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:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nasal passages are anatomically complex, and while there have been a number of descriptions of nasal structure in many species, there is very little information available on the distribution of enzymes in the nasal mucosa. In rodents, this delicate mucosa is the first site within the respiratory tract to be exposed during inhalation toxicology studies designed to assess human risks from such exposures. However, the nasal mucosa presents problems for histologic preparation because it is encased in brittle bones. Because of recent interest in the nose as a target site, and findings from biochemical studies which indicate that the nose is very active metabolically, studies were carried out to determine the value of cold glycol methacrylate (GMA) processing for localization of nasal enzymes. For these studies, liver and kidney were used as positive controls. Published histochemical procedures for acid and alkaline phosphatase, adenosine triphosphatase, glucose-6-phosphatase, gamma-glutamyl transpeptidase, and naphthyl butyrate esterase were applied, with modifications, to undecalcified nasal passages of Fisher-344 rats. Frozen sections exhibited excellent enzyme preservation but very poor morphology, while GMA gave good enzyme preservation and excellent morphology. For GMA, acetone fixation generally resulted in the best preservation of enzyme activity. It was concluded that cold GMA processing provides a useful approach to studies of nasal enzyme distribution and that this technique of value for inhalation toxicology studies. Details of enzyme distribution in the squamous, respiratory, and olfactory epithelia, associated glands, and other structures of the nose of the rat are described and discussed.
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PMID:Enzyme histochemistry of the rat nasal mucosa embedded in cold glycol methacrylate. 288 3

Specific, high-affinity binding sites for atrial natriuretic factor (ANF) were identified and localized in the rat and guinea pig central nervous system (CNS), the cat brainstem, and the rat, guinea pig, cat and human spinal cord using quantitative autoradiographic techniques. The radioligands tested were rat 125I-ANF(1-28) in guinea pig, rat, cat and human tissues, human 125I-ANF in rat and human, and rat [3H]atriopeptin III in rat. All 3 radioligands labeled essentially the same structures in the brain and spinal cord of all species in which they were tested. In guinea pig very high concentrations of ANF binding sites were observed in the olfactory bulb, lateral olfactory tract and the granule cell layer of the cerebellum, high concentrations were observed in the fasciculus retroflexus, interpeduncular nucleus and subfornical organ. Moderate concentrations were observed in the nucleus accumbens, dorsomedial and suprachiasmatic hypothalamic nuclei, paraventricular thalamic nuclei, primary olfactory cortex and the subcommissural organ. High concentrations of ANF binding sites were also observed in the choroid plexus and the leptomeninges. Low concentrations were observed in the pineal gland. In the rat the same structures were labeled as in the guinea pig except that suprachiasmatic and dorsomedial hypothalamic nuclei, paraventricular thalamus and cerebellum were unlabeled. In the lower brainstem of the cat and all levels of the rat, guinea pig, cat and human spinal cord, the only site where specific binding was observed was in the pia/arachnoid. These findings suggest that ANF binding sites constitute several functional classes in the CNS as well as in a variety of other tissues. Outside the blood-brain barrier binding sites are prominent in glandular tissues implicated in the production of hormones involved in fluid and electrolyte balance, e.g. adrenal glomerulosa, neurohypophysis and subfornical organ, unstratified epithelia involved in ion gradient exchange, e.g. renal glomerulus, ciliary body, choroid plexus and pia mater; crossing the blood-brain barrier are sites in the anterior hypothalamus, e.g. organum vasculosum, regions of the brain parenchyma associated with angiotensin II binding sites, e.g. dorsomedial nucleus of hypothalamus, some of which may be occupied by brain rather than cardiac synthesized ANF, regions of brain lacking an obvious role in fluid and ion exchange or regulation, e.g. cerebellum, although association with K+,Na+-ATPase in guinea pig cerebellum may be a relevant clue and brain regions possibly implicated in an integrative and/or indirect regulatory role in fluid and electrolyte balance.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Localization of specific binding sites for atrial natriuretic factor in the central nervous system of rat, guinea pig, cat and human. 295 51

The activity of three forms of ATPase were examined in fractions of the brain of the gerbil treated with ethylene glycol-N-N-tetra-acetic acid (EGTA) under a variety of conditions of primary and secondary (reflow) ischemia. In animals which were unilateral ischemic (ligation of the right common carotid), damage to Na+, K+-ATPase alone was observed only after at least 6 hr of ischemia had elapsed. The phenomenon occurred in only symptomatic gerbils and was absent in animals which were either asymptomatic or only displayed partial neurological symptoms. Under conditions of bilateral cerebral ischemia, in which both carotid arteries were clamped, only irreversible ischemia (60 min) followed by reflow, was associated with highly significant damage to cerebral Na+, K+-ATPase. In regional studies of the forebrain involving ischemia for 60 min plus 30 min reflow, damage to Na+, K+-ATPase was evident in the cerebrum, hippocampus, striatum and thalamus, while the hypothalamus and olfactory bulb were spared. Pretreatment of gerbils with allopurinol, clonazepam or combinations of thiopental plus either indomethacin or methylprednisolone offered protection to cerebral Na+, K+-ATPase subsequent to secondary ischemia. With only minor exceptions (striatum) neither Ca2+, Mg2+- nor Mn2+-ATPase were altered by stroke or treatment with drugs.
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PMID:Classification of ischemic-induced damage to Na+, K+-ATPase in gerbil forebrain. Modification by therapeutic agents. 299 3

This work examines the effects of olfactory bulbectomy on Na+, K+-ATPase activity and ouabain binding in the olfactory tubercle. The activity and number of enzyme sites were reduced significantly in olfactory tubercle, but not in corpus striatum or hippocampus, 14 and 21 days after bulbectomy. Enzyme activity and ouabain binding returned to normal by 42 days after the lesions. The time of the reduction in Na+, K+-ATPase coincides with that observed earlier for dopaminergic sprouting and increased dopamine-sensitive adenylate cyclase activity.
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PMID:Deafferentation elicits a transient decrease in Na+, K+-ATPase activity and ouabain binding in the olfactory tubercle. 303 35

Ouabain binds to the catalytic subunit of Na+,K+-ATPase and specific [3H]ouabain binding can be used as a measure of the number of active enzyme molecules present in a given tissue. Specific [3H]ouabain binding can be demonstrated in frozen, cryostat sections from rat brain and pineal and these sites have the characteristics of Na+,K+-ATPase. Incubations carried out in the absence of ATP or the presence of excess unlabeled ouabain reduces specific binding by greater than or equal to 98%. The addition of K+ or omission of Mg2+ also result in a decrease in specific binding. Strophanthidin, digoxin and digoxigenin displace [3H]ouabain binding with IC50 values of 0.73, 0.48 and 1.4 microM, respectively. Scatchard analyses of specific [3H]ouabain binding in brain sections shows a single class of non-interacting binding sites with an apparent affinity (Kd) of 339 nM and a maximal binding capacity (Bmax) of 34.9 pmol/mg protein. [3H]Ouabain binding is unevenly distributed throughout the brain with the olfactory nuclei, superior colliculus, dentate gyrus, pontine nuclei and pineal gland having a relatively high density of binding sites. The outer layers (1-3) of the cerebral cortex show more labeling than the inner layers (4-6) and most other brain areas have intermediate levels of [3H]ouabain binding sites, whereas white matter has virtually no specific binding. Computer-assisted densitometry was used to measure changes in specific [3H]ouabain binding after kainic acid injection into the caudate nucleus. An initial increase in [3H]ouabain binding was observed at 1 and 24 h after lesioning and a decrease in [3H]ouabain binding was evident by 9 days after lesioning.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Autoradiographic visualization and characterization of [3H]ouabain binding to the Na+,K+-ATPase of rat brain and pineal. 303 80

In the present study, the structural and functional role of smooth endoplasmic reticulum was investigated in bullfrog olfactory axon terminals. Structural evidence obtained from this study indicated that this vesiculotubular organelle becomes a more elaborate network of anastomosing tubules near the nerve terminal, located in the olfactory lobe of frog brain. Further structural evidence suggested that membranes of the smooth endoplasmic reticulum pinch off to give rise to some electron-lucent vesicles of approximately 50 nm diameter (microvesicles). Ultrastructural cytochemistry was employed in the present study to demonstrate that olfactory axon terminal smooth endoplasmic reticulum actively sequesters Ca2+. However, a variable amount of electron-dense product (calcium oxalate) was associated with microvesicles located at a distance from the synapse, in contrast to those clustered near the synapse which usually did not contain this reaction product. Results from Ca2+-Mg2+-adenosine-5'-triphosphatase (ATPase) cytochemistry showed a similar pattern of distribution, with smooth endoplasmic reticulum being densely labeled with ATPase reaction product (lead phosphate), but aggregated microvesicles in the nerve terminal generally lacking this electron-dense product. Therefore, it is concluded that olfactory axonal smooth endoplasmic reticulum plays a role in the regulation of intraneuronal Ca2+ levels, and that the Ca2+-sequestering activity of this membranous organelle is dependent upon enzymatic hydrolysis of ATP. Conversely, the microvesicles, particularly those accumulated near the synapse, lack this Ca2+-pumping capacity. Thus, if some of the microvesicles originate from smooth endoplasmic reticulum membranes which are capable of pumping Ca2+, but these vesicles themselves lack this capacity, one can postulate that the Ca2+ pumps are either removed from the newly formed microvesicle membranes or are somehow incapacitated in situ in the membrane.
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PMID:Distribution and calcium-sequestering ability of smooth endoplasmic reticulum in olfactory axon terminals of frog brain. 350 Apr 27

Cilia at the tips of dendritic processes of olfactory receptor cells are the sites of initial recognition and transduction events in olfactory reception. We have detached cilia from the olfactory epithelium of the bullfrog, Rana catesbeiana, via a calcium shock and partially purified them in high yield (226 +/- 19 micrograms protein/frog, n = 14) by sucrose gradient centrifugation. The cilia appear to undergo osmotic lysis during the isolation procedure, forming isolated axonemal structures and ciliary plasma membrane vesicles with diameters of 100-500 nm and an internal volume of 2.3 +/- 0.5 microliter/mg protein. PAGE in SDS reveals approximately 30 protein bands, among which cytoskeletal components, such as tubulin and actin, are readily identifiable by immunoblotting. Approximately 15 glycoprotein bands reactive with concanavalin A are discernible with major glycopeptides at apparent molecular weights of 56-65, 95, and 116 kDa. In contrast to olfactory cilia, respiratory cilia, isolated from the palate of the frog, do not contain the prominent glycopeptides observed for olfactory cilia. The 56-65 kDa glycopeptide region reacts with antiserum against chick kidney, Na+/K+-ATPase, and contains the beta subunit of this enzyme. In addition, we have identified the alpha and beta subunits of a guanine nucleotide-binding protein (G-protein) in the olfactory cilia preparation. This preparation of isolated olfactory cilia from Rana catesbeiana represents a readily accessible model system for studies of initial events in chemosensory recognition and signal transduction in the olfactory system.
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PMID:A partially purified preparation of isolated chemosensory cilia from the olfactory epithelium of the bullfrog, Rana catesbeiana. 352 76

Garfish Lepisosteus osseus olfactory nerve, because of its large size and the unusually high concentration of axonal membrane, is an excellent source of axonal membrane. A procedure is described for the isolation of two types of plasma membranes from the nerve which are obtained in yields of about 20 mg (fraction I) and 1.5 mg (fraction II) per g of wet nerve. Both membrane fractions consist mostly of rounded membrane vesicles, with a unit membrane thickness of approximately 7.5 nm. The two membrane fractions are different in their lipid to protein ratios, Na-K ATPase activities, polypeptide patterns on sodium dodecyl sulfate (SDS) gel electrophoresis, and fatty acid compositions. They have similar phospholipid composition. On the basis of the relative concentration of axonal and Schwann cell plasma membranes in the nerve, the Na-K ATPase activities of the two membrane fractions and a comparison of the properties of the membrane fractions to those of squid and lobster nerve membrane preparations, fraction I seems to be the axonal membrane and fraction II the Schwann cell plasma membrane. Fraction I has a low protein to lipid ratio. Its polypeptide pattern on SDS gel appears to be much more complex as compared to that of fraction II membrane.
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PMID:Isolation and characterization of plasma membrane fractions from garfish Lepisosteus osseus olfactory nerve. 427 45

In vitro quantitative autoradiography was used to localize in rat brain binding sites for [3H]ouabain, an inhibitor of the Na+,K+-ATP-ase. High levels of [3H]ouabain binding sites were found in the superior and inferior colliculi, the mammillary nucleus, the interpeduncular nucleus, and in various divisions of the olfactory, auditory and somatomotor systems. The heterogeneous distribution of [3H]ouabain binding closely parallels the regional brain glucose consumption as determined by the [14C]deoxyglucose method. Lesion studies of the rat hippocampus using the excitotoxin, ibotenic acid, showed both a marked decrease of neuronal cell types on the injected side and a corresponding decrease in [3H]ouabain binding, indicating that some of the [3H]ouabain binding sites are localized to neurons. The close correlation between [3H]-ouabain binding and regional glucose utilization provides further evidence for a linkage between glucose utilization and the neuronal Na+,K+-ATPase.
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PMID:Quantitative autoradiography of [3H]ouabain binding sites in rat brain. 609 36

The membrane potential of olfactory bulb synaptosomal fractions was monitored with the lipophilic cation tetraphenylphosphonium (TPP+), which has been reported to distribute across membranes according to the Nernst equation. The properties of the synaptosomal membrane potential as monitored with TPP+ were similar to those reported for neural tissues using other measurement techniques. There is an electrical potential (delta psi) of -64 and -77 mV in the P1 and P2 synaptosomal fractions, respectively. This potential is due primarily to the K+ diffusion gradient across the synaptosomal membrane. The influence of ouabain on TPP+ accumulation indicates that the (Na+,K+)-ATPase electrogenicity contributes about -20 mV to the resting synaptosomal membrane potential. Veratridine induced a decline in TPP+ accumulation which was blocked by tetrodotoxin or by the omission of Na+ from the medium. A significant mitochondrial contribution to TPP+ accumulation, which varied as a complex function of TPP+ concentration in the medium in a manner indicating that TPP+ interfered with the maintenance of mitochondrial potential, was observed. This mitochondrial contribution could be eliminated by performing the experiments anaerobically in the presence of oligomycin. The results are discussed with relation to the future possible use of TPP+ for delta psi measurements in synaptosomal preparations.
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PMID:Membrane potential of olfactory bulb synaptosomal fractions: characterization with the lipophilic cation tetraphenylphosphonium. 611 47


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