic neurons in the ventral striatum of Alzheimer's disease cases were significantly smaller than similar neurons in controls. These results indicate that various striatal components which have been shown to differ in their anatomical connectivity and functional specialization, also differ in their neurochemical signatures. The specific and marked loss of choline acetyltransferase-positive neurons from the ventral striatum in Alzheimer's disease is consistent with the characteristic cholinergic and 'limbic' pathology in this disease.
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PMID:Human striatum: chemoarchitecture of the caudate nucleus, putamen and ventral striatum in health and Alzheimer's disease. 752 83

The enzyme NADPH diaphorase is present in many spinal neurons, and is thought to correspond to nitric oxide synthase. In order to determine which types of neuron in the spinal cord contain this enzyme, we have carried out a combined enzyme histochemical and immunocytochemical study with antibodies to GABA, glycine, and choline acetyltransferase. Two hundred rats were tested for GABA- and glycine-like immunoreactivity. The majority of these neurons (207/224) were GABA-immunoreactive and 139 were also glycine-immunoreactive. NADPH diaphorase-positive neurons in laminae I and II generally showed both types of immunoreactivity, while those in deeper laminae of the dorsal horn and around the central canal either showed both types or else were only GABA-immunoreactive. Since GABA and acetylcholine are thought to coexist in spinal neurons, NADPH diaphorase staining was combined with immunostaining for choline acetyltransferase. Immunoreactive neurons in laminae III and IV were all NADPH diaphorase-positive, while only some of those around the central canal and in the deeper laminae of the dorsal horn were positive. Choline acetyltransferase-immunoreactive neurons in the intermediolateral cell column (presumed sympathetic preganglionic neurons) were often NADPH diaphorase-positive, whereas those in the ventral horn (presumed motoneurons) were not. NADPH diaphorase-positive cells in the intermediolateral cell column were not immunoreactive with GABA or glycine antibodies.
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PMID:Coexistence of NADPH diaphorase with GABA, glycine, and acetylcholine in rat spinal cord. 822 22

Choline acetyltransferase (ChAT) as a rate-limiting enzyme in the biosynthetic pathway of acetylcholine is thought to be present in all cholinergic neurons. However, its immunoreactivity has not been successfully applied to the study of cholinergic neurons in the pancreas. In a previous study in the pancreas of newborn guinea pig we reported the colocalization of nicotinamide adenine dinucleotide hydrogen phosphate-diaphorase (NADPH-d), a marker for nitric oxide synthase (NOS) with various neuropeptides as well as dopamine-beta-hydroxylase (DbetaH), the enzyme responsible for converting dopamine to noradrenaline. Whether NADPH-d is colocalized with ChAT in the pancreatic neurons is not known. Also it would be interesting to find out whether noradrenaline and acetylcholine could be colocalized in the same pancreatic neurons. In the present study, a method for triple labelling of ChAT, DbetaH and NADPH-d was used to answer the above questions. Colocalization of ChAT, DbetaH and NADPH-d was constantly demonstrated in the same neurons in the same sections. It is concluded that some of the pancreatic neurons may utilize more than one neurotransmitter such as nitric oxide (NO), acetylcholine and noradrenaline to achieve their function. The possible cotransmission of acetylcholine and noradrenaline was extremely intriguing, and its mechanism and significance needs to be further investigated.
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PMID:Colocalization of ChAT, DbetaH and NADPH-d in the pancreatic neurons of the newborn guinea pig. 979 38

Nitric oxide and acetylcholine are important neuromodulators implicated in brain plasticity and disease. We have examined the cellular and fiber localization of nitric oxide in the cat superior colliculus (SC) and its degree of co-localization with ACh using nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd) histochemistry and an antibody to neuronal nitric oxide synthase. ACh was localized using an antibody against choline acetyltransferase. We also made injections of biocytin into the region of the parabrachial brainstem to confirm that this region is a source of nitric oxide containing fibers in SC. NADPHd labeled neurons within the superficial layers of the superior colliculus included pyriform, vertical fusiform, and horizontal morphologies. Labeled neurons in the intermediate gray layer were small to medium in size, and mostly of stellate morphology. Neurons in the deepest layers had mostly vertical or stellate morphologies. NADPHd labeled fibers formed dense patches of terminal boutons within the intermediate gray layer and streams of fibers within the deepest layers of SC. Choline acetyltransferase antibody labeling in adjacent sections indicated that many fibers must contain both labels. Over 94% of neurons in the pedunculopontine tegmental and lateral dorsal tegmental nuclei were also labeled by both NADPHd and choline acetyltransferase. In addition, biocytin labeled fibers from this region were localized in the NADPHd labeled patches. We conclude that nitric oxide is contained in a variety of cell types in SC and that both nitric oxide and ACh likely serve as co-modulators in this midbrain structure.
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PMID:Nitric oxide synthase distribution in the cat superior colliculus and co-localization with choline acetyltransferase. 1078 33

The implications of cholinergic and nitrergic transmissions in ascending and descending reflex motor pathways of recto-anal region in rat model were evaluated using: (i) electrical stimulation; (ii) triple organ bath; and (iii) morphological techniques. Electrical stimulation to anal canal induced simultaneous ascending contractile responses of longitudinal and circular muscles of proximal rectum, local contraction of anal canal or contraction followed by relaxation of internal anal sphincter when external sphincter was dissected off. The stimulation of proximal rectum elicited local contractions of both rectal layers and descending contractions of internal sphincter or anal canal. Tetrodotoxin (0.1 microM) prevented the electrically elicited events. The ascending excitatory responses and the local and ascending contractions of longitudinal muscle were more pronounced than those of circular muscle suggesting dominant role of ascending reflex pathways and of longitudinal muscle in rectal motor activity. Choline acetyltransferase (ChAT)-containing fibres and nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase-positive neurons were observed in myenteric ganglia of rectum and anal canal. NG-nitro-l-arginine (0.5mM) increased the contractile ascending and descending responses. During atropine (0.3 microM) treatment the ascending and descending contractions were suppressed but not abolished and a relaxation revealed in ascending response of circular muscle and in descending responses of internal anal sphincter and anal canal. The relaxation was decreased by NG-nitro-l-arginine and increased by l-arginine (0.5mM). The results suggest that cholinergic excitatory ascending and descending pathways and nitric oxide-dependent inhibitory ascending neurotransmission(s) to rectal circular muscle and inhibitory descending to internal anal sphincter and anal canal are involved in reflex circuitry controlling motor activity of recto-anal region.
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PMID:Ascending and descending reflex motor activity of recto-anal region-cholinergic and nitrergic implications in a rat model. 1919 94