A case of neonatal lupus erythematosus presenting delayed dilated cardiomyopathy with circulating autoantibody to annexin A6. (41/118)

Patients with neonatal lupus erythematosus (NLE) often have congenital heart block with or without heart failure and are born to mothers who have anti-SS-A and/or anti-SS-B antibodies. NLE has been considered to result from the placental transmission of maternal autoantibodies into the fetal circulation causing myocardial damage. We report a case of NLE with congenital heart block who had undergone pacemaker implantation at the age of 17, and then developed dilated cardiomyopathy (DCM) at the age of 19, which is much later than in most other cases. The patient's mother was positive for anti-SS-A and anti-SS-B antibodies, whereas the patient was negative for both anti-SS-A and anti-SS-B antibodies. There were some autoantibodies against cell surface antigens of cardiac myocytes in the serum from the patient, and annexin A6 was identified as one of the autoantigens. This is the first report demonstrating that annexin A6 is involved in the myocardial injury in patients with NLE. The results indicate that inhibition of annexin A6 function may prevent autoantibody-mediated myocardial injury in at least some cases of DCM.  (+info)

In vitro modeling of matrix vesicle nucleation: synergistic stimulation of mineral formation by annexin A5 and phosphatidylserine. (42/118)

Annexins A5, A2, and A6 (Anx-A5, -A2, and -A6) are quantitatively major proteins of the matrix vesicle nucleational core that is responsible for mineral formation. Anx-A5 significantly activated the induction and propagation of mineral formation when incorporated into synthetic nucleation complexes made of amorphous calcium phosphate (ACP) and Anx-A5 or of phosphatidylserine (PS) plus ACP (PS-CPLX) and Anx-A5. Incorporation of Anx-A5 markedly shortened the induction time, greatly increasing the rate and overall amount of mineral formed when incubated in synthetic cartilage lymph. Constructed by the addition of Ca(2+) to PS, emulsions prepared in an intracellular phosphate buffer matched in ionic composition to the intracellular fluid of growth plate chondrocytes, these biomimetic PS-CPLX nucleators had little nucleational activity. However, incorporation of Anx-A5 transformed them into potent nucleators, with significantly greater activity than those made from ACP without PS. The ability of Anx-A5 to enhance the nucleation and growth of mineral appears to stem from its ability to form two-dimensional crystalline arrays on PS-containing monolayers. However, some stimulatory effect also may result from its ability to exclude Mg(2+) and HCO(-)(3) from nucleation sites. Comparing the various annexins for their ability to activate PS-CPLX nucleation yields the following: avian cartilage Anx-A5 > human placental Anx-A5 > avian liver Anx-A5 > or = avian cartilage Anx-A6 >> cartilage Anx-A2. The stimulatory effect of human placental Anx-A5 and avian cartilage Anx-A6 depended on the presence of PS, since in its absence they either had no effect or actually inhibited the nucleation activity of ACP. Anx-A2 did not significantly enhance mineralization.  (+info)

Annexin A6-induced alterations in cholesterol transport and caveolin export from the Golgi complex. (43/118)

Annexin A6 (AnxA6) belongs to a family of Ca(2+)-dependent membrane-binding proteins and is involved in the regulation of endocytic and exocytic pathways. We previously demonstrated that AnxA6 regulates receptor-mediated endocytosis and lysosomal targeting of low-density lipoproteins and translocates to cholesterol-enriched late endosomes (LE). As cholesterol modulates the membrane binding and the cellular location of AnxA6, but also affects the intracellular distribution of caveolin, we investigated the localization and trafficking of caveolin in AnxA6-expressing cells. Here, we show that cells expressing high levels of AnxA6 are characterized by an accumulation of caveolin-1 (cav-1) in the Golgi complex. This is associated with a sequestration of cholesterol in the LE and lower levels of cholesterol in the Golgi and the plasma membrane, both likely contributing to retention of caveolin in the Golgi apparatus and a reduced number of caveolae at the cell surface. Further strengthening these findings, knock down of AnxA6 and the ectopic expression of the Niemann-Pick C1 protein in AnxA6-overexpressing cells restore the cellular distribution of cav-1 and cholesterol, respectively. In summary, this study demonstrates that elevated expression levels of AnxA6 perturb the intracellular distribution of cholesterol, which indirectly inhibits the exit of caveolin from the Golgi complex.  (+info)

Annexins sense changes in intracellular pH during hypoxia. (44/118)

The pH(i) (intracellular pH) is an important physiological parameter which is altered during hypoxia and ischaemia, pathological conditions accompanied by a dramatic decrease in pH(i). Sensors of pH(i) include ion transport systems which control intracellular Ca2+ gradients and link changes in pH(i) to functions as diverse as proliferation and apoptosis. The annexins are a protein family characterized by Ca2+-dependent interactions with cellular membranes. Additionally, in vitro evidence points to the existence of pH-dependent, Ca(2+)-independent membrane association of several annexins. We show that hypoxia promotes the interaction of the recombinant annexin A2-S100A10 (p11) and annexin A6 with the plasma membrane. We have investigated in vivo the influence of the pH(i) on the membrane association of human annexins A1, A2, A4, A5 and A6 tagged with fluorescent proteins, and characterized this interaction for endogenous annexins present in smooth muscle and HEK (human embryonic kidney)-293 cells biochemically and by immunofluorescence microscopy. Our results show that annexin A6 and the heterotetramer A2-S100A10 (but not annexins A1, A4 and A5) interact independently of Ca2+ with the plasma membrane at pH 6.2 and 6.6. The dimerization of annexin A2 within the annexin A2-S100A10 complex is essential for the pH-dependent membrane interaction at this pH range. The pH-induced membrane binding of annexins A6 and A2-S100A10 might have consequences for their functions as membrane organizers and channel modulators.  (+info)

Annexin A6-induced inhibition of cytoplasmic phospholipase A2 is linked to caveolin-1 export from the Golgi. (45/118)

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Ca(2+)-dependent phospholipid and arachidonic acid binding by the placental annexins VI and IV. (46/118)

Using an assay system in which phospholipids were immobilised on phenyl-Sepharose, we examined the affinities of the placental annexins VI and IV for binding to specific phosphatidylserine, phosphatidylethanolamine and phosphatidylinositol at Ca2+ concentrations of 0.6, 0.4 and 3.5 microM, respectively, compared to values of 4.5, 4.5 and 20 microM Ca2+, respectively for purified annexin IV. These values did not change significantly in the presence of other proteins from the family. Neither annexin VI or IV bound to phosphatidylinositol bisphosphate and phosphatidylcholine, even at millimolar concentrations of Ca2+. However, both proteins bound to arachidonic acid, oleic acid and palmitic acid in a Ca(2+)-dependent manner, using the same assay system. The level of binding for both proteins was significantly increased when mixtures of phosphatidylcholine and arachidonic acid were examined. A dose-dependent inhibition of phospholipase A2 by both annexins VI and IV, at millimolar concentrations of Ca2+ was observed when phosphatidylcholine liposomes were used as a substrate. These results raise questions about the interpretation of experiments in which the release of arachidonic acid is used as a measure of lipase activity, and of the validity of the substrate-depletion model for the inhibition of phospholipases by the annexins.  (+info)

Annexins V and VI: major calcium-dependent atrial secretory granule-binding proteins. (47/118)

Atrial natriuretic peptide is stored by atrial myocytes in secretory granules, known as atrial specific granules, and is released from these granules by exocytosis. We have isolated a group of atrial proteins by affinity chromatography that bind to atrial specific granules in a calcium-dependent manner. The two major proteins isolated (32.5 kd and 67 kd) are calcium-binding proteins and have been identified as annexins V and VI by immunoblotting with specific antisera. The calcium dependence of their binding to atrial specific granules has been characterized in vitro and indicates that this interaction takes place at micromolar levels of calcium. In addition, the group of proteins isolated includes another calcium-binding protein of 20 kd, as well as GTP-binding proteins of 22 to 26 kd. Membrane interactions during exocytosis are presumably mediated by the interaction of specific proteins with the granule membrane. The properties of the proteins described here, and their ability to bind to atrial specific granules in a calcium-dependent manner, make them likely candidates in the search for regulatory proteins mediating atrial natriuretic peptide secretion.  (+info)

Annexin-mediated matrix vesicle calcification in vascular smooth muscle cells. (48/118)

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