Binding of annexin V/placental anticoagulant protein I to platelets. Evidence for phosphatidylserine exposure in the procoagulant response of activated platelets

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.     

Contrasting effects of rabbit and human platelets on chikungunya virus infectivity

Chikungunya virus infectivity was markedly stabilized in the presence of washed suspensions of human platelets but rapidly disappeared in similar preparations of rabbit platelets. Supernatant fluids collected from human platelets had some stabilizing effect on chikungunya virus over a 6-day incubation period at 37 degrees C. Rabbit platelet supernatant fluid had no virus-stabilizing effect, nor did it demonstrate any capacity to inactivate virus as compared to whole rabbit platelet preparations. Thin-section election microscopy demonstrated that chikungunya virus formed an associated with human platelets by becoming entrapped in platelet aggregates; during this process some of the platelets appeared to have undergone degranulation and lysis. Rabbit platelets exposed to chikungunya virus for 24 h demonstrated a considerable amount of platelet degranulation and lysis but virus was not visualized either in association with platelet membranes or within phagocytic vacuoles in the platelet cytoplasm. Human platelets, which appear to be more stable under these incubation conditions, may protect chikungunya virus infectivity from heat inactivation by surrounding viruses with large platelet aggregates whereas rabbit platelets, which appear to be more fragile, do not afford this type of protection. Thus, chikungunya virus in the presence of rabbit platelets may become inactivated by heat or may become bound irreversibly to membranes in such a fashion that infectivity assay and electron microscopy techniques may prove to be too insensitive for detection of virus.     

Correlation of thrombin-induced glycoprotein V hydrolysis and platelet activation

To assess the possibility that hydrolysis of the platelet surface thrombin substrate, glycoprotein V, is a necessary step in thrombin-induced platelet activation, thrombin-catalyzed hydrolysis of glycoprotein V was correlated with thrombin-induced platelet activation. Hydrolysis of tritium-labeled glycoprotein V on washed human platelets was measured by the appearance of a labeled supernatant fragment, and platelet activation was measured as secretion of ATP. Hydrolysis of glycoprotein V was linear with respect to both thrombin concentration and time of incubation. The extent of platelet activation was correlated with the rate of hydrolysis but not with the amount hydrolyzed. Maximum platelet activation could be obtained with thrombin treatments resulting in hydrolysis of as little as 4% of glycoprotein V per min. Glycoprotein V was partially removed from platelets by pretreatment with either platelet calcium-dependent protease or chymotrypsin. The rate of thrombin-catalyzed hydrolysis of the remaining glycoprotein V from these pretreated platelets was as little as 1.5% the rate from control platelets, but there was no impairment of the extent of platelet activation. Thus, these protease-pretreated platelets compared with control platelets showed a different correlation of glycoprotein V hydrolysis with platelet activation. Glycoprotein V was also partially removed by pretreatment of prostacyclin-inhibited platelets with thrombin. After removal of thrombin and prostacyclin, these platelets were desensitized to subsequent activation by thrombin. Incubation of desensitized platelets with nonsaturating levels of thrombin led to less than 25% of the activation seen with control platelets but to a slightly greater hydrolysis of glycoprotein V. Thus, the desensitization to thrombin was not due to loss of ability of the activating thrombin to hydrolyze glycoprotein V. These results do not exclude a role for glycoprotein V as a component of the platelet thrombin receptor, but they indicate that there is no simple relationship between thrombin-induced hydrolysis of glycoprotein V and platelet activation.     

Annexins in the Human Neuroblastoma SH-SY5Y: Demonstration of Relocation of Annexins II and V to Membranes in Response to Elevation of Intracellular Calcium by Membrane Depolarisation and by the Calcium Ionophore A23187

Abstract: The human neuroblastoma SH-SY5Y was found to express annexins I, II, IV, V, and VI by western blot analysis. Calcium-dependent membrane-binding proteins were isolated from SH-SY5Y and analysed by 2-dimensional gel electrophoresis. Proteins with M_r and pl values similar to those of annexins I, II, III, IV, V, and VI were observed. The identity of annexins II and V was confirmed by western blotting. The membrane association of annexins II and V was studied in cells that had been stimulated to release noradrenaline by K⁺ depolarisation or by treatment with the ionophore A23187. Annexins II and V were both found to associate with membranes in a manner that was resistant to elution with EGTA and required Triton X-100 for their solubilisation. Homogenisation of cells in calcium-containing buffers also resulted in the formation of EGTA-resistant membrane-associated annexins II and V. The results demonstrate calcium-dependent relocation of annexins II and V to membranes in intact cells and suggest that these annexins bind in a calcium-dependent manner to non-phospholipid components of SH-SY5Y membranes. Examination of cells by immunofluorescence microscopy demonstrated that annexin II was homogeneously associated with the plasma membrane before treatment with ionophore and relocated to discrete patches of staining after treatment. Annexin V was found by immunofluorescence to be present in the cytoplasm and in the nucleus. Stimulation of the cells produced no change in the cytoplasmic staining pattern but resulted in a partial relocation of nuclear annexin V to the periphery of the nucleus. The results argue for a general role for both annexins in calcium signalling at discrete intracellular locations. The results are not consistent with the specific involvement proposed previously for annexin II in membrane fusion at sites of vesicle exocytosis.     

Collagen-induced exposure of anionic phospholipid in platelets and platelet-derived microparticles.

We have shown recently that the calcium-dependent phospholipid-binding protein annexin V (placental anticoagulant protein I) can be used to study the exposure of anionic phospholipid after platelet activation. In this study we have further examined the mechanism of this process. Collagen-induced exposure of annexin V binding sites correlated directly with increased ability to support activity of the reconstituted prothrombinase complex. The potency of annexin V as an inhibitor of platelet prothrombinase was the same as its Kd for platelets. Prior incubation of platelets with 5'-p-fluorosulfonylbenzoyladenosine or p-chloromercuribenzenesulfonate had no significant effect on annexin V binding. Similarly, inhibition of platelet cyclic endoperoxide synthesis by acetylsalicylic acid or indomethacin did not inhibit annexin V binding. Staurosporine inhibited collagen-induced, but not A23187-induced, annexin V binding. Agents that increase intraplatelet cyclic nucleotides partially inhibited collagen-induced annexin V binding. Thus, collagen-induced exposure of anionic phospholipid appears to depend primarily on increases in intraplatelet free calcium and may be independent of ADP- or endoperoxide-mediated pathways. Binding sites for annexin V on microparticles derived from collagen-stimulated platelets were demonstrated by flow cytometry and gel filtration. In addition, prior incubation of platelets with 100 nM annexin V inhibited factor Va binding to both platelets and platelet-derived microparticles. These results support the concept that the procoagulant effect of platelets and platelet-derived microparticles is mediated by calcium-induced exposure of anionic phospholipids.     

The amyloid precursor protein of Alzheimer's disease is released by human platelets

Western blots of normal human platelets, employing a monoclonal antibody raised against the full-length amyloid precursor protein of Alzheimer's disease (APP695), revealed major bands of 100-110 and 120-130 kDa in both cytosolic, membrane, and released fractions. These species were similar in size to forms seen in brain preparations and in plasma. There was no difference in Western blots of platelet preparations from Alzheimer patients compared with controls. Purified platelet amyloid precursor proteins were sequenced and shown to be amino terminally homogeneous. Immunohistochemistry localized the antigen to the platelet and megakaryocyte and demonstrated weak immunostaining of some lymphocytes. Immunoprecipitation of material released from platelets demonstrated that sedimentable full-length APP with the carboxyl-terminal epitope, and soluble APP lacking the carboxyl-terminal epitope, may exist in the circulation. Western blots and carboxyl-terminal and amino-terminal APP radioimmunoassay of material released by platelets in response to stimulation revealed that platelets release APP during degranulation. The function of platelet APP is yet to be determined, but the present studies suggest a role in regulation of the coagulation cascade or in platelet aggregation.     

Effects of prostacyclin analogue (carbacyclin) on the interaction of platelets with different collagen substrates. Inhibition of cAMP increase by collagens type I, III, and IV

We investigated the effects of a stable prostacyclin analogue, carbacyclin, on the interaction of platelets with collagen substrates differing in their ability to activate platelets: human collagens type I, III, IV and V (CI, CIII, CIV and CV), and commercial calf skin collagen type I (CSC). The total adhesion was measured using 51Cr-labelled platelets, and quantitative morphometry of adherent platelets was performed by scanning electron microscopy (SEM). Carbacyclin in the concentrations inducing a 10-fold rise in platelet cAMP did not affect the adhesion of platelets to weak substrates, CV and CSC, but reduced the adhesion to strong substrates, CIV (by 49%) and CI/CIII (by 78%), which stimulated massive spreading and formation of surface-bound aggregates respectively. Carbacyclin inhibited all morphological manifestations of platelet activation associated with adhesion: conversion of native discoid platelets to spherical ones on CSC; massive spreading on CIV; and aggregate formation on CI/CIII. Massive spreading and aggregation on a weak substrate (CSC) stimulated by arachidonic acid and thrombin was also inhibited by carbacyclin. Under the same concentration of agonists aggregation of platelets was more sensitive to the action of carbacyclin, than spreading. Strong collagen substrates CI, CIII and CIV, but not CV and gelatin, inhibited the carbacyclin-induced rise in platelet cAMP.     

Changes in annexin (lipocortin) content in human amnion and chorion at parturition.

Arachidonic acid is mobilized from fetal membrane phospholipids at parturition leading to increased production of oxytocic prostaglandins which may initiate or maintain myometrial contractions. Phospholipid mobilization requires activation of phospholipase A2 or C, both of which require calcium for activity. The annexins (lipocortins) are a superfamily of proteins which bind to calcium and phospholipids and thereby may alter phospholipase activity through two mechanisms: modulation of intracellular free Ca2+ concentrations or regulation of the accessibility of phospholipids to hydrolyzing enzymes. Using Western immunoblotting with monospecific polyclonal antibodies, annexins I-VI were identified in human amnion and chorion/decidua at term in tissues obtained from patients in labor or not in labor. Each annexin was present in two distinct pools: a pool which only associated with the membrane in the presence of calcium (calcium-dependent pool) and a calcium-independent pool that remained membrane bound in the presence of calcium chelators. Annexin I was present as two species, resolving at 36 kDa and 68 kDa. The total concentration of annexin I in both amnion and chorion/decidua was significantly decreased with labor, while the total concentration of annexin V in chorion significantly increased with labor. The size of individual pools of annexins also changed with labor: the calcium-dependent pool of annexins I and II in both amnion and chorion significantly decreased; the calcium-dependent pool of annexin V increased in chorion; and calcium-independent pools of annexin I in amnion and annexins I, II, and V in chorion significantly decreased with labor. The decrease in total annexin I concentration with labor in amnion reflects a substantial decrease (80-90%) in the pool tightly bound to the membrane in a calcium-independent manner. This striking change distinguishes annexin I as a potential candidate inhibitor which is specifically downregulated at parturition, potentially leading to increased access of phospholipases to substrate phospholipids and increased prostaglandin production at labor.     

Binding of human monomeric type I collagen to platelets

Interaction of platelets with subendothelial collagen is important in primary hemostasis and thrombosis. Although activation of platelets by collagen polymers has been widely investigated, only insufficient data are available concerning the binding of genetically distinct collagen types in their triple helical (monomeric) form to platelets. We report on the binding of 125I-labeled human type I collagen to platelets. The binding assay was performed at 20 degrees C in the presence of arginine in order to prevent polymerization of the collagen monomers. The binding of monomeric 125I-labeled human type I collagen is dose- and time-dependent, saturable and specific, since it is competitively inhibited by unlabeled type I collagen, but not by unlabeled human type V collagen. Scatchard analysis reveals a class of specific high affinity binding sites with a Kd of 2.5 X 10(-8) M. These results suggest that platelets interact with type I collagen through specific binding sites, and that there are various different binding sites on the platelet membrane for the genetically distinct collagen types.     

Effect of intra-aortic balloon counterpulsation on thrombocyte ultrastructure and functional properties

Ultrastructure and function of blood platelets have been examined after intraaortic balloon counterpulsation in 9 dogs. Intraaortic balloons made of "polyurethane" (Experiment I) or "biomer" plastic (Experiment II) were used. An increase in the number of platelet microforms due to the fragmentation of the normal-sized platelets has been noted along with the ultrastructural signs of platelet activation, degranulation and alterations of plasma membrane structure. The above changes were less pronounced in experiment II.     

Platelet C1q receptor interactions with collagen- and C1q-coated surfaces

We recently described specific binding sites for C1q on human blood platelets. Structural similarities between the amino-terminal of C1q and collagen have suggested that receptors for both molecules on platelets might be the same. The present study thus compared the interaction of purified C1q receptors (C1qR) and whole platelets with collagen- and C1q-coated polystyrene surfaces. Surfaces coated with BSA or gelatin served as controls. Purified 125I-labeled C1qR recognized both C1q- and collagen-coated surfaces in a divalent, cation-independent manner. This adhesion was inhibited by polyclonal or monoclonal (II1/D1) anti-C1qR antibodies. Although C1qR adhered preferentially to C1q-coated surfaces, adhesion to bovine and human type I collagen, as well as to human type III and V collagen, was also noted. In parallel studies, 51Cr-labeled platelets bound equally well to collagen- or C1q-coated surfaces, albeit in a magnesium-dependent manner. Partial inhibition of platelet adhesion was observed in the presence of RGDS, despite the inability of RGDS to modify C1qR interaction with C1q or collagen. Moreover, anti C1qR antibodies selectively inhibited platelet adhesion to C1q-coated surfaces, whereas antibodies specific for the GPIa/IIa collagen receptor (6F1) preferentially inhibited platelet collagen interactions. These data support the presence of distinct platelet membrane C1qR, which may cross-react with collagen, and suggest that C1qR are necessary but not sufficient for platelet adhesion to C1q-coated surfaces. Additional divalent cation and/or RGD-sensitive binding sites may participate.     

P2X1-mediated ERK2 activation amplifies the collagen-induced platelet secretion by enhancing myosin light chain kinase activation

The ATP-gated P2X1 ion channel is the only P2X subtype expressed in human platelets. Via transmission electron microscopy, we found that P2X1 mediates fast, reversible platelet shape change, secretory granule centralization, and pseudopodia formation. In washed human platelets, the stable P2X1 agonist alpha,beta-methylene ATP (alpha,beta-meATP) causes rapid, transient (2-5 s), and dose-dependent myosin light chain (MLC) phosphorylation, requiring extracellular Ca2+. Phosphorylation was inhibited by the calmodulin (CaM) inhibitor W-7, but not by the Rho kinase inhibitor HA-1077, i.e. it is exclusively regulated by Ca2+/CaM-dependent MLC kinase. Correspondingly, the P2X1-induced platelet shape change was inhibited by W-7 and by the MLC kinase inhibitor ML-7 but not by HA-1077. W-7, ML-7, the protein kinase C inhibitor GF109203-X, and the Src family kinase inhibitor PP1 inhibited the collagen and convulxin-induced early platelet degranulation, shape change, and subsequent aggregation, indicating a role for Ca2+/CaM and MLC kinase in these glycoprotein VI-related platelet responses. The secreted ATP-mediated P2X1-dependent ERK2 activation induced by low collagen concentrations contributes to MLC kinase activation since P2X1 desensitization or blockade of ERK2 phosphorylation by U0126 strongly attenuated MLC phosphorylation, degranulation, and aggregation. We therefore conclude that at low doses of collagen, glycoprotein VI activation leads to early protein kinase C- and MLC kinase-dependent degranulation. Rapidly released ATP triggers P2X1 -mediated Ca2+ influx, activating ERK2, in turn amplifying platelet secretion by reinforcing the early MLC kinase phosphorylation. Hence, the P2X1-ERK2-MLC axis contributes to collagen-induced platelet activation by enhancing platelet degranulation.     

Macrophage surface expression of annexins I and II in the phagocytosis of apoptotic lymphocytes

When cells undergo apoptosis, or programmed cell death, they expose phosphatidylserine (PS) on their surface. Macrophages that efficiently phagocytose apoptotic cells also express PS on their surface, although at a lower level. The PS exposed on both cells is required for phagocytosis, because uptake is inhibited by masking PS on either cell with annexin V, a PS-binding protein. The inhibition is not additive, suggesting that the exposed PS molecules on the two cells participate in a common process. We asked whether this dual requirement reflects bridging of the target cell and macrophage by bivalent, PS-binding annexins. Monoclonal antibodies (mAbs) against annexins I or II stained a variety of live phagocytes. Apoptotic Jurkat T lymphocytes and human peripheral T lymphocytes, but not apoptotic thymocytes, were stained by anti-annexin I but not II. Phagocytosis of apoptotic targets was inhibited by mAbs to annexins I or II, or by pretreatment of macrophages with the same mAbs. Pretreatment of apoptotic thymocytes had no effect, whereas pretreating Jurkat cells with anti-annexin I or removing annexin I with EGTA was inhibitory. Annexin bridging is vectorial, because annexin is bound to PS molecules on targets but not on macrophages, suggesting annexins serve as both ligand and receptor in promoting phagocytosis.     

Human platelet activation by an alkylacetyl analogue of phosphatidylcholine

The present study has evaluated the influence of semi-synthetic platelet-aggregating factor, (PAF) i.e., alkylacetylglycerophosphocholine, on human platelet morphology, biochemistry and function in order to determine if PAF serves as the corrective factor restoring sensitivity to refractory platelets after treatment with epinephrine. Threshold concentrations of PAF caused irreversible platelet aggregation which could be blocked by agents elevating endogenous levels or cyclic AMP or inhibited by antagonists of platelet prostaglandin synthesis and secretion. PAF did not stimulate platelets through α-adrenergic receptors or receptors for arachidonate, endoperoxides or thromboxanes. 24 h after aspirin ingestion, platelets could be aggregated irreversibly by high concentrations, but not by threshold amounts of PAF, even though they were still insensitive to arachidonate. Another less potent PAF derivative, alkenylacetylglycerophosphocholine, blocked aggregation of 24-h aspirin platelets by PAF, but did not inhibit restoration of arachidonate sensitivity and irreversible aggregation when the samples were treated first with epinephrine. Our findings indicate that threshold amounts of PAF activate human platelets in a physiologic manner and cause irreversible aggregation which is dependent on prostaglandin synthesis and the release reaction. The results do not support the concept that PAF is the mediator of the mechanism of membrane modulation through which epinephrine induces correction of the refractory state in prostaglandin I₂-treated or dissociated platelets, or cells obtained from individuals following aspirin ingestion. Thus, the mechanism of platelet membrane modulation is capable of securing irreversible aggregation of secretion, prostaglandin synthesis or PAF formation.     

Vasopressin elevation of Na+/H+ exchange is inhibited by genistein in human blood platelets.

The regulation of intracellular Na+ and pHi in human blood platelets is known to be controlled by the function of the Na+/H+ exchanger. The phosphorylation state of the Na+/H+ exchanger which determines the exchanger activity in human blood platelets is regulated by the activities of protein kinases and protein phosphatases. Observations in this study indicate that arginine vasopressin (AVP) that interacts with a V1 receptor, activates the Na+/H+ exchange in human blood platelets through a genistein-inhibited mechanism. The AVP-activated Na+/H+ exchange is probably not regulated by protein kinase C (PKC), since this activation is not inhibited by staurosporine. The multiple ways in which platelet Na+/H+ exchange can be modulated may indicate the critical role played by this exchanger in the homeostasis control of pHi in human blood platelets.     

Staphylococcus aureus alpha-toxin attack on human platelets promotes assembly of the prothrombinase complex

alpha-Toxin, the major cytolysin of Staphylococcus aureus, promotes blood coagulation by its attack on human platelets (Bhakdi S., Muhly, M., Mannhardt, U., Hugo, F., Klapettek, K., Mueller-Eckhardt, C., and Roka, L. (1988) J. Exp. Med. 168, 527-542). In the present study we demonstrate that toxin attack on gel-filtered human platelets initiates the assembly of prothrombinase complexes at rates up to 10-fold of controls. Treatment of platelets with 0.1 microgram/ml alpha-toxin resulted in generation of 1.4 units of thrombin/10(8) platelets. A similar rate of thrombin generation was noted when platelets were subjected to three cycles of freezing and thawing. However, the alpha-toxin-induced prothrombinase activity was not due to platelet lysis, since less than 1% of total cellular lactate dehydrogenase was released by this alpha-toxin concentration. Two distinct and dissociable processes contributed to enhanced prothrombinase assembly. First, alpha-toxin promoted the exocytotic release of factor V from alpha-granules, which was accompanied by co-secretion of platelet factor 4. This process was calcium-dependent. Second, toxin-treated platelets exhibited an enhanced capacity to bind external factor V(a), a phenomenon that was not linked to Ca2(+)-dependent factor V secretion. Assembly of prothrombinase complexes via these two mechanisms together accounts for the procoagulant action of S. aureus alpha-toxin.     

Annexins V and XII insert into bilayers at mildly acidic pH and form ion channels

The functional hallmark of annexins is the ability to bind to the surface of phospholipid membranes in a reversible, Ca(2+)-dependent manner. We now report that human annexin V and hydra annexin XII reversibly bound to phospholipid vesicles in the absence of Ca(2+) at low pH; half-maximal vesicle association occurred at pH 5.3 and 5. 8, respectively. The following biochemical data support the hypothesis that these annexins insert into bilayers at mildly acidic pH. First, a photoactivatable reagent (3-trifluoromethyl)-3-(m-[(125)I]iodophenyl)diazirine) which selectively labels proteins exposed to the hydrophobic domain of bilayers reacted with these annexins at pH 5.0 and below but not at neutral pH. Second, in a Triton X-114 partitioning assay, annexins V and XII act as integral membrane proteins at low pH and as hydrophilic proteins at neutral pH; in the presence of phospholipids half-maximal partitioning into detergent occurred at pH approximately 5.0. Finally, annexin V or XII formed single channels in phospholipid bilayers at low pH but not at neutral pH. A model is discussed in which the concentrations of H(+) and Ca(2+) regulate the reversible conversion of three forms of annexins-soluble, peripheral membrane, and transmembrane.     

The action of calcium-dependent protease on platelet surface glycoproteins

The action of exogenous calcium-dependent protease (CDP) on tritium-labeled surface glycoproteins was analyzed by incubation of labeled, washed human platelets with CDP partially purified from human platelets. Labeled glycoproteins were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by fluorography. Incubation of the labeled platelets with the protease led to a loss (calcium-dependent) from the platelets of glycoproteins Ib and V and concomitant appearance in the supernatant solution of glycocalicin (a proteolytic fragment of glycoprotein Ib), glycoprotein V, and other, unidentified glycoproteins. These changes in surface label were accompanied by alterations in three parameters of platelet function. Compared to control platelets, the CDP-treated platelets were activated by thrombin more slowly and showed less saturable and nonsaturable binding of thrombin. The CDP-treated platelets, but not the controls, aggregated on addition of fibrinogen, indicating that treatment with CDP had exposed fibrinogen receptors. The alterations in surface glycoproteins and functional parameters were compared over a 1000-fold range of CDP treatment. The decreased binding of thrombin and the exposure of fibrinogen receptors were correlated with the release of surface glycoproteins to the supernatant solution, but the slow activation by thrombin was observed under conditions where no release of labeled glycoproteins was detected (i.e., brief incubations with low concentrations of CDP). Activation of the endogenous CDP with 2.5 mm calcium chloride plus the ionophore A23187 was accompanied by hydrolysis of actin-binding protein, a known substrate, and release to the supernatant solution of labeled glycocalicin and glycoprotein V plus a faster-migrating glycoprotein not released by exogenous protease. This effect was observed in the presence of leupeptin, which completely inhibited action of exogenous protease, suggesting that platelet calcium-dependent protease may modify the platelet surface in ways that can cause alterations of platelet function.     

Selective degradation of annexins by chaperone-mediated autophagy

Annexins are a family of proteins that bind phospholipids in a calcium-dependent manner. Analysis of the sequences of the different members of the annexin family revealed the presence of a pentapeptide biochemically related to KFERQ in some annexins but not in others. Such sequences have been proposed to be a targeting sequence for chaperone-mediated autophagy, a lysosomal pathway of protein degradation that is activated in confluent cells in response to removal of serum growth factors. We demonstrate that annexins II and VI, which contain KFERQ-like sequences, are degraded more rapidly in response to serum withdrawal, while annexins V and XI, without such sequences, are degraded at the same rate in the presence and absence of serum. Using isolated lysosomes, only the annexins containing KFERQ-like sequences are degraded by chaperone mediated-autophagy. Annexins V and XI could associate with lysosomes but did not enter the lysosomes and were not proteolytic substrates. Furthermore, four annexins containing KFERQ-like sequences, annexins I, II, IV, and VI, are enriched in lysosomes with high chaperone-mediated autophagy activity as expected for substrate proteins. These results provide striking evidence for the importance of KFERQ motifs in substrates of chaperone-mediated autophagy.     

Isolation and quaternary structure of the photosynthetic core of the marine purple sulfur bacterium Chromatium purpuratum

Abstract Porphyromonas gingivalis produces a trypsin-like enzyme, Protease I, which is thought to be an important virulence determinant of the organism in adult periodontal disease. Protease I is transiently inhibited by physiological inhibitors of human thrombin. The aim of the present work was to establish whether Protease I was able to mimic thrombin by activation of the thrombin receptor on human platelets. Protease I caused true platelet activation at concentrations comparable to thrombin as measured by aggregometry, morphology and fluorescence flow cytometric analysis of CD63 expression. The effect was blocked by protease inhibitors but not by anti-thrombin receptor antibodies which, by contrast, blocked platelet activation by thrombin. We conclude that the activation of platelets by P. gingivalis Protease I involves proteolysis, but not scission of the thrombin cleavage site of the thrombin receptor.