EC:3.6.1.3 - FACTA Search

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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)

Morphological and functional heterogeneity of parietal cells has been thought to be due to different maturation positions within the gastric gland. Morphodynamic studies have shown that 2% of parietal cells in mice derive from a pre-neck (chief) cell precursor. Intrinsic factor (IF) and pepsinogen, markers of rat chief cells, were used to determine if these proteins identified a subset of parietal cells that might reflect origin from the pre-neck cell lineage. The zymogenic region of the rat stomach and gradient-isolated fractions enriched in parietal and chief cells were fixed in 10% buffered Formalin or in Bouin's solution. Immunostaining was performed using indirect immunoperoxidase histochemistry and double-labeled immunofluorescence with antibodies raised against human IF, pepsinogen II, and H(+)-K(+)-adenosinetriphosphatase (H(+)-K(+)-ATPase). In intact tissue, parietal (H(+)-K(+)-ATPase-positive) cells were found starting at the upper edge of the isthmus, but parietal cells positive for IF and pepsinogen were only found from just below the isthmus and neck region to the base of the gastric gland. Three to four percent of isolated parietal cells were positive for these ectopic markers. This subset of cells was also positive for H(+)-K(+)-ATPase. Thus products of rat chief cells are expressed in a subset of parietal cells. The percentage of positive cells is similar to that predicted to be derived from the pre-neck (chief) precursor lineage in the mouse. The distribution of these cells to the lower neck and base of the gland suggests that the expression of chief cell products is consistent with either predetermination by lineage or parietal cell maturation or with both processes.
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PMID:Expression of intrinsic factor and pepsinogen in the rat stomach identifies a subset of parietal cells. 945 74

The determination of fiber types is routinely accomplished in skeletal muscle biopsy specimens by enzymatic histochemical analysis, which detects adenosine triphosphatase (ATPase) activity on cryostat sections. This study assesses postmortem antigen degradation, the effects of fixation and processing, and the neuropathologic applications of MY-32, a monoclonal antibody to fast twitch skeletal myosin. Formalin-fixed, paraffin-embedded sections of skeletal muscle biopsy specimens obtained from the quadriceps femoris were immunoreacted with this antibody. Cryostat sections of the same muscle biopsy specimens were examined after brief fixation in either acetone or formalin. Parallel cryostat sections of frozen muscle were also assessed with ATPase preparations at pH 9.4 and 4.3. To evaluate the effect of postmortem interval and autolysis on antigen degradation, skeletal muscle samples obtained at 12 hours postmortem were immunoreacted after 12, 24, or 36 additional hours. These specimens were examined as immunoreacted cryostat sections and compared with parallel sections reacted for ATPase at pH 9.4 and 4.3. Representative sections from each time point were also fixed in formalin, routinely processed, paraffin embedded, and immunoreacted. Selected muscle biopsy specimens with a range of neuropathologic diagnoses, including fiber type grouping, Type II atrophy, and congenital fiber type disproportion, were also assessed for immunoreactivity. Our results indicate that the MY-32 monoclonal antibody specifically reacts with Type II (fast twitch) fibers. Immunoreactivity is most intense in cryostat sections immersion fixed in acetone, but moderately intense, specific immunoreactivity can be clearly identified in formalin-fixed (frozen or paraffin-embedded) tissue obtained even 48 hours after death. Application of this nonenzymatic method for fiber type determinations in the neuropathologic evaluation of skeletal muscle biopsies is presented.
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PMID:Neuropathologic applications of immunohistochemical fiber typing in the non-neoplastic muscle biopsy. 957 83

We have examined lipid peroxidation (LPO) and fatty acid acyl chain dynamics in synaptosomal membranes isolated from aged rat (Fischer 344 x Brown Norway F1 hybrids) brains, correlating these results with measurements of enzymatic activity of the synaptic plasma membrane Ca2(+)-ATPase (PMCA). Calcium-dependent ATPase activity in these membranes exhibits progressive decreases with a maximal loss of activity with age of approximately 35%. The sensitivity of this membrane-bound ion transporter to the lipid composition of the surrounding membrane, as well as the high abundance of oxidatively sensitive polyunsaturated fatty acyl chains in synaptosomal membranes, suggests that this age-related loss in catalytic turnover may result from LPO-mediated protein modification and/or changes in the physical structure of the bilayer. However, high-performance liquid chromatography analysis of 2,4-dinitrophenylhydrazone derivatives reveals no significant age-related increases in the content of reactive aldehydes (malondialdehyde, formaldehyde, acetaldehyde or acetone) which comprise breakdown products of lipid peroxidation. Electron paramagnetic resonance measurements employing 5- and 12-stearic acid spin labels with the nitroxide reporter groups at two depths in the bilayer were used to assess the fatty acyl chain dynamics (fluidity) of synaptosomal membranes. The resulting spectra demonstrate anisotropic lipid dynamics of two populations of lipids, i.e. lipids in direct association with membrane proteins (boundary lipids) and bulk lipids that do not directly associate with proteins. The nanosecond dynamics of both lipid populations is unaltered with age indicating that any compositional changes occurring with age are insufficient to result in alterations in bilayer fluidity relevant to PMCA activity. Thus, the observed age-related decline in PMCA activity may be explained by direct modification of membrane protein.
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PMID:Decrease in Ca-ATPase activity in aged synaptosomal membranes is not associated with changes in fatty acyl chain dynamics. 986 36

Cytochemical data in the literature reporting localization of sodium, potassium adenosine triphosphatase (Na(+), K(+)-ATPase) in the blood-brain barrier (BBB) have been contradictory. Whereas some studies showed the enzyme to be located exclusively on the abluminal endothelial plasma membrane, others demonstrated it on both the luminal and abluminal membranes. The influence of fixation on localization of the enzyme was not considered a critical factor, but our preliminary studies showed data to the contrary. We therefore quantitatively investigated the effect of commonly used fixatives on the localization pattern of the enzyme in adult rat cerebral microvessels. Fixation with 1%, 2%, and 4% formaldehyde allowed deposition of reaction product on both the luminal and abluminal plasma membranes. The luminal reaction was reduced with increasing concentration of formaldehyde. Glutaraldehyde at 0.1%, 0.25%, 0.5%, in combination with 2% formaldehyde, drastically inhibited the luminal reaction. The abluminal reaction was not significantly altered in all groups. These results show that luminal localization of BBB Na(+), K(+)-ATPase is strongly dependent on fixation. The lack of luminal localization, as reported in the literature, may have been the result of fixation. The currently accepted abluminal polarity of the enzyme should be viewed with caution.
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PMID:Luminal localization of blood-brain barrier sodium, potassium adenosine triphosphatase is dependent on fixation. 1082 Jan 59

Numerous cytochemical studies have reported that calcium-activated adenosine triphosphatase (Ca2+-ATPase) is localized on the abluminal plasma membrane of mature brain endothelial cells. Since the effects of fixation and co-localization of ecto-ATPase have never been properly addressed, we investigated the influence of these parameters on Ca2+-ATPase localization in rat cerebral microvessel endothelium. Formaldehyde at 2% resulted in only abluminal staining while both luminal and abluminal surfaces were equally stained following 4% formaldehyde. Fixation with 2% formaldehyde plus 0.25% glutaraldehyde revealed more abluminal staining than luminal while 2% formaldehyde plus 0.5% glutaraldehyde produced vessels with staining similar to 4% and 2% formaldehyde plus 0.25% glutaraldehyde. The abluminal reaction appeared unaltered when ATP was replaced by GTP, CTP, UTP, ADP or when Ca2+ was replaced by Mg2+ or Mn2+ or p-chloromercuribenzoate included as inhibitor. But the luminal reaction was diminished. Contrary to previous reports, our results showed that Ca2+-specific ATPase is located more on the luminal surface while the abluminal reaction is primarily due to ecto-ATPase. The strong Ca2+-specific-ATPase luminal localization explains the stable Ca2+ gradient between blood and brain, and is not necessarily indicative of immature or pathological vessels as interpreted in the past.
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PMID:Calcium-dependent ATPase unlike ecto-ATPase is located primarily on the luminal surface of brain endothelial cells. 1093 19

In Methanobacterium thermoautotrophicum, the protonmotive force for the H+-translocating ATPase consists mainly of a transmembrane electrical gradient (Deltapsi). These cells do not establish a significant transmembrane pH gradient (inside alkaline) and, in fact, if the suspending medium is of pH >/= 7.0, the pH gradient may be reversed-i.e., inside acid with respect to the extracellular pH. These studies show by both 23Na NMR and 22Na+ distribution that Na+ extrusion with the generation of Deltapsi precedes methanogenesis in Mb. thermoautotrophicum. It is calculated that the newly established Na+ gradients increase Deltapsi by approximately 50 mV (inside negative). There is no detectable H+ extrusion during methane synthesis; instead there is a high rate of H+ consumption for methane synthesis and an increase in internal pH. This was supported by 31P NMR experiments, which showed an internal pH shift from 6.8 to 7.6. With the cells maintained at an external pH of 7.2, the initial transmembrane pH gradient of -0.4 (inside acid) at 60 degrees C is equivalent to Deltapsi of + 27 mV (inside positive); after 20 min of incubation, the transmembrane pH gradient is + 0.4 (inside alkaline), which at 60 degrees C is equivalent to Deltapsi of -27 mV (inside negative). Actively respiring cells generated a protonmotive force of -198 mV. It is proposed that energy for CO2 reduction to the level of formaldehyde (the first step in methane synthesis) in Mb. thermoautotrophicum is derived from the Deltapsi generated by electrogenic Na+ extrusion. The protonmotive force required for ATP synthesis consists primarily of Deltapsi and appears to be the result of both an electrogenic Na+ extrusion and a pH gradient (inside alkaline) which develops during methanogenesis.
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PMID:Ion transport and methane production in Methanobacterium thermoautotrophicum. 1160 73

Thymus glands of chicks with leukemia induced by BAI strain A (myeloblastosis) virus were fixed in cold 4 per cent formaldehyde-sucrose. Frozen sections were incubated in the ATPase medium of Wachstein and Meisel and studied by light microscopy and electron microscopy. The ATPase activity of the virus is localized to the outermost membrane of the virus. The membrane of the blast-like cells of the thymus cortex from which the virus emerges, by budding, also possesses such activity. It appears likely that the outermost membrane of the virus is derived from the plasma membrane of these cells.
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PMID:Electron microscopic study of the ATPase activity of the BAI strain A (myeloblastosis) avian tumor virus. 1393 25

Cytochemical techniques employing lead-precipitation of enzymically released inorganic phosphate have been widely used in attempts to localize the plasma membrane proton pump (H(+)-ATPase) in electron micrographs. Using Avena sativa root tissue we have performed a side-by-side comparison of ATPase activity observed in electron micrographs with that observed in in vitro assays using ATPases found in the soluble and plasma membrane fractions of homogenates. Cytochemical analysis of oat roots, which had been fixed in glutaraldehyde in order to preserve subcellular structures, identifies an ATPase located at or near the plasma membrane. However, the substrate specificity and inhibitor sensitivity of the in situ localized ATPase appear identical to those of an in vitro ATPase activity found in the soluble fraction, and are completely unlike those of the plasma membrane proton pump. Further studies demonstrated that the plasma membrane H(+)-ATPase is particularly sensitive to inactivation by the fixatives glutaraldehyde and formaldehyde and by lead. In contrast, the predominant soluble ATPase activity in oat root homogenates is less sensitive to fixation and is completely insensitive to lead. Based on these results, we propose a set of criteria for evaluating whether a cytochemically localized ATPase activity is, in fact, due to the plasma membrane proton pump.
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PMID:Cytochemical localization of ATPase activity in oat roots localizes a plasma membrane-associated soluble phosphatase, not the proton pump. 1666 98

Type III secretion (T3S) is utilized by a wide range of gram-negative bacterial pathogens to allow the efficient delivery of effector proteins into the host cell cytoplasm through the use of a syringe-like injectisome. Chlamydophila pneumoniae is a gram-negative, obligate intracellular pathogen that has the structural genes coding for a T3S system, but the functionality of the system has not yet been demonstrated. T3S is dependent on ATPase activity, which catalyzes the unfolding of proteins and the secretion of effector proteins through the injectisome. CdsN (Cpn0707) is predicted to be the T3S ATPase of C. pneumoniae based on sequence similarity to other T3S ATPases. Full-length CdsN and a C-terminal truncation of CdsN were cloned as glutathione S-transferase (GST)-tagged constructs and expressed in Escherichia coli. The GST-tagged C-terminal truncation of CdsN possessed ATPase activity, catalyzing the release of ADP and P(i) from ATP at a rate of 0.55 +/- 0.07 micromol min(-1) mg(-1) in a time- and dose-dependent manner. CdsN formed oligomers and high-molecular-weight multimers, as assessed by formaldehyde fixation and nondenaturing polyacrylamide gel electrophoresis. Using bacterial two-hybrid and GST pull-down assays, CdsN was shown to interact with CdsD, CdsL, CdsQ, and CopN, four putative structural components of the C. pneumoniae T3S system. CdsN also interacted with an unannotated protein, Cpn0706, a putative CdsN chaperone. Interactions between CdsN, CdsD, and CopN represent novel interactions not previously reported for other bacterial T3S systems and may be important in the localization and/or function of the ATPase at the inner membrane of C. pneumoniae.
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PMID:Characterization of the putative type III secretion ATPase CdsN (Cpn0707) of Chlamydophila pneumoniae. 1870 2

The localization of proteins by immunostaining is a powerful method to investigate otologic disorders. However, the use of fixatives and embedding media (necessary for the preservation of morphology) can obscure antigens, making it difficult to perform immunoassays. We performed a systematic investigation of the effects of fixative and embedding medium on morphology and immunostaining of the mouse cochlea. Three different fixative solutions [4% formaldehyde (F), 4% formaldehyde + 1% acetic acid (FA), and 4% formaldehyde + 1% acetic acid + 0.1% glutaraldehyde (FGA)] and 3 different embedding media (paraffin, polyester wax, and celloidin) were used. Morphology was assessed using light microscopy. Immunostaining was studied using a panel of 6 antibodies (to prostaglandin D synthase, aquaporin 1, connective tissue growth factor, 200-kDa neurofilament, tubulin and Na(+),K(+)-ATPase). Preservation of morphology was suboptimal with paraffin, adequate with polyester wax and superb with celloidin. Immunostaining was successful using all 6 antibodies in all 3 fixatives and all 3 embedding media. While there were differences in strength of signal and localization of antigen between the 3 fixatives, overall, FA and FGA gave the most uniform results. For a given fixative and antibody, there was surprisingly little difference in the quality of immunostaining between celloidin and paraffin, while results in polyester wax were not as good in some cases. These results suggest that celloidin may be the embedding medium of choice for both morphological and pathological studies, including immunostaining when morphology must be optimized.
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PMID:Effects of fixative and embedding medium on morphology and immunostaining of the cochlea. 1882 78

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