Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using intestinal monolayers, we showed that F-actin cytoskeletal stabilization and Ca(2+) normalization contribute to epidermal growth factor (EGF)-mediated protection against oxidant injury. However, the intracellular mediator responsible for these protective effects remains unknown. Since the protein kinase C-beta1 (PKC-beta1) isoform is abundant in our naive (N) cells, we hypothesized that PKC-beta1 is essential to EGF protection. Monolayers of N Caco-2 cells were exposed to H(2)O(2) +/- EGF, PKC, or Ca(2+) modulators. Other cells were transfected to over-express PKC-beta1 or to inhibit its expression and then pretreated with low or high doses of EGF or a PKC activator, OAG (1-oleoyl-2-acetyl-sn-glycerol), before H(2)O(2). In N monolayers exposed to oxidant, pretreatment with EGF or PKC activators activated PKC-beta1, enhanced (45)Ca(2+) efflux, normalized Ca(2+), decreased monomeric G-actin, increased stable F-actin, and protected the cytoarchitecture of the actin. PKC inhibitors prevented these protective effects. Transfected cells stably over-expressing PKC-beta1 (+3.1-fold) but not N cell monolayers were protected from injury by even lower doses of EGF or OAG. EGF or OAG rapidly activated the over-expressed PKC-beta1. Antisense inhibition of PKC-beta1 expression (-90%) prevented all measures of EGF protection. Inhibitors of Ca(2+)-ATPase prevented EGF protection in N cells as well as protective synergism in transfected cells. EGF protects the assembly of the F-actin cytoskeleton in intestinal monolayers against oxidants in large part through the activation of PKC-beta1. EGF normalizes Ca(2+) by enhancing Ca(2+) efflux through PKC-beta1. We have identified novel biologic functions, protection of actin and Ca(2+) homeostasis, among the classical isoforms of PKC.
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PMID:The beta 1 isoform of protein kinase C mediates the protective effects of epidermal growth factor on the dynamic assembly of F-actin cytoskeleton and normalization of calcium homeostasis in human colonic cells. 1202 12

A major system for net transepithelial secretion of a wide range of hydrophobic organic anions (OAs) exists in the proximal renal tubules of almost all vertebrates. This process involves transport into the cells against an electrochemical gradient at the basolateral membrane and movement from the cells into the lumen down an electrochemical gradient. Transport into the cells at the basolateral membrane, which is the dominant, rate-limiting step, is a tertiary active transport process, the final step which involves countertransport of the OA into the cells against its electrochemical gradient in exchange for alpha-ketoglutarate moving out of the cells down its electrochemical gradient. The outwardly directed gradient for alpha-ketoglutarate is maintained by metabolism ( approximately 40%) and by transport into the cells across both the basolateral and luminal membranes by separate sodium-dicarboxylate cotransporters ( approximately 60%). The inwardly directed sodium gradient driving alpha-ketoglutarate uptake is maintained by the basolateral Na(+)-K(+)-ATPase, the primary energy-requiring transport step in the total tertiary process. The basolateral OA/alpha-ketoglutarate exchange process now appears to be physiologically regulated by several factors in mammalian tubules, including peptide hormones (e.g., bradykinin) and the autonomic nervous system acting via protein kinase C (PKC) pathways and epidermal growth factor (EGF) working via the mitogen-activated protein kinase (MAPK) pathway.
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PMID:Renal organic anion transport: a comparative and cellular perspective. 1242 48

Synthetic analogue of the concanamycins, which lacks the hydrogen bond network existing in the concanamycin structure, retains vacuolar-type H(+)-ATPase (V-ATPase) inhibitory activity and induces apoptosis to cancer cells that overexpressing epidermal growth factor receptors (EGFR).
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PMID:Vacuolar-type H(+)-ATPase inhibitory activity of synthetic analogues of the concanamycins: is the hydrogen bond network involving the lactone carbonyl, the hemiacetal hydroxy group, and the C-19 hydroxy group essential for the biological activity of the concanamycins? 1244 68

STAM1 and STAM2, which have been identified as regulators of receptor signaling and trafficking, interact directly with Hrs, which mediates the endocytic sorting of ubiquitinated membrane proteins. The STAM proteins interact with the same coiled-coil domain that is involved in the targeting of Hrs to endosomes. In this work, we show that STAM1 and STAM2, as well as an endocytic regulator protein, Eps15, can be co-immunoprecipitated with Hrs both from membrane and cytosolic fractions and that recombinant Hrs, STAM1/STAM2, and Eps15 form a ternary complex. We find that overexpression of Hrs causes a strong recruitment of STAM2 to endosome membranes. Moreover, STAM2, like Hrs and Eps15, binds ubiquitin, and Hrs, STAM2, and Eps15 colocalize with ubiquitinated proteins in clathrin-containing endosomal microdomains. The localization of Hrs, STAM2, Eps15, and clathrin to endosome membranes is controlled by the AAA ATPase mVps4, which has been implicated in multivesicular body formation. Depletion of cellular Hrs by small interfering RNA results in a strongly reduced recruitment of STAM2 to endosome membranes and an impaired degradation of endocytosed epidermal growth factor receptors. We propose that Hrs, Eps15, and STAM proteins function in a multivalent complex that sorts ubiquitinated proteins into the multivesicular body pathway.
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PMID:STAM and Hrs are subunits of a multivalent ubiquitin-binding complex on early endosomes. 1255 15

Pharmacologically active preparations directed towards modulating muscarinic receptor activity in the eye have been used for over 2000 years when extracts from Atropa belladonna were first applied to enhance eye appearance through pupillary dilation. The first clinically active drugs targeting a specific eye disease were anticholinesterases (e.g. ecothiophate) applied as eye drops to treat glaucoma in the 1960's. However, cataract was soon detected as a relatively frequent side effect and such drugs are now only used to treat glaucoma as a last resort. As muscarinic agonists have been found to reduce intraocular pressure both by decreasing aqueous humour production (through Na,K-ATPase pump inhibition) and increasing outflow (by muscle contraction), it is likely that treatments will be developed that target specific muscarinic subtypes. Recently, it has been shown that the M1 receptor subtype predominates in the lens. It is therefore important that this subtype is not targeted in future ocular therapies so that the side-effect of cataract is avoided. Form-deprived myopia resulting from an increased axial length in the affected eye can be reduced by the application of atropine. This effect has been achieved both in a chick model system and in human clinical trials, and in the former system atropine has been shown to reduce the production of scleral extracellular proteins. Carbachol stimulates tear fluid production through the activation of muscarinic receptors. Interestingly, at least part of the stimulation occurs via epidermal growth factor (EGF) receptors and although the precise signalling mechanisms are not completely understood, it has been shown that calcium mobilisation plays a critical role in both muscarinic and EGF receptor activity. It should be noted that in the four examples described above, the cell types responsible for producing the physiological output are non-neuronal in origin. Therefore cholinergic receptor activation plays diverse roles in the eye and pharmacological intervention based on specific receptor sub-types has potential benefit in a number of ocular problems. However, potential side effects have also recently been identified.
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PMID:Role of the non-neuronal cholinergic system in the eye: a review. 1262 51

Studies on the differential routing of internalized epidermal growth factor receptors (EGFRs) induced by EGF, TGF alpha, and the superagonist EGF-TGF alpha chimera E4T suggested a correlation between receptor recycling and their mitogenic potency. EGFR sorting to lysosomes depends on its kinase domain and its ubiquitination by Cbl proteins. Proteasomes have also been proposed to regulate EGFR degradation, but the underlying mechanism remains obscure. Here we evaluated EGFR activation, Cbl recruitment, EGFR ubiquitination and degradation in response to EGF, TGF alpha, and E4T. We also determined the fate of activated EGFRs and Cbl proteins by using v-ATPase (bafilomycin A1) and proteasome (lactacystin) inhibitors. Our results demonstrate that E4T and TGF alpha provoke decreased Cbl recruitment, EGFR ubiquitination and EGFR degradation compared with EGF. Furthermore, bafilomycin treatment blocks EGFR but not c-Cbl degradation. In contrast, lactacystin treatment blocks EGF-induced c-Cbl degradation but does not block EGFR degradation, even though lactacystin causes a minor delay in EGFR degradation. Surprisingly, even though bafilomycin completely blocks EGFR degradation, it does not prevent EGFR de-ubiquitination upon prolonged EGF stimulation. Strikingly, when combined with bafilomycin, lactacystin treatment stabilizes the ubiquitinated EGFR and prevents its de-ubiquitination. We conclude that the enhanced EGFR recycling that has been observed in HER-14 cells following TGF alpha or E4T stimulation correlates with decreased EGFR ubiquitination and EGFR degradation, and that proteasomal activity is required for de-ubiquitination of the EGFR prior to its lysosomal degradation.
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PMID:Ligand-induced lysosomal epidermal growth factor receptor (EGFR) degradation is preceded by proteasome-dependent EGFR de-ubiquitination. 1282 7

Alix (ALG-2-interacting protein X) is a 95-kDa protein that interacts with an EF-hand type Ca(2+)-binding protein, ALG-2 (apoptosis-linked gene 2), through its C-terminal proline-rich region. In this study, we searched for proteins that interact with human AlixDeltaC (a truncated form not containing the C-terminal region) by using a yeast two-hybrid screen, and we identified two similar human proteins, CHMP4a and CHMP4b (chromatin-modifying protein; charged multivesicular body protein), as novel binding partners of Alix. The interaction of Alix with CHMP4b was confirmed by a glutathione S-transferase pull-down assay and by co-immunoprecipitation experiments. Fluorescence microscopic analysis revealed that CHMP4b transiently expressed in HeLa cells mainly exhibited a punctate distribution in the perinuclear area and co-localized with co-expressed Alix. The distribution of CHMP4b partly overlapped the distributions of early and late endosomal marker proteins, EEA1 (early endosome antigen 1) and Lamp-1 (lysosomal membrane protein-1), respectively. Transient overexpression of CHMP4b induced the accumulation of ubiquitinated proteins as punctate patterns that were partly overlapped with the distribution of CHMP4b and inhibited the disappearance of endocytosed epidermal growth factor. In contrast, stably expressed CHMP4b in HEK293 cells was observed diffusely in the cytoplasm. Transient overexpression of AlixDeltaC in stably CHMP4b-expressing cells, however, induced formation of vesicle-like structures in which CHMP4b and AlixDeltaC were co-localized. SKD1(E235Q), a dominant negative form of the AAA type ATPase SKD1 that plays critical roles in the endocytic pathway, was co-immunoprecipitated with CHMP4b. Furthermore, CHMP4b co-localized with SKD1(E235Q) as punctate patterns in the perinuclear area, and Alix was induced to exhibit dot-like distributions overlapped with SKD1(E235Q) in HeLa cells. These results suggest that CHMP4b and Alix participate in formation of multivesicular bodies by cooperating with SKD1.
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PMID:The ALG-2-interacting protein Alix associates with CHMP4b, a human homologue of yeast Snf7 that is involved in multivesicular body sorting. 1286 Sep 94

Many signaling receptors require covalent modification by ubiquitin for agonist-induced down-regulation via endocytic trafficking to lysosomes, a process that is mediated by a conserved set of endosome-associating proteins also required for vacuolar protein-sorting (VPS) in yeast. The delta opioid receptor (DOR) is a G protein-coupled receptor that can undergo agonist-induced proteolysis via endocytic trafficking to lysosomes but does not require covalent modification by ubiquitin to do so. This raises the question of whether lysosomal down-regulation of this "ubiquitination-independent" GPCR is mediated by a completely distinct biochemical mechanism or if similar VPS machinery is involved. Agonist-induced proteolysis of DOR was significantly inhibited by dominant negative mutant versions of Vps4/Skd1, an AAA-family ATPase required for a late step in lysosomal sorting of ubiquitinated membrane cargo. Furthermore, overexpression and interfering RNA-mediated knockdown indicated that lysosomal trafficking of opioid receptors is also dependent on Hrs, a VPS protein that mediates an early step in lysosomal sorting of ubiquitinated cargo. However, interfering RNA-mediated knockdown of Tsg101, a VPS protein that is essential for an intermediate step of the conserved lysosomal sorting mechanism, did not detectably affect agonist-induced proteolysis of DOR in the same cells in which (ubiquitination-dependent) lysosomal trafficking of epidermal growth factor receptors was clearly inhibited. These results indicate that opioid receptors, despite their ability to undergo efficient agonist-induced trafficking to lysosomes in the absence of covalent modification by ubiquitin, utilize some (Vps4 and Hrs) but perhaps not all (Tsg101) of the VPS machinery required for lysosomal sorting of ubiquitinated membrane cargo.
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PMID:Role of mammalian vacuolar protein-sorting proteins in endocytic trafficking of a non-ubiquitinated G protein-coupled receptor to lysosomes. 1502 11

Tubules may arise during branching morphogenesis through several mechanisms including wrapping, budding, cavitation and cord hollowing. In this report we present evidence that is consistent with renal proximal tubule formation through a process of cord hollowing (a process that requires the concomitant establishment of apicobasal polarity and lumen formation). Pockets of lumen filled with Lucifer Yellow were observed within developing cords of rabbit renal proximal tubule cells in matrigel. The observation of Lucifer Yellow accumulation suggests functional polarization. In the renal proximal tubule Lucifer Yellow is initially transported intracellularly by means of a basolaterally oriented p-aminohippurate transport system, followed by apical secretion into the lumen of the nephron. Consistent with such polarization in developing tubules, Triticum vulgare was observed to bind to the lumenal membranes within pockets of Lucifer Yellow-filled lumens. As this lectin binds apically in the rabbit renal proximal tubule, T. vulgare binding is indicative of the emergence of an apical domain before the formation of a contiguous lumen. Both epidermal growth factor and hepatocyte growth factor stimulated the formation of transporting tubules. The stimulatory effect of both epidermal growth factor and hepatocyte growth factor on tubulogenesis was inhibited by PD98059, a mitogen activated protein kinase kinase inhibitor, rather than by wortmannin, an inhibitor of phosphoinositide 3-kinase. Nevertheless, Lucifer Yellow-filled lumens were observed in tubules that formed in the presence of PD98059 as well as with wortmannin, indicating that these drugs did not prevent the process of cavitation. By contrast, rapamycin, an inhibitor of the mammalian target of rapamycin, prevented the process of cavitation without affecting the frequency of formation of developing cords. Multicellular cysts were observed to form in 8-bromocyclic AMP-treated cultures. As these cysts did not similarly accumulate Lucifer Yellow lumenally, it is very likely that processes other than organic anion accumulation are involved in the process of cystogenesis, including the Na,K-ATPase.
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PMID:Both mitogen activated protein kinase and the mammalian target of rapamycin modulate the development of functional renal proximal tubules in matrigel. 1507 42

Receptor-mediated inhibition of amiloride-sensitive sodium absorption was observed in primary and immortalized murine renal collecting duct cell (mCT12) monolayers. The addition of epidermal growth factor (EGF) to the basolateral bathing solution of polarized monolayers reduced amiloride-sensitive short-circuit current (I(sc)) by 15-25%, whereas the addition of ATP to the apical bathing solution decreased I(sc) by 40-60%. Direct activation of PKC with phorbol 12-myristate 13-acetate (PMA) and mobilization of intracellular calcium with 2,5-di-tert-butyl-hydroquinone (DBHQ) reduced amiloride-sensitive I(sc) in mCT12 monolayers by 46 +/- 4% (n = 8) and 22 +/- 2% (n = 8), respectively. Exposure of mCT12 cells to EGF, ATP, PMA, and DBHQ caused an increase in phosphorylation of p42/p44 (extracellular signal-regulated kinase; ERK1/2). Pretreatment of mCT12 monolayers with an ERK kinase inhibitor (PD-98059; 30 microM) prevented phosphorylation of p42/p44 and significantly reduced EGF, ATP, and PMA-induced inhibition of amiloride-sensitive I(sc). In contrast, pretreatment of monolayers with a PKC inhibitor (bisindolylmaleimide I; GF109203x; 1 microM) almost completely blocked the PMA-induced decrease in I(sc), but did not alter the EGF- or ATP-induced inhibition of I(sc). The DBHQ-mediated decrease in I(sc) was due to inhibition of basolateral Na(+)-K(+)-ATPase, but EGF-, ATP-, and PMA-induced inhibition was most likely due to reduced apical sodium entry (epithelial Na(+) channel activity). The results of these studies demonstrate that acute inhibition of amiloride-sensitive sodium transport by extracelluar ATP and EGF involves ERK1/2 activation and suggests a role for MAP kinase signaling as a negative regulator of electrogenic sodium absorption in epithelia.
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PMID:A role for ERK1/2 in EGF- and ATP-dependent regulation of amiloride-sensitive sodium absorption. 1563 42


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