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)

The sarcoplasmic reticulum Ca-ATPase inhibitor thapsigargin (Tg; 0.4-100 nM) produced concentration-related, strong and sustained contractions of the mouse-isolated anococcygeus muscle; these contractions were dependent on extracellular calcium but were only partially reduced (by about 50%) in the presence of verapamil (10 and 100 microM). The verapamil-resistant component of the Tg-induced contraction was relaxed by the general calcium entry blockers SKF96365 (0.4-40 microM) and cadmium (50-300 microM), and by the tyrosine kinase inhibitor genistein (10-180 microM). In single smooth muscle cells loaded with Fura-2, addition of Tg (100 nM) to calcium-free medium produced a small, transient increase in fluorescence; subsequent addition of calcium (2.5 mM) produced a larger and sustained increase which was abolished on return to calcium-free conditions, but was only partially reduced by verapamil (10 microM; by about 30%). Manganese quenching of Fura-2 was enhanced in cells treated with Tg. The verapamil-resistant calcium influx was reduced by SKF96365 (20 microM) and to a lesser extent by genistein (40 microM); cadmium (200 microM) produced an initial decrease in fluorescence followed by a marked increase. These results demonstrate that, in the mouse anococcygeus, Tg can cause sustained contractions and elevations of calcium influx in the presence of verapamil; the time-course, calcium dependence and, although to a lesser extent, pharmacology of these effects generally support the proposal that excitation-contraction coupling in this tonic smooth muscle involves sustained capacitative calcium influx.
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PMID:Thapsigargin-induced tone and capacitative calcium influx in mouse anococcygeus smooth muscle cells. 1055 Dec 73

The effect of estrogen on plasma membrane potential of isolated avian osteoclasts was examined through the use of a fluorescent potential-sensitive dye, bis-(1,3-dibutylbarbiturate) trimethine oxonol, also known as bis-oxonol. A decrease in potential was observed within seconds of addition of 17beta-estradiol. Ouabain, a specific Na+K+-ATPase inhibitor, and BaCl2, an inhibitor of the inwardly rectifying K+ channel, blocked the estrogen response. Verapamil and lanthanum chloride (LaCl3), inhibitors of inward Ca2+ channels, and 4'4-diisothiocyanatostilbene-2'2-disulfonic acid (DIDS), an inhibitor of Cl- channels, did not affect the depolarization. Herbimycin A, a tyrosine kinase inhibitor, also had no effect on the decreased membrane potential. These data provide evidence which suggests that estrogen regulates osteoclasts through ion channel activities. The change in K+ channel activity was observed within seconds of addition of 17beta-estradiol, indicating an action at the level of the plasma membrane.
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PMID:Depolarization of osteoclast plasma membrane potential by 17beta-estradiol. 1057 86

Expression of Q205L Galphao (Galphao*), an alpha subunit of heterotrimeric guanine nucleotide-binding proteins (G proteins) that lacks guanosine triphosphatase (GTPase) activity in NIH-3T3 cells, results in transformation. Expression of Galphao* in NIH-3T3 cells activated signal transducer and activator of transcription 3 (Stat3) but not mitogen-activated protein (MAP) kinases 1 or 2. Coexpression of dominant negative Stat3 inhibited Galphao*-induced transformation of NIH-3T3 cells and activation of endogenous Stat3. Furthermore, Galphao* expression increased activity of the tyrosine kinase c-Src, and the Galphao*-induced activation of Stat3 was blocked by expression of Csk (carboxyl-terminal Src kinase), which inactivates c-Src. The results indicate that Stat3 can function as a downstream effector for Galphao* and mediate its biological effects.
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PMID:Stat3-mediated transformation of NIH-3T3 cells by the constitutively active Q205L Galphao protein. 1061 50

Myosin is an ATPase, able to form filaments with actin, thus initiating smooth muscle contraction (conversion of chemical energy into mechanical energy). Myosin activity is regulated by cytosolic calcium, via a calcium-calmodulin-MLCK-dependent phosphorylation. Extrusion of cytosolic calcium via calcium pumps (in the plasma membrane and sarcoplasmic reticulum) and via a sodium-calcium exchange allow smooth muscle cells to maintain their resting state. Constrictor agonists (hormones, neurotransmitters or drugs) act at membrane receptors inducing: (i) a fast and transient calcium mobilization from the sarcoplasmic reticulum, via phospholipase C (PLC) stimulation and inositol triphosphate (IP3) production or via a "calcium-induced calcium release" mechanism and opening of calcium channels in the sarcoplasmic reticulum and (ii) a slow and maintained mobilization of extracellular calcium, via the opening of voltage-dependent calcium channels in plasma membranes. Smooth muscle relaxation is ensured by a phosphatase which hydrolyzes phosphorylated myosin and decreases the calcium sensitivity of the contractile apparatus. Calcium signal is regulated at that level by: (i) protein kinase C, tyrosine kinase and arachidonic acid which inhibit phosphatase activity and (ii) cyclic AMP (cAMP) and cyclic GMP (cGMP) which enhance phosphatase activity. A second regulatory site is situated at the level of the non-contractile calcium compartment, which buffers signal transduction and where cGMP and/or cAMP enhance calcium extrusion mechanisms.
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PMID:[Cellular mechanisms of smooth muscle contraction]. 1093 9

The signal transducers and activators of transcription (STAT) transcription factors become phosphorylated on tyrosine and translocate to the nucleus after stimulation of cells with growth factors or cytokines. We show that the Rac1 guanosine triphosphatase can bind to and regulate STAT3 activity. Dominant negative Rac1 inhibited STAT3 activation by growth factors, whereas activated Rac1 stimulated STAT3 phosphorylation on both tyrosine and serine residues. Moreover, activated Rac1 formed a complex with STAT3 in mammalian cells. Yeast two-hybrid analysis indicated that STAT3 binds directly to active but not inactive Rac1 and that the interaction occurs via the effector domain. Rac1 may serve as an alternate mechanism for targeting STAT3 to tyrosine kinase signaling complexes.
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PMID:Regulation of STAT3 by direct binding to the Rac1 GTPase. 1102 1

Regulation of intracellular calcium levels plays a central role in cell survival, proliferation, and differentiation. A cell-permeable, tumor-promoting thapsigargin elevates the intracellular calcium levels by inhibiting endoplasmic reticulum Ca(2+)-ATPase. The Src-tyrosine kinase family is involved in a broad range of cellular responses ranging from cell growth and cytoskeletal rearrangement to differentiation. The immediate early gene pip92 is induced in neuronal cell death as well as cell growth and differentiation. To resolve the molecular mechanism of cell growth by intracellular calcium mobilization, we have examined the effect of thapsigargin and subsequent intracellular calcium influx on pip92 expression in immortalized rat hippocampal H19-7 cells. An increase of intracellular calcium ion levels induced by thapsigargin stimulated the expression of pip92 in H19-7 cells. Transient transfection of the cells with kinase-inactive mitogen-activated protein kinase kinase (MEK) and Src kinase or pretreatment with the chemical MEK inhibitor PD98059 significantly inhibited pip92 expression induced by thapsigargin. When constitutively active v-Src or MEK was overexpressed, the transcriptional activity of the pip92 gene was markedly increased. Dominant inhibitory Raf-1 blocked the transcriptional activity of pip92 induced by thapsigargin. The transcription factor Elk1 is activated during thapsigargin-induced pip92 expression. Taken together, these results suggest that an increase of intracellular calcium ion levels by thapsigargin stimulates the pip92 expression via Raf-MEK-extracellular signal-regulated protein kinase- as well as Src kinase-dependent signaling pathways.
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PMID:Intracellular calcium mobilization induces immediate early gene pip92 via Src and mitogen-activated protein kinase in immortalized hippocampal cells. 1105 38

The ATPase associated with different cellular activities family member p97, associated p47, and the t-SNARE syntaxin 5 are necessary for the cell-free reconstitution of transitional endoplasmic reticulum (tER) from starting low-density microsomes. Here, we report that membrane-associated tyrosine kinase and protein-tyrosine phosphatase (PTPase) activities regulate tER assembly by stabilizing (PTPase) or destabilizing (tyrosine kinase) p97 association with membranes. Incubation with the PTPase inhibitor bpV(phen) inhibited tER assembly coincident with the enhanced tyrosine phosphorylation of endogenous p97 and its release from membranes. By contrast, the tyrosine kinase inhibitor, genistein, promoted tER formation and prevented p97 dissociation from membranes while increasing p97 association with the t-SNARE syntaxin 5. Purification of the endogenous tyrosine kinase activity from low-density microsomes led to the identification of JAK-2, whereas PTPH1 was identified as the relevant PTPase. The p97 tyrosine phosphorylation state is proposed to coordinate the assembly of the tER as a regulatory step of the early secretory pathway.
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PMID:Tyrosine phosphorylation of p97 regulates transitional endoplasmic reticulum assembly in vitro. 1108 17

Although MAG-null mice myelinate relatively normally except for subtle structural abnormalities in the periaxonal region of myelin sheaths, they develop more severe pathological changes as they age. The purpose of this study was to further define the biochemical aspects of CNS pathology caused by an absence of MAG. Proteins associated with myelin and oligodendrocytes were quantified by densitometry of western blots in whole brain homogenates, as well as in isolated myelinated axons and myelin. Neither myelin yields, nor levels of myelin basic protein and proteolipid protein, were decreased in comparison to control levels in 14-month-old MAG-null mice. On the other hand, 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) and the 120 kD neural cell adhesion molecule (N-CAM) were substantially reduced in whole brain, myelinated axons, and myelin. Tubulin, Na(+)K(+)ATPase and Fyn tyrosine kinase were also reduced significantly in myelin-related fractions, but not in whole brain homogenate. The decreased levels of these proteins suggest pathological abnormalities in oligodendrocytes. Furthermore, significant reductions of CNPase and 120 kD NCAM were also present at 2 months, indicating that the oligodendroglial abnormalities begin at a relatively early age. Neither TUNEL assays nor multiplex RT-PCR for mRNAs of apoptosis-related proteins in the aging MAG-null mice provided evidence for apoptotic oligodendrocytes. These biochemical findings suggest oligodendroglial damage in MAG-null mice and support the morphological observations pointing to a progressive "dying-back oligodendrogliopathy" as a consequence of MAG deficiency.
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PMID:Oligodendrocytes in aging mice lacking myelin-associated glycoprotein are dystrophic but not apoptotic. 1110 61

The ligand-dependent degradation of activated tyrosine kinase receptors provides a means by which mitogenic signalling can be attenuated. In many cell types the ligand-dependent degradation of the tyrosine kinase receptor Met is completely dependent on the activity of the 26S proteasome (Jeffers et al., 1997b). We now show that degradation also requires trafficking to late endosomal compartments and the activity of acid dependent proteases as determined by the effects of a dominant negative form of dynamin (K44A) and a vacuolar-ATPase inhibitor, concanamycin. We show that in the presence of the proteasome inhibitor lactacystin, Met fails to redistribute from the plasma membrane to intracellular compartments. This observation is most consistent with the interpretation that proteasome activity is required for Met internalization and only indirectly for its degradation.
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PMID:Down-regulation of MET, the receptor for hepatocyte growth factor. 1142 Jun 88

Phosphorylation of the alpha-subunits of Na(+),K(+)-adenosine triphosphatase in response to insulin, high extracellular glucose concentration, and phorbol 12-myristate 13-acetate was investigated in isolated rat soleus muscle. All three stimuli increased alpha-subunit phosphorylation approximately 3-fold. Phorbol 12-myristate 13-acetate- and high glucose-induced phosphorylation of the alpha-subunit was completely abolished by the PKC inhibitor GF109203X, whereas insulin-stimulated phosphorylation was only partially reduced. Notably, insulin stimulation resulted in phosphorylation of the alpha-subunit on serine, threonine, and tyrosine residues, whereas high extracellular glucose or phorbol 12-myristate 13-acetate stimulation mediated phosphorylation only on serine and threonine residues. Insulin stimulation resulted in translocation of Na(+),K(+)-adenosine triphosphatase alpha(2)-subunit to the plasma membrane and increased Na(+),K(+)-adenosine triphosphatase activity in the same membrane fraction. High glucose had no effect on alpha-subunits distribution. Immunoprecipitation with antiphosphotyrosine antibody and subsequent Western blot analysis with anti-alpha(1)- and -alpha(2)-subunit antibodies revealed that both alpha(1)- and alpha(2)-subunit isoforms underwent phosphorylation on tyrosine residues in response to insulin, although with different time course and magnitude. Thus, we show that insulin-stimulated phosphorylation of Na(+),K(+)-adenosine triphosphatase alpha-subunit occurs via a PKC- and tyrosine kinase-dependent mechanism, whereas high glucose-induced phosphorylation is only PKC-dependent. Phosphorylation of Na(+),K(+)-adenosine triphosphatase alpha-subunits may be involved in regulation of Na(+),K(+)-adenosine triphosphatase activity by insulin or high extracellular glucose in skeletal muscle.
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PMID:Insulin- and glucose-induced phosphorylation of the Na(+),K(+)-adenosine triphosphatase alpha-subunits in rat skeletal muscle. 1145 93

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