Hydrogen peroxide release from human blood platelets

The release of hydrogen peroxide from human blood platelets after stimulation with particulate membrane-perturbing agents has been determined by fluorescence using scopoletin as the detecting agent. Platelet suspensions containing less than 1 polymorphonuclear leukocyte/10⁸ platelets showed a significant release of hydrogen peroxide (6.11 nmol/10⁹ platelets per 20 min, S.D., 0.26, n=9) after addition of zymosan or latex particles, compared to unstimulated platelets. The release of hydrogen peroxide was only observed when the scopoletin was added to the platelet suspensions during the stimulation. Any attempt to determine hydrogen peroxide release in the supernatant at the end of the incubation with zymosan or latex failed. A NADH-dependent production of hydrogen peroxide was observed by measuring the difference of oxygen uptake in the presence and absence of catalase (500 units), which was not inhibited by potassium cyanide (1 mM). By this method the NADH-dependent cyanide-insensitive peroxide production and release was 6.0 nmol/10⁹ platelets per 20 min from resting platelets (S.D., 2, n=6) vs. 15 nmol/10⁹ platelets per 20 min from stimulated platelets (S.D., 2, n=6).     

Calmodulin and acidic compounds alter basic protein phosphorylation by the protein kinase from human platelets

A cyclic nucleotide-independent protein kinase of human platelets, which phosphorylated histones, myelin basic protein and protamine and did not catalyze the phosphorylation of acidic proteins such as casein, phosvitin and myosin light chain, has been purified approx. 1,500-fold from the crude extract by steps of DEAE-cellulose, Sephadex G-200, hydroxylapatite and phosphoryl cellulose column chromatography. The substrate phosphorylation by this kinase was markedly enhanced by calmodulin even in the absence of Ca²⁺, when mixed histone was used as a substrate. The interaction of the kinase with mixed histone resulted in an irreversible inactivation of the enzyme. Calmodulin prevented this inactivation, and this compound produced an apparent increase in histone phosphorylation by the kinase. It should be noted that acidic polypeptides such as troponin-C, phospholipids and nucleic acids have a similar ability. The addition of Ca²⁺ reduced the effect of calmodulin more than the effects of other acidic compounds.     

Calmodulin antagonists elevate the levels of 32P-labeled polyphosphoinositides in human platelets

The calmodulin antagonists trifluoperazine, chlorpromazine, perphenazine, promazine, tamoxifen and the naphthalene sulfonamide derivatives W7 and W13 increased the level of 32P-incorporation into human platelet PIP and PIP2. Various drugs with poor anti-calmodulin activity were ineffective. The increase in 32P-PIP and 32P-PIP2 required micromolar concentrations of trifluoperazine and was time-dependent, reaching half-maximal within two minutes of the addition of the drug. These results indicate that the calmodulin antagonists perturb polyphosphoinositide metabolism, probably at the level of the PI- and PIP-kinases and/or the PIP2- and PIP-phosphomonoesterases.     

Possible role of calmodulin in the control of histamine release from human basophil leukocytes

We investigated the possible role of calmodulin (CaM) in the control of histamine release from human basophil leukocytes using several CaM antagonists. Trifluoperazine (TFP) (10(-6)-2 X 10(-5) M), pimozide (10(-6)-1.5 X 10(-5) M), chlorpromazine (CPZ) (10(-5)-10(-4) M) and promethazine (PMZ) (2 X 10(-5)-10(-4) M) inhibited in vitro histamine secretion from human basophils induced by several immunological (antigen, anti-IgE, and formyl-L-methionyl-L-leucyl-L-phenylalanine: f-met peptide) and nonimmunological (Ca2+ ionophore A23187 and the tumor promoter 12-0-tetradecanoyl-phorbol-13-acetate: TPA) stimuli. Trifluoperazine sulfoxide (TFP-S) and chlorpromazine sulfoxide (CPZ-S), which have very low affinity to CaM, had practically no inhibitory effect on histamine release from human basophils. The inhibitory effect of TFP could be made irreversible by irradiating the cells with UV light. A sulfonamide derivative, the compound N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7) (2.5 X 10(-5)-2 X 10(-4) M), which selectively binds to CaM, inhibited the release of histamine from basophils. In contrast, the chloride deficient analogue, W-5, which interacts only weakly with CaM, had practically no inhibiting effect. The IC50 for enzyme release by a series of eight CaM antagonists was closely correlated (r = 0.91; p less than 0.001) with the CaM specific binding, supporting the concept that these agents act by binding to CaM and thereby inhibiting histamine release. TFP and W-7 inhibited histamine release in the absence and in the presence of increasing concentrations of extracellular Ca2+. These results emphasize the possible role of CaM in the control of histamine secretion from human basophils.     

Calmodulin regulation and identification of calmodulin binding region of type-3 ryanodine receptor calcium release channel

Ryanodine receptors (RyRs) are a family of intracellular Ca(2+) channels that are regulated by calmodulin (CaM). At low Ca(2+) concentrations (<1 microM), CaM activates RyR1 and RyR3 and inhibits RyR2. At elevated Ca(2+) concentrations (>1 microM), CaM inhibits all three RyR isoforms. Here we report that the regulation of recombinant RyR3 by CaM is sensitive to redox regulation. RyR3 in the presence of reduced glutathione binds CaM with 10-15-fold higher affinity, at low and high Ca(2+) concentrations, compared to in the presence of oxidized glutathione. However, compared to RyR1 assayed at low Ca(2+) concentrations under both reducing and oxidizing conditions, CaM binds RyR3 with reduced affinity but activates RyR3 to a greater extent. Under reducing conditions, RyR1 and RyR3 activities are inhibited with a similar affinity at [Ca(2+)] > 1 microM. Mutagenesis studies demonstrate that RyR3 contains a single conserved CaM binding site. Corresponding amino acid substitutions in the CaM binding site differentially affect CaM binding and CaM regulation of RyR3 and those of the two other isoforms. The results support the suggestion that other isoform dependent regions have a major role in the regulation of RyRs by CaM [Yamaguchi et al. (2004) J. Biol. Chem. 279, 36433-36439].     

Synergistic functions of phorbol ester and calcium in serotonin release from human platelets

In human platelets, thrombin activates Ca2+-activated, phospholipid-dependent protein kinase (protein kinase C) and mobilizes Ca2+ concomitantly, whereas 12-O-tetradecanoylphorbol-13-acetate (TPA) may be intercalated into membranes and directly activates protein kinase C without mobilization of Ca2+ in sufficient quantities. A series of experiments with TPA and Ca2+-ionophore (A23187) indicates that activation of protein kinase C is a prerequisite requirement for release of serotonin, and that this enzyme activation and Ca2+ mobilization act synergistically to elicit a full cellular response. Both cyclic AMP and cyclic GMP inhibit activation of protein kinase C by prohibiting the signal-dependent breakdown of inositol phospholipid to produce diacyl-glycerol, but none of these cyclic nucleotides prevents the TPA-induced activation of this enzyme.     

Calmodulin and calmodulin binding proteins in amphibian rod outer segments

The calmodulin (CaM) content of fully intact frog rod outer segments (ROS) has been measured. The molar ratio between rhodopsin and total CaM in ROS is 800:1. This is in good agreement with the data reported for bovine ROS CaM [Kohnken, R. E., Chafouleas, J. G., Eadie, D. M., Means, A. R., & McConnell, D.G. (1981) J. Biol. Chem. 256, 12517-12522]. In the absence of Ca2+, the ROS membrane fraction contains only 4% of total ROS CaM. In contrast, in the presence of Ca2+, 15% of total ROS CaM is found in the membrane fraction. For half-maximal binding of CaM to CaM-depleted ROS membranes, 3 X 10(-7) M Ca2+ is required. This CaM binding is inhibited by trifluoperazine. CaM binding proteins in the ROS membrane fraction are identified by using two different methods: the overlay method and the use of 3,3'-dithiobis(sulfosuccinimidyl propionate) (DTSSP), a bifunctional cross-linking reagent. Ca2+-dependent CaM binding proteins with apparent molecular weights of 240,000, 140,000, 53,000, and 47,000 are detected in the ROS membrane fraction by the overlay method. Anomalous, Ca2+-independent CaM binding to rhodopsin is also detected with this method, and this CaM binding is inhibited by the presence of Ca2+. With the bifunctional cross-linking reagent, DTSSP, three discrete proteins with molecular weights of 240,000, 53,000, and 47,000 are detected in the native ROS membrane fraction. CaM binding to rhodopsin is not detected with this method. Moreover, while the Mr 140,000 band is not detected with DTSSP, a smeared band with a molecular weight between 78,000 and 93,000 is identified (with DTSSP) in the ROS membrane fraction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Calmodulin binds RalA and RalB and is required for the thrombin-induced activation of Ral in human platelets

Ral GTPases may be involved in calcium/calmodulin-mediated intracellular signaling pathways. RalA and RalB are activated by calcium, and RalA binds calmodulin in vitro. It was examined whether RalA can bind calmodulin in vivo, whether RalB can bind calmodulin, and whether calmodulin is functionally involved in Ral activation. Yeast two-hybrid analyses demonstrated both Rals interact directly but differentially with calmodulin. Coimmunoprecipitation experiments determined that calmodulin and RalB form complexes in human platelets. In vitro pull-down experiments in platelets and in vitro binding assays showed endogenous Ral and calmodulin interact in a calcium-dependent manner. Truncated Ral constructs determined in vitro and in vivo that RalA has an additional calmodulin binding domain to that previously described, that although RalB binds calmodulin, its C-terminal region is involved in partially inhibiting this interaction, and that in vitro RalA and RalB have an N-terminal calcium-independent and a C-terminal calcium-dependent calmodulin binding domain. Functionally, in vitro Ral-GTP pull-down experiments determined that calmodulin is required for the thrombin-induced activation of Ral in human platelets. We propose that differential binding of calmodulin by RalA and RalB underlies possible functional differences between the two proteins and that calmodulin is involved in the regulation of the activation of Ral-GTPases.     

Amplification of specific gene products from human serum

The polymerase chain reaction (PCR) is an in vitro method for the primer-directed enzymatic amplification of specific DNA sequences. Ordinarily, sources with obvious DNA content such as cells, viruses, and plasmids serve as the origin of templates for the PCR. Here we report a simple and efficient method to obtain cellular DNA from serum suitable for use in PCR reactions or gene analysis. This procedure should facilitate the detection of disease and provide a basis for the examination of mutations in genes before the onset as well as during the progression of various diseases.     

A role for intracellular calcium and calmodulin in the release of triiodothyronine from human thyroid-cell monolayer cultures

Human thyroid cells in monolayer responded to acute stimulation by TSH with an increase in the secretion of T₃. This process appeared to be dependent on a rise in the cytosolic calcium concentration since the antagonist of intraceliular calcium mobilization, TMB-8, was found to inhibit the release of T₃ in response to TSH. The importance of intracellular calcium was further shown using the agent veratridine which increases the free calcium level within cells; veratridine potentiated the stimulation of T₃ secretion by TSH and itself stimulated the release of T₃ to a level higher than that seen in the presence of TSH alone. The calcium ionophore A23197 produced a biphasic effect on T₃ secretion from human thyroid monolayers; at low concentrations, A23187 caused a decrease in both unstimulated and TSH-stimulated T₃ secretion but above a concentration of 1 M, T₃ secretion was increased. The calmodulin antagonist W7 was found to inhibit T₃ release in response to TSH, indicating a role for calmodulin in mediating the effects of intracellular calcium on T₃ secretion.     

Purification and characterization of membrane-bound phospholipase C specific for phosphoinositides from human platelets

Two peaks (mPLC-I and mPLC-II) of phosphatidylinositol 4,5-bisphosphate (PIP2)-hydrolyzing activity were resolved when 1% sodium cholate extract from particulate fractions of human platelet was chromatographed on a heparin-Sepharose column. The major peak of enzyme activity (mPLC-II) was purified to homogeneity by a combination of Fast Q-Sepharose, heparin-Sepharose, Ultrogel AcA-44, Mono Q, Superose 6-12 combination column, and Superose 12 column chromatographies. The specific activity increased 2,700-fold as compared with that of the starting particulate fraction. The purified mPLC-II had an estimated molecular weight of 61,000 on sodium dodecyl sulfate-polyacrylamide gels. The minor peak of enzyme activity (mPLC-I) was partially purified to 430-fold. Both enzymes hydrolyzed PIP2 at low Ca2+ concentration (0.1-10 microM) and exhibited higher Vmax for PIP2 than for phosphatidylinositol. PIP2-hydrolyzing activities of both enzymes were enhanced by various detergents and lipids, such as deoxycholate, cholate, phosphatidylethanolamine, and dimyristoylphosphatidylcholine. The mPLC-I and mPLC-II activities were increased by Ca2+, but not by Mg2+, while Hg2+, Fe2+, Cu2+, and La3+ were inhibitory. GTP-binding proteins (Gi, Go, and Ki-ras protein) had no significant effects on the mPLC-II activity.     

Basophil histamine release induced by a substance from stimulated human platelets

Platelet activation may occur during immunoglobulin E antibody (IgE)-mediated reactions. In these studies, we confirm that platelet-derived supernatants (PDS) induce histamine release from human mixed leukocytes containing basophils, one of the initial target cells in IgE-mediated reactions. In extending this observation, we have shown that this PDS-induced histamine release is both temperature- and calcium-dependent. Kinetic studies of release induced by PDS indicate that release is more rapid than that associated with IgE-dependent mechanisms. This platelet-derived, histamine-releasing activity is produced by platelet stimulation with collagen (5 micrograms/ml) and acetylglyceryl ether phosphorylcholine (10(-7)), as well as thrombin (1 U/ml). Initial characterization has shown that it is stable to acid and to freeze-thawing but not to boiling for 10 min. In addition, although this histamine-releasing activity is nondialyzable (i.e., greater than 3500 m.w.), it cannot be attributed to platelet factor 4. Thus, platelets, once activated, can produce a soluble substance or substances which can initiate basophil-mediated reactions, further suggesting that platelet activation can enhance allergic and inflammatory reactions.     

Efficient and specific removal of albumin from human serum samples

Patient serum or plasma is frequently monitored for biochemical markers of disease or physiological status. Many of the rapidly evolving technologies of proteome analysis are being used to find additional clinically informative protein markers. The unusually high abundance of albumin in serum can interfere with the resolution and sensitivity of many proteome profiling techniques. We have used monoclonal antibodies against human serum albumin (HSA) to develop an immunoaffinity resin that is effective in the removal of both full-length HSA and many of the HSA fragments present in serum. This resin shows markedly better performance than dye-based resins in terms of both the efficiency and specificity of albumin removal. Immunoglobulins are another class of highly abundant serum protein. When protein G resin is used together with our immunoaffinity resin, Ig proteins and HSA can be removed in a single step. This strategy could be extended to the removal of any protein for which specific antibodies or affinity reagents are available.     

Bovine fibrinogen-induced 14C-serotonin and other compounds release from human blood platelets.

Bovine fibrinogen can aggregate human blood platelets by a direct mechanism (first wave) and also indirectly by releasing endogenous ADP (second wave). A primarily non-altered surface structure of the thrombocytes is important for the induction of the first wave. Under certain conditions a second aggregation wave, concomitant with the release and the availability reaction is elicited. Besides the cell's contact, the presence of ADP and calcium ions are necessary for the induction of the release reaction in human platelet rich plasma. The changes induced by bovine fibrinogen thus follows the same pattern as the irreversible phase of aggregation, linked to release as induced by ADP.     

Presence of calmodulin in human platelet cytoskeletons and its concentration change upon activation of platelets

We found that a small, reproducible amount of calmodulin is present in the cytoskeleton of human platelets. Triton-insoluble materials (cytoskeletons), which were prepared by cetrifugation at 1000 × g for 10 min of platelets after lysis by Triton X-100, stimulated cyclic AMP phosphodiesterase activity in the presence of Ca²⁺ but not in the presence of the calcium chelator, EGTA, or the calmodulin antagonist, trifluoperazine. The activation of the enzyme was also obtained after heating Triton-insoluble materials. An alkaline glycerol polyacrylamide gel electrophoresis of fractions obtained after gel fitration of solubilized Triton residues showed a protein band which had a faster electrophoretic mobility in the absence than in the presence of Ca²⁺. Upon thrombin activation of platelets, calmodulin in the Triton-insoluble cytoskeletons increased rapidly parallel to actin, actin-binding protein and myosin. With other stimulants such as collagen, epinephrine and ADP, similar results were obtained but with slower association of these proteins with cytoskeletons. However, after treatment with the Ca²⁺-inophore A23187, calmodulin, actin and actin-binding protein in Triton residues decreased rapidly, whereas the association of myosin increased. Thus, calmodulin seems to be associated with actin filaments rather than myosin filaments, and may be involved in the generation of contractile force in the cell.     

Inositol 1,4,5-trisphosphate induces aggregation and release of 5-hydroxytryptamine from saponin-permeabilized human platelets

Inositol 1,4,5-trisphosphate induces aggregation and the release of [3H]5-hydroxytryptamine from human platelets rendered permeable with saponin. This action of inositol 1,4,5-trisphosphate is associated with a significant formation of thromboxane B2, activation of phospholipase C, and phosphorylation of 20,000- and 40,000-dalton proteins, which are the substrates for myosin light chain kinase and protein kinase C, respectively. All of these responses are blocked by the cyclooxygenase inhibitors indomethacin and aspirin and the dual cyclooxygenase and lipoxygenase inhibitor 3-amino-1-[m-(trifluoromethyl)phenyl]-2-pyrazoline (BW 755C). These data indicate that platelet activation by inositol 1,4,5-trisphosphate is initiated by the mobilization of Ca2+, which leads to phospholipase A2 activation. The thromboxanes and endoperoxides that are subsequently generated then induce activation via cell surface receptors.     

Calmodulin regulates the non-amyloidogenic metabolism of amyloid precursor protein in platelets

A balance between the proteolytic processing of amyloid precursor protein APP through the amyloidogenic and the non-amyloidogenic pathways controls the production and release of amyloid β-protein, whose accumulation in the brain is associated to the onset of Alzheimer Disease. APP is also expressed on circulating platelets. The regulation of APP processing in these cells is poorly understood. In this work we show that platelets store considerable amounts of APP fragments, including sAPPα, that can be released upon stimulation of platelets. Moreover, platelet stimulation also promotes the proteolysis of intact APP expressed on the cell surface. This process is supported by an ADAM metalloproteinase, and causes the release of sAPPα. Processing of intact platelet APP is promoted also by treatment with calmodulin antagonist W7. W7-induced APP proteolysis occurs through the non-amyloidogenic pathway, is mediated by a metalloproteinase, and causes the release of sAPPα. Co-immunoprecipitation and pull-down experiments revealed a physical association between calmodulin and APP. These results document a novel role of calmodulin in the regulation of non-amyloidogenic processing of APP.     

Calmodulin in interferon preparations: effect of interferon on calmodulin bioactivity

Heat-stable calmodulin immunoreactivity and bioactivity were detected in crude preparations of various types of human, murine and chicken interferons (IFNs). Calmodulin containing HuIFN-alpha was retained on a trifluorophenothiazine-Sepharose column. The two activities were separated by serial elutions with 50 microM Ca2+ (HuIFN-alpha) followed by 2 mM EGTA (calmodulin). While maintaining its full antiviral activity, calmodulin free HuIFN-alpha inhibited enhancement of Ca2+-ATPase activity in vitro by authentic purified eukaryote calmodulin. These results indicate that IFNs are calmodulin-binding proteins and that the secretion of both IFNs and calmodulin occurs from IFN-induced cells.     

Calmodulin antagonist W-7 inhibits aggregation of human platelets induced by platelet activating factor

Experiments were done to test the hypothesis that aggregation of human platelets induced by platelet activating factor (PAF) may be mediated by calmodulin-dependent processes. W-7 [N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide], a potent calmodulin antagonist, caused dose-dependent inhibition of PAF induced aggregation of human platelets in vitro. The ED50 for W-7 was 51.5 +/- 9.5 microM (mean +/- SEM). This concentration is known to be platelet calmodulin-specific. These data are consistent with the hypothesis.