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: EC:1.6.5.2 (NQO1)
6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously found that a biochemically distinct subset of neurons, containing nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d), is selectively resistant to the degenerative process that affects the striatum in Huntington's disease (HD). We report the morphologic and histochemical characteristics of these striatal neurons and their distribution with respect to the histochemical compartments as defined by acetylcholinesterase (AChE) activity. Sections of striatum were stained histochemically for NADPH-d and AChE and immunocytochemically for somatostatin and neuropeptide Y-like immunoreactivity. The diaphorase end-product was contained within medium-sized neurons which corresponded morphologically to a category of aspiny interneurons. Combined techniques showed that NADPH-d, somatostatin, and neuropeptide Y coexisted within the same neurons in controls and patients with HD. The density of these neurons was greater in the ventral putamen and the nucleus accumbens than in the remainder of the striatum. The distinctive AChE pattern of high and low enzyme activity was altered in HD. The AChE-rich matrix zone was markedly reduced in size, while the total area of zones of low enzyme activity was not different from that found in control striatum. The relation between these AChE chemical compartments and the distribution of preserved diaphorase neurons remained intact; NADPH-d neurons were predominantly observed in the matrix zone.
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PMID:Morphologic and histochemical characteristics of a spared subset of striatal neurons in Huntington's disease. 294 77

A combination of immunocytochemical and enzyme histochemical methods have been used to study those neurons which survive lesions of the rat striatum, produced by low doses of the excitotoxin quinolinic acid. Nissl-stained sections revealed that following injection of this toxin many large neurons remained within areas of extensive cell loss. These large cells were found to express both the enzyme acetylcholinesterase and choline acetyltransferase-like immunoreactivity. The surviving cells did not contain the enzyme reduced nicotinamide adenine dinucleotide phosphate or the peptides, somatostatin and neuropeptide Y. This pattern of selective cell sparing was also found following lesions induced by low doses of the toxins ibotenic acid and kainic acid. The survival of large neurons indicates that the excitotoxin-lesioned rat striatum shares common features with the pattern of cell loss found in the caudate-putamen in Huntington's disease. The major difference between these two examples of striatal nerve cell degeneration is, however, the selective preservation of somatostatin/neuropeptide Y/nicotinamide adenine dinucleotide phosphate-diaphorase-containing neurons found in Huntington's disease but not observed following quinolinic acid lesions.
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PMID:Sparing of cholinergic neurons following quinolinic acid lesions of the rat striatum. 297 92

A significant increase in the striatal specific activity of DT diaphorase is demonstrable from one to six weeks after intrastriatal injection of kainic acid (KA). At six weeks, there is a significant dose-response relation (ANOVA, F(2,18) = 25.8, p less than 0.001); 1, 3 and 5 nmoles produce 12.3, 39.6 and 118% increases, respectively. Loss of acetylcholinesterase activity (AChE), used as an indicator of neuronal damage, is positively correlated with the enhanced DT diaphorase activity (r = 0.823, p less than 0.01).
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PMID:Kainic acid induced damage to the striatum increases DT diaphorase activity. 311 25

Nicotinamide adenine dinucleotide phosphate diaphorase reactive neurons were found in several regions of human brainstem. Three major groups were located in the medulla: a dorsomedial group in the central gray and floor of the fourth ventricle, a ventromedial group in the vicinity of the medullary raphe, and a lateral group in the lateral reticular nucleus. In the upper pons a large cluster of reactive neurons was centered in the nucleus centralis oralis extending into the locus coeruleus and dorsal tegmental region. A second cluster in the lateral parabrachial nucleus merged with this group more rostrally and continued into the midbrain tegmentum (paracoeruleus-cuneiform group). Nicotinamide adenine dinucleotide phosphate diaphorase neurons in this region often contained acetylcholinesterase activity. A second midbrain group was seen in the nucleus paranigralis. Aside from these discrete neuronal collections, scattered reactive neurons were found in the medullary reticular formation, periaqueductal gray, inferior colliculus and superior colliculus. Nicotinamide adenine dinucleotide phosphate diaphorase neurons were classified into three groups based on somal size. Parvocellular neurons (10-20 micron) were primarily found in the ventromedial medulla and lateral parabrachial nucleus. Intermediate neurons (20-25 micron) were located in the paranigralis nucleus and dorsomedial medulla. Magnocellular neurons (25-35 micron) were characteristically found in the lateral reticular nucleus and paracoeruleus-cuneiform region. Nicotinamide adenine dinucleotide phosphate diaphorase reactive neurons are present in substantial numbers in human brainstem and their distribution is complex. They represent the caudal end of a widespread network of nicotinamide adenine dinucleotide phosphate diaphorase-enriched neurons that extend rostrally from the brainstem reticular formation into the basal forebrain, striatum, and cerebral cortex.
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PMID:Morphology and distribution of nicotinamide adenine dinucleotide phosphate (reduced form) diaphorase reactive neurons in human brainstem. 317 92

Fetal cortex from 16- and 17-day-old embryonic rats was transplanted into the parietal cortex of 12 adult rats rendered ischemic by temporary intraluminal occlusion of the middle cerebral artery. Ischemic injury in the host cortex adjacent to all nine surviving transplants was demonstrated with hematoxylin and eosin and cresyl violet strains. Nicotidamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemical studies revealed a normal number of NADPH-d-positive neurons, whereas acetylcholinesterase (AChE) staining revealed many more AChE-positive neurons in the transplants compared to the host parietal cortex. This could be due to: 1) selective survival of AChE neurons in the transplants compared to the host cortex; 2) increased expression of AChE in transplanted neurons; 3) induction of AChE in normally AChE-negative neurons; or 4) decreased transport of the AChE enzyme from the perikarya to fibers in surviving transplanted neurons. Many fibers positive for AChE and NADPH-d crossed between the host and transplant, although fiber density in the transplants was less than in normal host cortex. These results should encourage future investigation of whether similar transplants improve neurological function following experimental stroke.
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PMID:Neuronal changes in fetal cortex transplanted to ischemic adult rat cortex. 319 96

The cholinergic neurons located within the pedunculopontine nucleus (Ch5) of patients with Alzheimer's disease (AD; n = 15), Parkinson's disease (PD; n = 2), and neurologically normal (n = 6) subjects were visualized immunohistochemically using choline acetyltransferase, pharmacohistochemically using acetylcholinesterase, or by reduced histochemical methods using nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). Each histochemical procedure localized a well-delineated, compact lateral group and a more diffuse medial group of neurons within the pedunculopontine nucleus. Co-localization experiments revealed that all three enzymes marked the same population of cholinergic neurons. The extent of pathological alterations associated with the cholinergic neurons within the compact lateral sector of the pedunculopontine nucleus was examined in sections that reacted for NADPH-d, counterstained with thioflavin-S. The average number of neurofibrillary tangles within this portion of the pedunculopontine nucleus was 25.4 (range 0-70) in patients with AD, 1.5 (range 1-2) in those with PD, and 1.2 (range 0-4) in aged control subjects. Of the total number of neurofibrillary tangles counted in AD cases, 72.7% were end-stage ghosts and 27.3% were tangle-bearing neurons. The pathological alteration of cholinergic neurons of the compact lateral aspect of the pedunculopontine nucleus may play a role in some of the behavioral features characteristic of AD.
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PMID:Neurofibrillary tangles in cholinergic pedunculopontine neurons in Alzheimer's disease. 320 15

The substantia innominata encompasses an area of the basal forebrain that is ventral to the lenticular nucleus and anterior commissure, medial to the claustrum and external capsule, and lateral to the hypothalamus. The nucleus basalis of Meynert consists primarily of large acetylcholinesterase (AchE)-positive neurons embedded within the substantia innominata. Damage to these neurons may be important in the pathogenesis of cortical dysfunction in Alzheimer's disease. In order to characterize other neuronal elements in the substantia innominata and their relationship to the nucleus basalis, we chose to study a biochemically distinct neuronal subset containing the enzyme nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). The substantia innominata was blocked from six normal brains obtained postmortem and fixed in neutral-buffered formalin at 4 degrees C for 48 hours. Free-floating 50-micron sections from several levels were stained for NADPH-d or AchE activities. Selected sections were double stained for NADPH-d and AchE. NADPH-d activity was present in a network of pleomorphic neurons that extended through all levels of the substantia innominata and into the striatum and amygdala. NADPH-d neurons were particularly numerous at the level of the anterior commisure and were closely associated with the cholinergic neurons of the nucleus basalis. They were not seen in the ventral pallidum, or the vertical limb of the diagonal band of Broca or in the islands of Calleja. The cell bodies of NADPH-d neurons were quite varied in shape, ranging from ovoid to fusiform, and about half the cells were bipolar. Where neuronal density was high, their dendrites formed an interlacing pattern. NADPH-d-positive fibres were seen coursing through the external capsule, hypothalamus, and amygdala. This novel set of neurons in the substantia innominata may be part of a more extensive network that interacts with the magnocellular basal forebrain system at the level of the nucleus basalis. Whether other neurotransmitters are present within these neurons and whether NADPH-d neurons are involved in Alzheimer's disease remain to be elucidated.
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PMID:Subset of neurons characterized by the presence of NADPH-diaphorase in human substantia innominata. 361 5

In the intermediate layers of the rat and mouse colliculus there is a lattice-like pattern of high nicotinamide adenine dinucleotide phosphate diaphorase activity. This lattice is composed of dark bands that are 100-200 micron wide and enclose pale areas of irregular shape. A very similar lattice of high acetylcholinesterase activity is also found in the intermediate layers and this overlaps the diaphorase lattice almost completely. However, in deeper layers the enzymes have a complementary organization with high levels of one being associated with low levels of the other. It is concluded that the histochemical lattices will provide useful patterns with which to compare the terminal organization of afferent systems.
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PMID:Spatial relationship of NADPH-diaphorase and acetylcholinesterase lattices in the rat and mouse superior colliculus. 377 47

A major group of cholinergic neurons is present in the midbrain and pontine tegmentum. These cells could be selectively stained using either monoclonal antibodies to choline acetyltransferase, the pharmacohistochemical acetylcholinesterase procedure, or reduced nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase histochemistry. Using these three techniques, the precise distribution of this cell group was determined. By combining these techniques with immunohistochemical staining for various neuropeptides, examples of peptide-cholinergic coexistence could be demonstrated in this cell group. Approximately 30% of these cholinergic neurons displayed substance P immunoreactivity. Most of these cells also showed corticotropin-releasing factor immunoreactivity and bombesin/gastrin-releasing peptide immunoreactivity. These results therefore provide evidence for the coexistence of various neuropeptides together with NADPH-diaphorase activity in the ascending cholinergic reticular system.
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PMID:Neuropeptides and NADPH-diaphorase activity in the ascending cholinergic reticular system of the rat. 396 Mar 9

The fact that the nucleated center of the nerve cell is the major source of the macromolecular materials required in the maintenance and function of the whole neuron requires the operation of a steady cellulifugal convection of these supplies into and down the nerve fiber. This proximo-distal traffic has been firmly established, but the mechanisms involved in it are still poorly understood. Besides the slow (ca. 1 mm per day) advance of the axonal column as a whole ("axonal flow" in the strict sense), the demonstration of additional, much faster, traffic rates (up to several cm per day) calls for special conduits within the axon ("intra-axonal flow"). To test the possible role of neurotubules (average width:220 A) in this traffic, the drug colchicine, known for its immobilizing effect on microtubules in other types of cells, was locally injected into peripheral nerves. This resulted in a major blockage of the proximo-distal movement of a test enzyme, acetylcholinesterase, into and through the injected zone, the extent of blockage varying with the applied dosage. By analogy, the neurotubules thus seem to be definitely implicated in the motile mechanism of intra-axonal transport. By contrast, the movement of a mitochondrion-associated marker enzyme, diphosphopyridine nucleotide diaphorase, was not perceptibly affected (in the submaximal dosage range), which seems to signify that the proximo-distal shift of mitochondria, for which the slow axonal flow acts as carrier, has gone on uninterruptedly. The experiments thus indicate the possibility of uncoupling the axonal and intra-axonal transport mechanisms.
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PMID:Neuronal dynamics and axonal flow. IV. Blockage of intra-axonal enzyme transport by colchicine. 418 55


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