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: UNIPROT:P08758 (annexin V)
9,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

EDTA-extractable protein (EEP) is a mixture of major lens membrane proteins with molecular masses ranging from 32 kDa to 40 kDa. These bind to the lens membrane in a Ca2(+)-dependent manner. In the present study we have identified and purified two distinct 32 kDa components of EEP (designated as EEP 32-1 and EEP 32-2) from bovine lens that inhibit phospholipase A2 activity. Both EEP 32-1 and EEP 32-2 bind to phospholipid-containing liposomes and actin filaments in a Ca2(+)-dependent fashion. Immunochemical studies and two-dimensional electrophoreses demonstrate that the two proteins are distinct from one another. Both EEP 32-1 and EEP 32-2 are clearly different from calpactin (lipocortin) or its proteolytic fragments because they did not react with anti-[human placenta calpactin (lipocortin)] antibody. Our results also indicate that EEP 32-1 is very similar to endonexin I and that EEP 32-2 corresponds to endonexin II.
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PMID:Identification of the 32 kDa components of bovine lens EDTA-extractable protein as endonexins I and II. 213 56

Calcium-dependent phospholipid binding and phospholipase A2 inhibitory proteins were isolated from human mononuclear cells. Lipocortins I and II were present whereas lipocortin IV (endonexin I) was not. The other proteins were purified to homogeneity and shown to have molecular masses of 35, 36, 32 and 73 kDa. The 36-kDa and 73-kDa proteins are related, the smaller appears to be part of the larger. The 73-kDa protein is related to the 67-kDa calelectrin and to lipocortin VI; the 32-kDa protein is different from endonexin I but related to chromobindin 7 and to lipocortin V. The 35-kDa protein has been identified by tryptic peptide sequencing as lipocortin III. All these proteins inhibit phospholipase A2 activity in vitro and the three smaller ones inhibit the [3H]arachidonic acid release from prelabelled monocytes induced by the calcium ionophore A23187 in a dose-dependent manner.
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PMID:Identification and characterization of phospholipase A2 inhibitory proteins in human mononuclear cells. 213 36

Vascular anticoagulant alpha (VAC alpha, annexin V) is a member of the family of calcium and phospholipid binding proteins, the annexins. The binding properties of VAC alpha to phospholipid bilayers were studied by ellipsometry. Adsorption was calcium-dependent and completely reversible upon calcium depletion. Half-maximal adsorptions to phospholipid bilayers consisting of 100, 20, 5, and 1% dioleoyl-phosphatidylserine (DOPS) supplemented with dioleoyl-phosphatidylcholine (DOPC) were reached at Ca2+ concentrations of 0.04, 0.22, 1.5, and 8.6 mM. These surfaces all showed the same maximal adsorption of 0.22 +/- 0.01 micrograms of VAC alpha/cm2 (mean +/- S.D.). The adsorption to bilayers containing more than 10% DOPS was independent of VAC alpha concentrations in the range of 0.5-100 nM. Dissociation constants for VAC alpha binding to these surfaces were estimated to be below 2 x 10(-10) M. No adsorption was observed on pure DOPC bilayers at a Ca2+ concentration of 3 mM. The ability to mediate VAC alpha binding to 20% DOPS/80% DOPC bilayers was highly specific for Ca2+. The use of other divalent cations resulted in decreased binding in the order Cd2+ greater than Zn2+ greater than Mn2+ greater than Co2+ greater than Ba2+ greater than Mg2+. Zinc ions had a synergistic effect on Ca2(+)-dependent VAC alpha binding. The Ca2+ concentration needed for half-maximal binding to cardiolipin, dioleoyl-phosphatidylglycerol, DOPS, phosphatidylinositol, phosphatidic acid, dioleoyl-phosphatidylethanolamine, and sphingomyelin increased in that order. Adsorption was independent of the overall surface charge of the phospholipid membrane.
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PMID:Binding of vascular anticoagulant alpha (VAC alpha) to planar phospholipid bilayers. 213 22

The annexins are a novel class of calcium-dependent membrane binding proteins with highly homologous sequences and similar binding characteristics. In order to better define structural parameters of the membrane-bound form, the localization of tryptophan residues in several of these proteins was studied by use of quenchers of their intrinsic fluorescence. Lipocortin I contains a single tryptophan located near its N-terminus, while the single tryptophan in lipocortin V is located in a repeated consensus sequence. Calcium-dependent binding to vesicles composed of 50% egg phosphatidylcholine and 50% bovine brain phosphatidylserine was accompanied by an increase in emission intensity resulting from a relief of internal quenching. The tryptophan fluorescence of bound lipocortin I was nearly unaffected by substituting the quencher 1-palmitoyl-2-(5-doxylstearoyl)-sn-glycero-3-phosphocholine (5-PC) for egg phosphatidylcholine, while that of the lipocortin V tryptophan was quenched significantly. With the quenching doxyl spin-label located deeper in the bilayer at the 12- and 16-positions of the acyl chain, the quenching was progressively weaker, suggesting an interfacial location for the tryptophan of lipocortin V. The same experiments with lipocortin I show almost no quenching in any case, suggesting that this tryptophan near the amino terminus is protected or oriented away from the membrane surface. Data on the bovine liver calelectrins are also presented showing that endonexin also has a tryptophan residue that interacts strongly with phospholipids.
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PMID:Location of tryptophans in membrane-bound annexins. 213 93

Annexins are a structurally related family of Ca2+ binding proteins of undertermined biological function. Annexin I (also called lipocortin 1) is a substrate for the EGF-stimulated tyrosine kinase and is postulated to be involved in mitogenic signal transduction. To investigate further the involvement of lipocortin 1 in cell proliferation, we measured lipocortin 1 levels in normal diploid human foreskin fibroblasts (HFF) to determine whether its expression changed as a function of growth status. For comparison, the expression of annexin V (also called endonexin II) was measured in HFF cells. Endonexin II is a protein with similar Ca2+ and phospholipid binding properties as lipocortin 1, but it is not a substrate for tyrosine kinases. Quiescent HFF cell cultures were induced to proliferate by either subculture to lower cell density, EGF stimulation, or serum stimulation. In all three protocols, proliferating HFF cells contained three- to fourfold higher levels of lipocortin 1 and three- to fourfold lower levels of endonexin II than quiescent HFF cells. In contrast, the expression of annexin II (also called calpactin I) and annexin IV (also called endonexin I) remained relatively unchanged in growing and quiescent HFF cells. Lipocortin 1 synthesis rate was eightfold higher and its turnover rate was 1.5-fold slower in proliferating compared to quiescent HFF cells. Endonexin II synthesis rate remained constant but its turnover rate was 2.2-fold faster in proliferating compared to quiescent HFF cells. In a separate set of experiments, annexin expression levels were measured in cultures of rat PC-12 cells, a pheochromocytoma that ceases proliferation and undergoes reversible differentiation into nondividing neuronlike cells in response to nerve growth factor (NGF). After NGF treatment, PC-12 cells expressed fivefold higher levels of endonexin II and 32-fold higher levels of calpactin 1. Lipocortin 1 and endonexin I were not expressed in PC-12 cells. In summary, lipocortin 1 expression exhibited a positive correlation with cell proliferation in HFF cells. The increased expression of endonexin II in quiescent HFF cells and differentiating PC-12 cells implies that this protein may play a more prominent role in nondividing cells.
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PMID:Expression of annexins as a function of cellular growth state. 214 63

We have established an enzyme immunoassay for placental protein 4 (PP4), by using avidin-biotin binding reaction, and set its normal range below 10.9 ng/ml (mean + 2 sigma). Throughout the menstrual cycle, the serum PP4 profile was similar to that of serum progesterone. In the follicular and ovulatory phase, PP4 remained relatively low, with the mean levels of 1.5 ng/ml and 1.8 ng/ml, respectively. In the luteal phase, the mean level was 3.2 ng/ml. In normal pregnancy, serum PP4 levels were low irrespective of gestational age, with a mean level of 3.0 ng/ml. There was only one case in which the serum PP4 level over 10.9 ng/ml. Mean serum PP4 levels and the frequencies of elevated serum PP4 levels were respectively 6.3 ng/ml and 11% in patients with benign ovarian neoplasms, 4.7 ng/ml and 6% in patients with endometriosis, and 5.5 ng/ml and 18% in patients with uterine myomata. The frequency of raised PP4 levels was 48% and the mean value was 13.3 ng/ml in patients with endometrial carcinoma, and the values were 44% and 13.4 ng/ml respectively in patients with cervical carcinoma. In patients with ovarian malignancy, the respective values were 15% and 7.0 ng/ml. The results did not relate to clinical stages of disease (FIGO), while the frequencies of elevated serum PP4 in patients with uterine carcinoma was over 40% in stage I diseases. Compared with other tumor markers such as carcino-embryonic antigen (CEA), tissue polypeptide antigen (TPA) and cancer antigen 125 (CA125), PP4 seems to be more promising as a marker of endometrial carcinoma.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enzyme immunoassay for placental protein 4 (PP4) and its possible diagnostic significance in patients with genital tract cancer. 214 5

Proteins of the annexin/lipocortin family act as in vitro anticoagulants by binding to anionic phospholipid vesicles. In this study, we investigated whether annexin V (placental anticoagulant protein I) would bind to human platelets. Annexin V bound to unstimulated platelets in a reversible, calcium-dependent reaction with an apparent Kd of 7 nM and 5000-8000 sites/platelet. Additional binding sites could be induced by several platelet agonists in the following order of effectiveness: A23187 greater than collagen + thrombin greater than collagen greater than thrombin. However, neither ADP nor epinephrine induced additional binding sites. Three other proteins of the annexin family (annexins II, III, and IV) competed for annexin V platelets binding sites with the same relative potencies previously observed for binding to phospholipid vesicles. Phospholipid vesicles containing phosphatidylserine completely inhibited binding of annexin V to platelets. Annexin V completely blocked binding of 125I-factor Xa to thrombin-stimulated platelets. These results support the hypothesis that phosphatidylserine exposure occurs during platelet activation and may be necessary for assembly of the prothrombinase complex on platelet membranes.
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PMID:Binding of annexin V/placental anticoagulant protein I to platelets. Evidence for phosphatidylserine exposure in the procoagulant response of activated platelets. 214 74

Human annexin V (PP4), a member of the family of calcium, membrane binding proteins, has been crystallized in the presence of calcium and analysed by crystallography by multiple isomorphic replacement at 3 A and preliminarily refined at 2.5 A resolution. The molecule has dimensions of 64 x 40 x 30 A3 and is folded into four domains of similar structure. Each domain consists of five alpha-helices wound into a right-handed superhelix yielding a globular structure of approximately 18 A diameter. The domains have hydrophobic cores whose amino acid sequences are conserved between the domains and within the annexin family of proteins. The four domains are folded into an almost planar array by tight (hydrophobic) pair-wise packing of domains II and III and I and IV to generate modules (II-III) and (I-IV), respectively. The assembly is symmetric with three parallel approximate diads relating II to III, I to IV and the module (II-III) to (I-IV), respectively. The latter diad marks a channel through the centre of the molecule coated with charged amino acid residues. The protein has structural features of channel forming membrane proteins and a polar surface characteristic of soluble proteins. It is a member of the third class of amphipathic proteins different from soluble and membrane proteins.
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PMID:The crystal and molecular structure of human annexin V, an anticoagulant protein that binds to calcium and membranes. 214 12

The type II cAMP-dependent protein kinase (PKA) is localized to specific subcellular environments through binding of dimeric regulatory subunits (RII) to anchoring proteins. Cytoskeletal localization occurs through RII dimer interaction with the PKA substrate molecule microtubule-associated protein 2 (MAP2). RII alpha deletion mutants and RII alpha/endonexin chimeras retained MAP2 binding activity if they contained the first 79 residues of the molecule. Disruption of RII alpha dimerization always prevented MAP2 interaction because 1) RII delta 1-14 (an amino-terminal deletion mutant lacking residues 1-14) was unable to bind MAP2 or form dimers, and 2) a modified RII alpha monomer including residues 1-14 did not bind MAP2. Chimeric proteins containing the first 30 residues of RII alpha fused to endonexin II formed dimers but did not bind MAP2. This suggested other side-chains between residues 30-79 also participate in MAP2 interaction. Peptide studies indicate additional contact with MAP2 may occur through an acidic region (residues 68-82) close to the RII autoinhibitor domain. Therefore, anchored PKA holoenzyme topology may position the catalytic subunit and MAP2 as to allow its preferential phosphorylation upon kinase activation.
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PMID:Type II regulatory subunit dimerization determines the subcellular localization of the cAMP-dependent protein kinase. 214 85

Crystal structure analysis and refinement at 2.0 A resolution of a rhombohedral crystal form of human annexin V at high calcium concentration revealed a domain motion compared to the previously analysed hexagonal crystal form. Five calcium ions were located on the convex face of the molecule. Three strongly bound calciums are liganded at protruding interhelical loops and Asp or Glu residues in homologous positions in repeats I, II and IV. Five proteinaceous oxygens and one solvent molecule form the coordination polyhedron in each case. The unoccupied seventh site is suggested as the phospholipid headgroup binding site. Two more weakly bound sites were identified by lanthanum labelling. The structural features suggest that annexin V attaches with its convex face to membranes by specific calcium mediated interactions with at least three phospholipids. The adjacent membrane bilayer may thus become locally disordered and permeable to allow calcium inflow through the central polar channel of the molecule.
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PMID:The calcium binding sites in human annexin V by crystal structure analysis at 2.0 A resolution. Implications for membrane binding and calcium channel activity. 214 56


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