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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the binding of fluorescein-labeled annexin V (placental anticoagulant protein I) to small unilamellar phospholipid vesicles at 0.15 M ionic strength as a function of calcium concentration and membrane phosphatidylserine (PS) content. As the mole percentage of PS in the membrane increased from 10 to 50%, the stoichiometry of binding decreased hyperbolically from 1100 mol phospholipid/mol annexin V to a limiting value of 84 mol/mol for measurements made at 1.2 mM CaCl2. Over the same range of PS content, Kd remained approximately constant at 0.036 +/- 0.011 nM. A similar hyperbolic decrease in stoichiometry was observed with vesicles containing 10 or 20% PS when the calcium concentration was increased from 0.4 to 10 mM. Thus, the density of membrane binding sites is strongly dependent on the membrane PS content and calcium concentration. The effect of calcium on annexin V-membrane binding is proposed to be due to the formation of phospholipid-calcium complexes, to which the protein binds, rather than to an allosteric effect of calcium on protein-phospholipid affinity.
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PMID:Phospholipid binding of annexin V: effects of calcium and membrane phosphatidylserine content. 138 11

Surfactant protein D (SP-D), a multimeric calcium-dependent lectin isolated from pulmonary alveolar lavage, has been previously shown to interact reversibly with crude surfactant [Persson et al. (1990) J. Biol. Chem. 265, 5755-5760]. In this study, SP-D is shown to interact reversibly with a preparation of organelles enriched in lamellar bodies, in a manner inhibited by calcium-chelating agents and by competing saccharides. An interaction with an endogenous glycoprotein could not be identified by electrophoresis of surfactant or lamellar body-associated proteins followed by electrotransfer of the separated proteins to nitrocellulose and then probing with radioiodinated SP-D via lectin overlay. Separation of the surfactant or lamellar body lipids on two-dimensional thin-layer chromatography (2D-TLC) followed by probing with radioiodinated SP-D via lectin overlay demonstrated binding to a single lipid. This interaction was dependent on the presence of calcium and was inhibited by competing saccharides. By assaying column fractions for the ability to bind radioiodinated SP-D after TLC, the glycolipid was purified to homogeneity and identified as phosphatidylinositol (PI). Identification was confirmed by mass spectrometry. We further demonstrate the ability of radiolabeled SP-D to bind to PI presented in a lipid bilayer through separation of free SP-D from liposome-bound SP-D on density gradients of Percoll. The interaction of SP-D with PI is dependent on calcium and inhibited by competing saccharides. SP-D binds with similar efficiency to liposomes with mole fractions of PI ranging from 2.5% to 30%, thereby demonstrating the lectin's ability to recognize mole fractions of PI available in surfactant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The major glycolipid recognized by SP-D in surfactant is phosphatidylinositol. 145 14

Rat skeletal muscle calpastatin form is markedly modified in its inhibitory properties by means of a reverse reaction which involves both phosphorylation and dephosphorylation. Dephospho-calpastatin shows greater inhibitory efficiency versus mu-calpain, whereas phospho-calpastatin shows maximal inhibition versus m-calpain. Both forms are present in fresh rat muscle. Phosphorylation has been reproduced "in vitro" using a homologous Ca2+ independent protein kinase and found to result in the incorporation of approximately one mole of 32P per mole of protein. Dephosphorylation was induced by treatment with alkaline phosphatase and 32P release shown found to correlate with modifications of the inhibitory properties. This reversible covalent modification of calpastatin is considered an important advancement in the understanding of how different calpain isoforms can be more efficiently controlled by a single inhibitor isozyme form.
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PMID:Modulation of inhibitory efficiency of rat skeletal muscle calpastatin by phosphorylation. 153 Jun 32

X-ray diffraction and equilibrium binding techniques were used to study the effect of cholesterol on membrane binding of the charged 1,4-dihydropyridine (DHP) Ca2+ channel antagonist amlodipine and uncharged isradipine, nimodipine, and nitrendipine. Increases in membrane cholesterol content resulted in a marked decrease in DHP binding to cardiac phospholipid membranes, as expressed by the equilibrium partition coefficient (Kp[mem]). Between a 0:1 and 0.3:1 cholesterol to phospholipid mole ratio, the Kp(mem) values for isradipine, nimodipine, and nitrendipine decreased by greater than 50%, whereas that for amlodipine decreased by only 10%. Electron density profiles calculated from the X-ray diffraction data showed that the time-averaged locations for the DHPs and cholesterol in the membrane overlap, leading to the conclusion that the addition of cholesterol alters the lipid bilayer hydrocarbon core structure in a manner that makes drug partitioning into the membrane less energetically favorable. These data support the idea that drug interactions with the anisotropic membrane environment are complex and may be greatly influenced by cholesterol composition. This effect of cholesterol was also observed for phenylalkylamine (verapamil) and benzothiazepine (diltiazem) Ca2+ channel blockers. The DHP amlodipine had the highest membrane partition coefficient (Kp[mem] greater than 10(4) and the slowest rate of dissociation and was affected least by membrane cholesterol content. The combination of electrostatic and hydrophobic bonding between amlodipine and membrane phospholipid may explain the high affinity of this drug for the membrane bilayer with normal and elevated cholesterol. The results of this study show that cholesterol content differentially affects the membrane-binding properties of the charged DHP amlodipine, compared with other Ca2+ channel blockers. These data help explain the biological distribution of these drugs and the distinct pharmacokinetics of amlodipine versus other Ca2+ channel blockers.
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PMID:Cholesterol alters the binding of Ca2+ channel blockers to the membrane lipid bilayer. 153 93

Rat brain was found, by immunoblot analysis, to have a protein of Mr 23,000 (P23k) that was clearly different from recoverin and was labeled with an antiserum raised against the NH2-terminus of recoverin. P23k could not be detected by an antiserum raised against the COOH-terminus of recoverin. Blots with 45Ca demonstrated that P23k bound Ca2+. This calciprotein was further purified by Ca(2+)-dependent hydrophobic interaction and ion-exchange chromatography. In SDS polyacrylamide gel electrophoresis, P23k had an apparent Mr of 21,000 in the presence of 10 microM Ca2+ and 23,000 in the absence of Ca2+ (0.1 mM EGTA). The isoelectric point of P23k was 5.6. Ca(2+)-binding analysis indicated that P23k bound 2 moles of Ca2+ per mole of protein and had two binding sites with dissociation constants of 13 microM and 0.2 microM. Purified P23k bound to the crude membrane fractions from the cerebellum, cerebrum and retina in a Ca(2+)-dependent manner. Partial amino acid sequence analysis of proteolytic fragments of P23k revealed the sequence homology between P23k and recoverin. These results suggested that P23k may act as a Ca(2+)-sensitive regulator by forming a complex with its target on the membrane.
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PMID:Isolation and characterization of recoverin-like Ca(2+)-binding protein from rat brain. 154 95

Carbazole- and indole-labeled phospholipids have been used to monitor the homo- or heterogeneity of lipid mixing in several types of lipid bilayers combining a brominated and a nonbrominated lipid with varying amounts of cholesterol. Experimental quenching curves (relating the normalized probe fluorescence intensity to the mole fraction of brominated lipid) show a characteristic smooth, monophasic form for homogeneous liquid-crystalline lipid mixtures. However, for mixtures exhibiting lipid lateral segregation, such curves show marked perturbations in form over the region of composition where segregation occurs. Using this approach, it is found that high mole fractions of cholesterol (40-50 mol %) promote the formation of apparently homogeneous solutions in mixtures of disaturated and monounsaturated phosphatidylcholines (PCs) that exhibit extensive thermotropic phase separations in the absence of sterol. At only slightly lower levels of cholesterol, however, these systems exhibit inhomogeneous lipid mixing over a wide range of relative proportions of the two PC components. Mixtures of cerebroside and monounsaturated PCs, even at high bilayer cholesterol contents, exhibit significant inhomogeneity in lipid mixing over a wide range of cerebroside/PC ratios. Phase-separating PC/PC and PC/cerebroside mixtures can readily form long-lived metastable solutions when the level of the higher-melting component in the liquid-crystalline phase exceeds its equilibrium solubility by as much as 20-30 mol %; this tendency is significantly increased by cholesterol. Cholesterol shows no significant ability to enhance lipid intermixing in a third type of phase-separating lipid system, combining a monounsaturated PC with a monounsaturated phosphatidic acid--calcium complex. Experiments using cleavable phospholipid conjugates, linking a fluorescent lipid to a brominated lipid, suggest that each fluorescent molecule probes a local lipid domain comprising approximately less than 40-50 nearby acyl chains.
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PMID:Cholesterol modulation of lipid intermixing in phospholipid and glycosphingolipid mixtures. Evaluation using fluorescent lipid probes and brominated lipid quenchers. 155 21

The kinetics of hydrolysis of 1-palmitoyl-2-arachidonyl-sn-glycero-3-phosphocholine vesicles catalyzed by the high molecular weight phospholipase A2 from rat kidney show an anomalous behavior. The reaction progress lasts for several minutes and then stops after only 5-10% of the available substrate has been hydrolyzed. Addition of more enzyme but not more substrate leads to a new round of hydrolysis. Although this initially suggested that the enzyme becomes inactivated during the turnover, such a conclusion could not be substantiated. Addition of buffer containing 0.15 M NaCl and bovine serum albumin to the reaction after the progress ceased leads to the re-initiation of the lipolysis. The enzyme is not strongly inhibited by the reaction products. Although the enzyme does not bind irreversibly to vesicles composed of pure 1-palmitoyl-2-arachidonyl-sn-glycero-3-phosphocholine, it does become irreversibly trapped on vesicles that contain a critical mole percentage of reaction products. This trapping is the most likely explanation for the cessation of the reaction progress. Both the binding of enzyme to 1,2-dipalmitoyl-sn-glycero-3-phosphocholine vesicles and the hydrolysis of 1-stearoyl-2-[3H]arachidonyl-sn-glycerophosphocholine contained in these vesicles require the presence of products. Furthermore, the trapping of enzyme is independent of catalytic turnover. The trapping is sensitive to the structure of the fatty acid present in the vesicles and requires the presence of divalent metals (either Ca2+, Sr2+, Ba2+, or Mg2+). Since the concentrations of the metals needed for the enzymatic activity correlate with the amounts needed to promote the trapping, it is suggested that the role of the metal is only to promote the interfacial binding of the enzyme.
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PMID:Kinetic analysis of a high molecular weight phospholipase A2 from rat kidney: divalent metal-dependent trapping of enzyme on product-containing vesicles. 156 37

Severin is a Ca(2+)-activated actin-binding protein that nucleates actin assembly and severs and caps the fast growing ends of actin filaments. It consists of three highly conserved domains. To investigate the domain structure of severin, we constructed genetically the N-terminal domain 1, the middle domain 2, and the tandem domains 2 + 3. Their interaction with actin, Ca2+, and lipids was characterized. Domain 1 contains the F-actin capping and a Ca(2+)-binding site [Eichinger, L., Noegel, A. A., & Schleicher, M. (1991) J. Cell Biol. 112, 665-676]. Binding of domain 2 to actin filaments was Ca(2+)-dependent and saturated at a 1:1 molar ratio. In the presence of Ca2+, about 1.5 mol of domains 2 + 3 bound per mole of F-actin subunit. Scatchard analysis gave a Kd of 18 microM for the interaction of domain 2 with F-actin subunits and a Kd of 1.6 microM for domains 2 + 3. Low-shear viscometry, electron microscopy, and low-speed sedimentation assays showed that domains 2 + 3 induced bundling of actin filaments. The influence of PIP2 micelles on the different activities of severin was assayed using native severin and N- and C-terminally truncated fragments. Severin contains at least two PIP2-binding sites since the activities of the two nonoverlapping severin fragments domain 1 and domains 2 + 3 were inhibited by PIP2. The specificity of severin-phospholipid interaction was investigated by studying the regulation of native severin by PIP2 and other pure or mixed phospholipids.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of actin- and lipid-binding domains in severin, a Ca(2+)-dependent F-actin fragmenting protein. 159 Dec 39

Site-directed mutagenesis was used to probe the structural and functional roles of two highly conserved residues, Tyr-52 and Tyr-73, in interfacial catalysis by bovine pancreatic phospholipase A2 (PLA2, overproduced in Escherichia coli). According to crystal structures, the side chains of these two active site residues form H-bonds with the carboxylate of the catalytic residue Asp-99. Replacement of either or both Tyr residues by Phe resulted in only very small changes in catalytic rates, which suggests that the hydrogen bonds are not essential for catalysis by PLA2. Substitution of either Tyr residue by nonaromatic amino acids resulted in substantial decreases in the apparent kcat toward 1,2-dioctanoyl-sn-glycero-3-phosphocholine (DC8PC) micelles and the v(o) (turnover number at maximal substrate concentration, i.e., mole fraction = 1) toward 1,2-dimyristoyl-sn-glycero-3-phosphomethanol (DC14PM) vesicles in scooting mode kinetics [Berg, O. G., Yu, B.-Z., Rogers, J., & Jain, M. K. (1991) Biochemistry 30, 7283-7297]. The Y52V mutant was further analyzed in detail by scooting mode kinetics: the E to E* equilibrium was examined by fluorescence; the dissociation constants of E*S, E*P, and E*I (KS*, KP*, and KI*, respectively) in the presence of Ca2+ were measured by protection of histidine-48 modification and by difference UV spectroscopy; the Michaelis constant KM* was calculated from initial rates of hydrolysis in the absence and presence of competitive inhibitors; and the turnover number under saturating conditions (kcat, which is a theoretical value since the enzyme may not be saturated at the interface) was calculated from the vo and KM* values. The results indicated little perturbation in the interfacial binding step (E to E*) but ca. 10-fold increases in KS*, KP*, KI*, and KM* and a less than 10-fold decrease in kcat. Such changes in the function of Y52V are not due to global conformational changes since the proton NMR properties of Y52V closely resemble those of wild-type PLA2; instead, it is likely to be caused by perturbed enzyme-substrate interactions at the active site. Tyr-73 appears to play an important structural role. The conformational stability of all Tyr-73 mutants decreased by 4-5 kcal/mol relative to that of the wild-type PLA2. The proton NMR properties of Y73A suggested significant conformational changes and substantially increased conformational flexibility. These detailed structural and functional analyses represent a major advancement in the structure-function study of an enzyme involved in interfacial catalysis.
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PMID:Phospholipase A2 engineering. Structural and functional roles of highly conserved active site residues tyrosine-52 and tyrosine-73. 163 53

The Damara mole-rat (Cryptomys damarensis) leads a strictly subterranean existence in an extensive maze of plugged burrows and eats a strictly herbivorous diet. An obvious source of vitamin D3 (D3), an important hormone in mineral homeostasis, therefore is lacking in this mammal. The effects of orally ingested D3 on mineral balance were investigated. In the normal D' status group of mole-rats, the apparent fractional intestinal absorption of calcium (91.1%), magnesium (91.2%), and inorganic phosphorous (91.2%) was high and increased slightly, (calcium, 94.5%; magnesium, 93.2%; inorganic phosphorous, 92.9%) after D3 administration. The amount of element absorbed was positively correlated with the amount ingested (P less than 0.001), suggesting that absorption occurs via a nonsaturable process. This might be an adaptation to the sparseness of natural food. The observed positive retention of calcium (94%), magnesium (85%), and inorganic phosphorous (99.9%) is attributed to their evergrowing teeth. These teeth are constantly worn down during digging and it is speculated that they represent a mineral "sink," assisting in the maintenance of mineral homeostasis. It is also hypothesized that mole-rats have adapted to an environment devoid of D3 and can attain sufficient calcium for their needs via nonvitamin D3-dependent processes. Although mole-rats have the "machinery" to use D3 and D3 can affect mineral balance, this effect may be disadvantageous if invoked.
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PMID:Is vitamin D3 essential for mineral metabolism in the Damara mole-rat (Cryptomys damarensis)? 164 51


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