Gene/Protein
Disease
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.6.3.1 (
Mg2+-ATPase
)
1,484
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Erythrocyte membrane enzymes and chemical constituents were studied in animals presenting enzootic bovine hematuria (EBH) and in normal animals.
Mg2+-ATPase
, Na+, K+,
Mg2+-ATPase
and ouabain insensitive Na+, K+,
Mg2+-ATPase
activity were decreased significantly in the affected animals.
Cholesterol
:phospholipid and sialic acid:phospholipid ratios also decreased in animals suffering from EBH. No significant changes were found in acetylcholinesterase, sialic acid, sulfhydryl groups and cholesterol in membranes of affected animals.
...
PMID:Erythrocyte membrane alterations in enzootic bovine hematuria. 284 65
Transverse tubule membranes isolated from rabbit skeletal muscle have high levels of a Ca2+- or
Mg2+-ATPase
with Km values for Ca-ATP or Mg-ATP in the 0.2 mM range, but do not display detectable levels of ATPase activity activated by micromolar [Ca2+]. The transverse tubule enzyme is less temperature or pH dependent than the Ca2+-ATPase of sarcoplasmic reticulum and hydrolyzes equally well ATP, ITP, UTP, CTP, and GTP. Of several ionic, non-ionic, and zwitterionic detergents tested, only lysolecithin solubilizes the transverse tubule membrane while preserving ATPase activity. After extraction of about 50% of the transverse tubule proteins by solubilization with lysolecithin most of the ATPase activity remains membrane bound, indicating that the Ca2+- or
Mg2+-ATPase
is an intrinsic membrane enzyme. A second extraction of the remaining transverse tubule proteins with lysolecithin results in solubilization and partial purification of the enzyme. Sedimentation of the Ca2+- or
Mg2+-ATPase
, partially purified by lysolecithin solubilization, through a continuous sucrose gradient devoid of detergent leads to additional purification, with an overall 3- to 5-fold purification factor. The purified enzyme preparation contains two main protein components of molecular weights 107,000 and 30,000.
Cholesterol
, which is highly enriched in the transverse tubule membrane, copurifies with the enzyme. Transverse tubule membrane vesicles also display ATP-dependent calcium transport which is not affected by phosphate or oxalate. The possibility that the Ca2+- or
Mg2+-ATPase
is the enzyme responsible for the Ca2+ transport displayed by isolated transverse tubules is discussed.
...
PMID:Characterization of the Ca2+- or Mg2+-ATPase of transverse tubule membranes isolated from rabbit skeletal muscle. 613 74
A rapid isolation method was developed for plasma membranes from mouse lymphoid cells such as lymph node lymphocytes, thymocytes, radiation-induced thymoma cells and L1210 cells. Lysates of these lymphoid cells were prepared by Dounce homogenization under hypotonic conditions and directly layered on sucrose step density gradients containing 2 mM CaCl2 and 5 mM MgCl2, and centrifuged at 52 000 X g for 1 h. Plasma membrane fractions appeared at the interface between 20 and 42% sucrose in the gradients. The procedure permitted purified membranes from cells to be obtained within 3 h, and the preparations appeared to be uniform by electron microscopy. Specific activities of (Na+ + K+)-ATPase,
Mg2+-ATPase
and 5'-nucleotidase of the isolated plasma membranes were enriched 23- to 61-fold, 12- to 15-fold and 18- to 34-fold, respectively, in comparison with those of the corresponding cell homogenates.
Cholesterol
content of the malignant cell membranes was lower than that of the normal membranes and the molar ratio of cholesterol to phospholipid of the malignant cell membranes was also lower than that of the normal membranes. A decreased plasmalogen content was observed in the malignant plasma membranes, together with a higher percentage of phosphatidylethanolamine and a lower percentage of phosphatidylserine. In the normal cell membranes, thymocytes contained a higher percentage of phosphatidylcholine and a lower percentage of sphingomyelin than those of the lymph node lymphocytes. At all temperature ranges (5 to 40 degrees C) the plasma membranes of the malignant cells had lower microviscosity than those of the normal cells.
...
PMID:Rapid isolation and lipid characterization of plasma membranes from normal and malignant lymphoid cells of mouse. 731 6
Cholesterol
cholelithiasis is one of the most common gastroenterological diseases in Western countries. It is a polygenic disease resulting from disturbed biliary cholesterol homeostasis. Association studies identified six human gallstone candidate genes. Polymorphisms in the genes encoding the apolipoproteins B and E, phospholipid
flippase
( ABCB4), cholesterol ester transfer protein ( CETP), cholesterol-7alpha-hydroxylase ( CYP7A1) and ileal bile acid transporter ( SLC10A2) are correlated with gallstone prevalence. Quantitative Trait Locus (QTL) analysis localises additional unknown gallstone genes in inbred mice. Based on the natural variation of cholesterol gallstone susceptibility among different inbred strains, 5 lithogenic ( Lith) loci have been identified. Hepatobiliary transporters (e. g. bile salt export pump Abcb11) and key proteins of the lipoprotein metabolism (e. g. hepatic lipase Lipc) could be established as creedal candidate genes for Lith loci. The rapid progress of mouse and human genome projects provides the basis for the analysis of orthologous human LITH genes in gallstone patients, which might offer new prospects for individual risk assessment and molecular targets for stone prevention.
...
PMID:[Molecular genetics of cholesterol cholelithiasis: identification of human and murine gallstone genes]. 1205 67
Resistance to a broad spectrum of structurally diverse chemotherapeutic drugs (multidrug resistance; MDR) is a major impediment to the treatment of cancer. One cause of MDR is the expression at the tumor cell surface of P-glycoprotein (Pgp), which functions as an ATP-powered multidrug efflux pump. Since Pgp interacts with its substrates after they partition into the lipid bilayer, changes in membrane physicochemical properties may have substantial effects on its functional activity. Various interactions between cholesterol and Pgp have been suggested, including a role for the protein in transbilayer movement of cholesterol. We have characterized several aspects of Pgp-cholesterol interactions, and found that some of the previously reported effects of cholesterol result from inhibition of Pgp ATPase activity by the cholesterol-extracting reagent, methyl-beta-cyclodextrin. The presence of cholesterol in the bilayer modulated the basal and drug-stimulated ATPase activity of reconstituted Pgp in a modest fashion. Both the ability of drugs to bind to the protein and the drug transport and phospholipid
flippase
functions of Pgp were also affected by cholesterol. The effects of cholesterol on drug binding affinity were unrelated to the size of the compound. Increasing cholesterol content greatly altered the partitioning of hydrophobic drug substrates into the membrane, which may account for some of the observed effects of cholesterol on Pgp-mediated drug transport. Pgp does not appear to mediate the flip-flop of a fluorescent cholesterol analogue across the bilayer.
Cholesterol
likely modulates Pgp function via effects on drug-membrane partitioning and changes in the local lipid environment of the protein.
...
PMID:Interaction of the P-glycoprotein multidrug efflux pump with cholesterol: effects on ATPase activity, drug binding and transport. 1904 91
Membrane proteins that bind and transport lipids face special challenges. Since lipids typically have low water solubility, both accessibility of the substrate to the protein and delivery to the desired destination are problematical. The amphipathic nature of membrane lipids, and their relatively large molecular size, also means that these proteins must possess substrate-binding sites of a different nature than those designed to handle small polar molecules. This review considers two integral proteins whose function is to bind and transfer membrane lipids within or across a membrane. The first protein, MsbA, is a putative lipid
flippase
that is a member of the ATP-binding cassette (ABC) superfamily. The protein is found in the inner (cytoplasmic) membrane (IM) of Gram-negative bacteria such as E. coli, where it is proposed to move lipid A from the inner to the outer membrane (OM) leaflet, an important step in the lipopolysaccharide biosynthetic pathway.
Cholesterol
is a major component of the plasma membrane in eukaryotic cells, where it regulates bilayer fluidity. The other lipid-binding protein discussed here, mammalian NPC1 (Niemann-Pick disease, Type C1), binds cholesterol inside late endosomes/lysosomes (LE/LY) and is involved in its transfer to the cytosol as part of a key intracellular sterol-trafficking pathway. Mutations in NPC1 lead to a devastating neurodegenerative condition, Niemann-Pick Type C disease, which is characterized by massive cholesterol accumulation in LE/LY. The accelerating pace of membrane protein structure determination over the past decade has allowed us a glimpse of how lipid binding and transfer by membrane proteins such as MsbA and NPC1 might be achieved.
...
PMID:Proteins that bind and move lipids: MsbA and NPC1. 2211 98
Cholesterol
and phospholipids serve as structural and functional components of cellular membranes in all eukaryotes. Heterogeneity in cholesterol and phospholipid content both within and between different organelles is an important characteristic of eukaryotic membranes. How this heterogeneity is achieved and orchestrated to maintain proper cellular physiology remains poorly understood. We previously found that overexpression of the Drosophila oxysterol-binding protein (OSBP) leads to sterol accumulation in the Golgi apparatus. Here, we show that Osbp overexpression in a set of neuroendocrine neurons compromises the function of the Golgi apparatus. It impairs trafficking of the neuropeptide bursicon and results in post-eclosion behavior defects characterized by unexpanded wings. We performed a genetic screen to identify modifiers that suppress the unexpanded wing phenotype. A putative phospholipid
flippase
-encoding gene, CG33298, was validated, suggesting that a membrane-asymmetry-directed mechanism balances cholesterol chaos within the Golgi membranes. Since the functional connection between cholesterol metabolism and the activity of phospholipid
flippase
has been implicated in studies in yeast and worms, our findings here support an evolutionarily conserved causal link between cholesterol homeostasis and phospholipid asymmetry that maintains normal cellular physiology.
...
PMID:Membrane phospholipid asymmetry counters the adverse effects of sterol overloading in the Golgi membrane of Drosophila. 2223 59
