Trimethylamine-N-oxide is elevated in the acute phase after ischaemic stroke and decreases within the first days.

BACKGROUND AND PURPOSE: Trimethylamine-N-oxide (TMAO) is a biomarker of the gut microbiome and correlates with the risk of cardiovascular diseases. However, conflicting data exist on the specific role of TMAO in ischaemic stroke patients. We aimed to analyze the time course of TMAO levels in stroke patients compared with controls. METHODS: In this prospective, case-control study, patients suffering from ischaemic stroke (onset <24 h) and control patients with less than two cardiovascular risk factors were enrolled. Plasma TMAO levels were analyzed on admission, after 48 h and after 3 months. The primary endpoint was the difference in TMAO levels on admission between stroke patients and controls. RESULTS: A total of 196 patients with ischaemic stroke and 100 controls were included between February 2018 and April 2019. Plasma TMAO levels on admission were significantly higher in stroke patients than in controls [median value 4.09 (2.87-6.49) vs. 3.16 (2.08-5.16) µmol/L, P = 0.001]. There was a significant decrease in TMAO levels in stroke patients after 48 h [median at 48 h, 3.49 (2.30-5.39) µmol/L, P = 0.027]. TMAO levels increased again 3 months after stroke [median 4.23 (2.92-8.13) µmol/L, P = 0.047]. In controls, TMAO levels did not change between admission and after 48 h [median at 48 h, 3.14 (1.63-4.61) µmol/L, P = 0.11]. An inverse correlation between TMAO values and kidney function was found (Spearman rho -0.334, P < 0.001). CONCLUSIONS: Our study emphasizes the importance of the time course of TMAO levels after ischaemic stroke. Future studies should define the time point of TMAO analysis, preferably in the acute phase (<24 h).

Stroke unit admission is associated with better outcome and lower mortality in patients with intracerebral hemorrhage.

BACKGROUND AND PURPOSE: There is no clear consensus among current guidelines on the preferred admission ward [i.e. intensive care unit (ICU) or stroke unit (SU)] for patients with intracerebral hemorrhage. Based on expert opinion, the American Heart Association and European Stroke Organization recommend treatment in neurological/neuroscience ICUs (NICUs) or SUs. The European Stroke Organization guideline states that there are no studies available directly comparing outcomes between ICUs and SUs. METHODS: We performed an observational study comparing outcomes of 10 811 consecutive non-comatose patients with intracerebral hemorrhage according to admission ward [ICUs, SUs and normal wards (NWs)]. Primary outcomes were the modified Rankin Scale score at discharge and intrahospital mortality. An additional analysis compared NICUs with SUs. RESULTS: Treatment outside an SU was associated with higher odds for an unfavorable outcome [ICU vs. SU: odds ratio (OR), 1.27; 95% confidence interval (CI), 1.09-1.46; NW vs. SU: OR, 1.28; 95% CI, 1.08-1.52] and higher odds for intrahospital mortality (ICU vs. SU: OR, 2.11; 95% CI, 1.75-2.55; NW vs. SU: OR, 1.52; 95% CI, 1.23-1.89). A subgroup analysis of severely affected patients treated in dedicated NICUs (vs. SUs) showed that they had a lower risk of a poor outcome (OR, 0.45; 95% CI, 0.26-0.79). CONCLUSIONS: Treatment in SUs was associated with better functional outcome and reduced mortality compared with ICUs and NWs. Our findings support the current guideline recommendations to treat patients with intracerebral hemorrhage in SUs or NICUs and suggest that some patients may further benefit from NICU treatment.

Different scales of Ty1/copia-like retrotransposon proliferation in the genomes of three diploid hybrid sunflower species.

Activation of transposable elements in species' genomes represents an important mechanism of new mutation and of potential rapid change in genome size. Thus, it is increasingly recognized that transposable elements likely have played a significant role in shaping species' evolution. In an earlier report, we showed that the genomes of three sunflower species of ancient hybrid origin have experienced large-scale proliferation events of sequences within the Ty3/gypsy-like superfamily of long terminal repeat (LTR) retrotransposons. In this report, we investigate whether another superfamily of LTR retrotransposon (Ty1/copia-like elements) have experienced similar derepression and proliferation events in the genomes of these sunflower hybrid taxa. We show that Ty1/copia-like elements also have undergone copy number increases following or associated with the origins of these species, although the scale of proliferation is less than that for Ty3/gypsy-like elements. Surveys of sequence heterogeneity of Ty1/copia-like elements in the genomes of the three hybrid and two parental species' genomes reveal that a single sub-lineage of these elements exhibits characteristics of recent amplification, and likely served as the proliferative source lineage. These findings indicate that the genomic and/or environmental conditions associated with the origins of these sunflower hybrid taxa were conducive to derepression of at least two major groups of transposable elements.

Ecological genomics: understanding gene and genome function in the natural environment.

The field of ecological genomics seeks to understand the genetic mechanisms underlying responses of organisms to their natural environments. This is being achieved through the application of functional genomic approaches to identify and characterize genes with ecological and evolutionary relevance. By its very nature, ecological genomics is an interdisciplinary field. In this review, we consider the significance of this new area of study from both an ecological and genomic perspective using examples from the recent literature. We submit that by considering more fully an ecological context, researchers may gain additional insights into the underlying genetic basis of ecologically relevant phenotypic variation. Likewise, genomic approaches are beginning to offer new insights into higher-level biological phenomena that previously occupied the realm of ecological investigation only. We discuss various approaches that are likely to be useful in ecological genomic studies and offer thoughts on where this field is headed in the future.

Gene transfer of heterologous G protein-coupled receptors to cardiomyocytes: differential effects on contractility.

In heart failure, reduced cardiac contractility is accompanied by blunted cAMP responses to beta-adrenergic stimulation. Parathyroid hormone (PTH)-related peptide and arginine vasopressin are released from the myocardium in response to increased wall stress but do not stimulate contractility or adenylyl cyclase at physiological concentrations. To bypass the defective beta-adrenergic signaling cascade, recombinant P1 PTH/PTH-related peptide receptors (rPTH1-Rs) and V(2) vasopressin receptors (rV(2)-Rs), which are normally not expressed in the myocardium and which are both strongly coupled to adenylyl cyclase, and recombinant beta(2)-adrenergic receptors (rbeta(2)-ARs) were overexpressed in cardiomyocytes by viral gene transfer. The capacity of endogenous hormones to increase contractility via the heterologous, recombinant receptors was compared. Whereas V(2)-Rs are uniquely coupled to Gs, PTH1-Rs and beta(2)-ARs are also coupled to other G proteins. Gene transfer of rPTH1-Rs or rbeta(2)-ARs to adult cardiomyocytes resulted in maximally increased basal contractility, which could not be further stimulated by adding receptor agonists. Agonists at rPTH1-Rs induced increased cAMP formation and phospholipase C activity. In contrast, healthy or failing rV(2)-R-expressing cardiomyocytes showed unaltered basal contractility. Their contractility and cAMP formation increased only at agonist exposure, which did not activate phospholipase C. In summary, we found that gene transfer of PTH1-Rs to cardiomyocytes results in constitutive activity of the transgene, as does that of beta(2)-ARS: In the absence of receptor agonists, rPTH1-Rs and rbeta(2)-ARs increase basal contractility, coupling to 2 G proteins simultaneously. In contrast, rV(2)-Rs are uniquely coupled to Gs and are not constitutively active, retaining their property to be activated exclusively on agonist stimulation. Therefore, gene transfer of V(2)-Rs might be more suited to test the effects of cAMP-stimulating receptors in heart failure than that of PTH1-Rs or beta(2)-ARS:

Enhanced cardiac contractility after gene transfer of V2 vasopressin receptors In vivo by ultrasound-guided injection or transcoronary delivery.

BACKGROUND: Systemic levels of arginine vasopressin (AVP) are increased in congestive heart failure, resulting in vasoconstriction and reduced cardiac contractility via V(1) vasopressin receptors. V(2) vasopressin receptors (V2Rs), which promote activation of adenylyl cyclase, are physiologically expressed only in the kidney and are absent in the myocardium. Heterologous expression of V2Rs in the myocardium could result in a positive inotropic effect by using the endogenous high concentrations of AVP in heart failure. METHODS AND RESULTS: We tested gene transfer with a recombinant adenovirus for the human V2R (Ad-V2R) to stimulate contractility of rat or rabbit myocardium in vivo. Ultrasound-guided direct injection or transcoronary delivery of adenovirus in vivo resulted in recombinant receptor expression in the myocardial target area, leading to a substantial increase in [(3)H]AVP binding. In 50% of the cardiomyocytes isolated from the directly injected area, single-cell shortening measurements detected a significant increase in contraction amplitude after exposure to AVP or the V2R-specific desmopressin (DDAVP). Echocardiography of the target myocardial area documented a marked increase in local fractional shortening after systemic administration of DDAVP in V2R-expressing animals but not in control virus-treated hearts. Simultaneous measurement of global contractility (dP/dt(max)) confirmed a positive inotropic effect of DDAVP on left ventricular function in the Ad-V2R-injected animals. CONCLUSIONS: Adenoviral gene transfer of the V2R into the myocardium increases cardiac contractility in vivo. Heterologous expression of cAMP-forming receptors in the myocardium could lead to novel strategies in the therapy of congestive heart failure by bypassing the desensitized beta-adrenergic receptor-signaling cascade.

Characterization and inhibition of beta-adrenergic receptor kinase in intact myocytes.

OBJECTIVES: beta-Adrenergic receptor kinase (beta ARK) phosphorylates and thereby inactivates agonist-occupied beta-adrenergic receptors (beta AR). beta ARK is thought to play an important role in the regulation of cardiac function. Therefore, we studied beta ARK activation and its inhibition in intact smooth muscle cells and in cardiomyoblasts. METHODS AND RESULTS: beta AR agonist-stimulated translocation of beta ARK was monitored by immunofluorescence labelling with specific antibodies and confocal laser scanning microscopy in DDT-MF 2 hamster smooth muscle cells and in H9c2 rat cardiomyoblasts. In unstimulated cells. beta ARK was mainly located in the cytosol. After beta AR agonist stimulation, the beta ARK signal was partially translocated to the membranes. Liposomal gene transfer of the COOH-terminus of beta ARK ('beta ARKmini') as a beta ARK inhibitor led to functional expression of this protein in both cell lines with high efficiency. Western blots with beta ARK antibodies showed a gene concentration-dependent immunoreactivity of the 'beta ARKmini' protein. 'beta ARKmini'-transfected myocytes demonstrated reduced membrane targeting of the beta ARK immuno-fluorescence signal. Additionally, the effect of 'beta ARKmini' on beta AR-induced desensitization of myocytic cAMP accumulation was investigated. In control cells, desensitization with isoproterenol led to a subsequent reduction of beta AR-induced cAMP accumulation. In 'beta ARKmini'-transfected myocytes, this beta AR-induced desensitization was significantly diminished, whereas normal beta AR-induced cAMP accumulation was unaffected. A gene concentration of 2 micrograms 'beta ARKmini' DNA/100,000 cardiomyoblasts, and of 0.7 microgram 'beta ARKmini' DNA/100,000 DDT-MF2 smooth muscle cells led to approximately 5.9- and approximately 5.6-fold overexpressions of 'beta ARKmini' vs. native beta ARK, respectively. These gene doses proved sufficient to attenuate beta-adrenergic desensitization significantly. CONCLUSIONS: (1) beta ARK translocation was evidenced in DDT-MF2 smooth muscle cells and in cardiomyoblasts by confocal laser scanning microscopy. (2) Feasibility of 'beta ARKmini' gene transfer to myocytes was demonstrated, and necessary gene doses for beta ARK inhibition were titered. (3) Overexpression of 'beta ARKmini' functionally interacted with endogenous beta-adrenergic signal transduction, leading to sustained cAMP accumulation after prolonged beta-adrenergic stimulation.

Blocking caspase-activated apoptosis improves contractility in failing myocardium.

Cardiac myocyte apoptosis has been demonstrated in end-stage failing human hearts. The therapeutic utility of blocking apoptosis in congestive heart failure (CHF) has not been elucidated. This study investigated the role of caspase activation in cardiac contractility and sarcomere organization in the development of CHF. In a rabbit model of heart failure obtained by rapid ventricular pacing, we demonstrate, using in vivo transcoronary adenovirus-mediated gene delivery of the potent caspase inhibitor p35, that caspase activation is associated with a reduction in contractile force of failing myocytes by destroying sarcomeric structure. In this animal model gene transfer of p35 prevented the rise in caspase 3 activity and DNA-histone formation. Genetically manipulated hearts expressing p35 had a significant improvement in left ventricular pressure rise (+dp/dt), decreased end-diastolic chamber pressure (LVEDP), and the development of heart failure was delayed. To better understand this benefit, we examined the effects of caspase 3 on cardiomyocyte dysfunction in vitro. Microinjection of activated caspase 3 into the cytoplasm of intact myocytes induced sarcomeric disorganization and reduced contractility of the cells. These results demonstrate a direct impact of caspases on cardiac function and may lead to novel therapeutic strategies via antiapoptotic regimens.

Regional pre- and postsynaptic sympathetic system in the failing human heart--regulation of beta ARK-1.

OBJECTIVES: Regional presynaptic sympathetic innervation varies considerably in the cardiomyopathic human heart, as shown in previous studies in vivo and in vitro. The goal of the present study was to correlate markers of presynaptic sympathetic innervation with local measurement of the postsynaptic beta-adrenergic system in failing human hearts. METHODS AND RESULTS: In nine left ventricular regions of hearts explanted from patients suffering from dilated cardiomyopathy, we measured the density of uptake(1) carriers ([3H]mazindol binding) as a marker of presynaptic function as well as beta-receptor density ([3H]CGP 12177 binding) and beta ARK-1 levels as the pivotal compounds of postsynaptic adrenergic signal transduction. Additionally, a subgroup of the patients was examined in vivo by HED-PET prior to heart transplantation. The density of uptake(1) was related to local hydroxyephedrine (HED) retention (as determined by pre-operative PET, r=0.65), whereas it was inversely correlated to regional beta ARK-1 levels (r=-0.61, P=0.04). In contrast, beta-adrenergic receptor density was not significantly correlated either to uptake(1) density or to local HED retention (r=0.15 and r=0.21). CONCLUSIONS: Regional beta ARK-1 levels rather than beta-adrenergic receptor density were correlated with presynaptic alterations in cardiomyopathic human left ventricles. It can be assumed that in the cardiomyopathic human heart, regional beta-adrenergic desensitization might be determined by differences in local beta ARK levels rather than by changes in beta-receptor density.

Coupling of adenosine receptors to a pertussis toxin-sensitive G protein in the human heart.

The adenosine receptors in myocardial membranes of human explanted hearts were labeled with the radiolabeled ligand [3H]DPCPX (1,3-dipropyl-8-cyclopentylxanthine). Agonist competition curves revealed high- and low-affinity states. The addition of guanylyl imidodiphosphate (Gpp (NH)p) converted all receptors to a low-affinity state. The portion of high-affinity states and the influence of guanine nucleotides were most pronounced at 22 degrees C. Only low-affinity states could be detected in pertussis toxin-treated membranes. It is concluded that adenosine receptors in the human ventricle couple via a G protein sensitive to pertussis-toxin. Alterations of the coupling of adenosine receptors might have a pathophysiological role in dilated cardiomyopathy in which pertussis toxin substrates are increased.

Adenosine A1 receptor gene structure and regulation in normotensive and spontaneously hypertensive rats.

In spontaneously hypertensive rats (SHR), both the response to adenosine and the affinity of adenosine A1 receptors (A1R) are altered. We compared the coding sequences and the mRNA expression levels of A1R in SHR and normotensive Wistar rats (NWTR). Neither the nucleotide sequence nor the mRNA level of A1R are altered in SHR, so that gene mutations or an altered gene regulation of A1R cannot account for alterations in A1R function in SHR.

A1 adenosine receptors and muscarinic cholinoceptors in myocardial ischemia.

UNLABELLED: The regulation of cardiac A1 adenosine receptors and M2 muscarinic cholinoceptors was investigated in ischemic rat hearts. Ischemia was induced in isolated, perfused hearts either by stop (stop-flow) or by reduction (low-flow) of perfusion flow. Receptor densities and affinities were determined by radioligand binding. The mRNA concentrations of the receptors and of control messages were measured by quantitative polymerase chain reactions (PCR). Second messenger coupling of the receptors was evaluated by measuring their inhibition of adenylate cyclase activity. Up to 60 min of stop-flow ischemia and 6 h of low-flow ischemia, cardiac A1 adenosine receptor density and affinity, and adenosine receptor-mediated inhibition of adenylate cyclase, did not change significantly, compared to non-ischemic hearts. Receptor down-regulation, however, could be induced by perfusion with the A1 receptor agonist R-phenyl-isopropyl-adenosine (R-PIA) during normal flow. After 6 h of perfusion with R-PIA (0.1 mumol/l), A1 adenosine receptor density was reduced. Agonist-induced receptor down-regulation was not found after perfusion with R-PIA in low-flow ischemia. The density and the affinity of muscarinic cholinoceptors were not affected during stop-flow ischemia up to 1 h either, whereas the density was down-regulated to 75% of controls (P < 0.05) after 6 h of low-flow ischemia. This intervention also reduced inhibition of adenylate cyclase via muscarinic cholinoceptors. In non-ischemic hearts, perfusion with carbachol (10 mumol/l) suppressed receptor densities to 72% of control values. No significant changes in the concentration of A1 adenosine receptor or M2 cholinoceptor mRNAs occurred during normal flow, stop-flow and low-flow ischemia. Likewise, agonist stimulation with R-PIA or carbachol during normal flow did not change the respective receptor mRNA concentrations significantly. CONCLUSION: Although a down-regulation of A1 adenosine receptor density was demonstrated after receptor agonist perfusion with normal flow, adenosine did not affect the density or functional activity of cardiac A1 adenosine receptors in the ischemic myocardium. In contrast, muscarinic cholinoceptor density and function was down-regulated after prolonged ischemia. The lack of an agonist-induced down-regulation of A1 adenosine receptors in the presence of decreasing activity of m-cholinoceptors suggests a growing importance of the adenosine system in myocardial ischemia.

A1 adenosine receptors expressed in CHO-cells couple to adenylyl cyclase and to phospholipase C.

A1 adenosine receptors are in general coupled to inhibition of adenylyl cyclase, but have more recently been reported to be capable of also activating phospholipase C. The present study was done in order to investigate whether these different effects can be elicited by a single A1 receptor, or whether A1 receptor subtypes have to be invoked. The cDNA of a rat brain A1 adenosine receptor was stably expressed in CHO-cells, resulting in clones with varying receptor densities; a clone expressing 1.9 pmol receptors/mg membrane protein was used for further characterization. The ligand binding properties of the expressed receptors were typical for the rat A1 adenosine receptor. A1 receptor agonists caused a concentration-dependent inhibition of adenylyl cyclase activity in the membranes, with maximal inhibition by 70%. A1 receptor stimulation also caused concentration-dependent stimulation of inositol phosphate generation in these cells, with maximal effects of 300%. Both adenylyl cyclase inhibition and enhancement of inositol phosphate generation were essentially abolished after pretreatment of the cells with pertussis toxin. These results indicate that a single A1 adenosine receptor can couple to two effector pathways, and that both effectors are activated via pertussis toxin sensitive G proteins.

Antagonism of novel inotropic agents at A1 adenosine receptors and m-cholinoceptors in human myocardium.

The effects of the new inotropic agents saterinone, sulmazole, UD-CG 212.Cl and milrinone at A1 adenosine receptors and m-cholinoceptors were evaluated in human myocardium from patients with heart failure. At A1 adenosine receptors, all compounds inhibited 3H-DPCPX-binding to ventricular membrane preparations at micromolar concentrations. As judged from the K1-values, the rank order of potency was saterinone greater than sulmazole greater than UD-CG 212.Cl greater than milrinone. The new inotropic agents also displaced the binding of 3H-QNB at m-cholinoceptors. Except for saterinone, the concentration ranges of mean Ki-values were considerably higher at m-cholinoceptors than at A1 adenosine receptors. The rank order of potency was saterinone greater than sulmazole greater than UD-CG 212.Cl greater than milrinone. Competition of the A1 adenosine receptor agonist R-PIA to 3H-DPCPX-binding showed a biphasic curve with a shallow slope (Hill coefficient nH = 0.63) and revealed two affinity states of the A1 adenosine receptor. In the presence of guanine nucleotides [Gpp(NH)p], the competition curve showed one low affinity class of binding sites and was shifted to the right. In contrast, the competition curves of the new inotropic agents were characterized by a monophasic, steeper slope (mean Hill coefficient nH = 0.98). Guanine nucleotides had no effect. Similar results were obtained with saterinone and carbachol at m-cholinoceptors. Competition with carbachol revealed three affinity states of the m-cholinoceptor, the super-high affinity binding was reversed by Gpp(NH)p. Competition with saterinone revealed one class of binding sites which was not influenced by Gpp(NH)p.(ABSTRACT TRUNCATED AT 250 WORDS)

Influence of alpha- and beta-adrenoceptor antagonists on ventricular fibrillation in ischemic rat hearts.

Although it is generally accepted that adrenergic influences contribute to arrhythmias during myocardial ischemia, it is still a matter of debate whether these arrhythmogenic effects are mediated via alpha- or beta-adrenergic receptors and which particular receptor subtype is involved. Controversial results may be due to ancillary properties of the adrenergic receptor antagonists used to resolve this question. Therefore, we compared the influence of various, structurally different alpha- and beta-adrenoceptor blocking agents on the occurrence of ventricular fibrillation in rat isolated hearts. Regional ischemia was induced by ligature of the left coronary artery and ECG was monitored over 30 min of coronary occlusion. Myocardial ischemia precipitated ventricular fibrillation in a well reproducible manner with an incidence of about 80% in control hearts. Racemic propranolol (0.1-1 micromol/l) concentration-relatedly reduced the incidence of ventricular fibrillation from 71% in controls to 10%, whereas the beta-adrenoceptor blocking agents atenolol (10 micromol/l) and timolol (1 micromol/l) did not influence the occurrence of arrhythmias. Moreover, both stereoisomers of propranolol were equipotent in suppressing ischemia-induced ventricular fibrillation, indicating an action of propranolol independent of its beta-adrenoceptor blocking properties. Unselective antagonism of alpha-adrenoceptors by phentolamine decreased the incidence of ventricular fibrillation from 90% to 58% at 0.1 micromol/l and totally suppressed ventricular fibrillation at 1 micromol/l. The alpha1-selective antagonists prazosin and HEAT concentration-dependently (0.1-10 micromol/l) reduced the incidence of ventricular fibrillation from 83% to 0%, whereas the alpha2-selective antagonist RX 821002 revealed no antiarrhythmic effect. Furthermore, subtype specific antagonism of alpha1A-adrenoceptors by WB 4101 clearly reduced the occurrence of ventricular fibrillation in a concentration-dependent manner (0.01-1 micromol/l) from 66% to 17%. Conversely, CEC, known to block the alpha1B-adrenoceptor subtype, possessed no antifibrillatory effect. In conclusion, the contribution of catecholamines to ischemia-induced arrhythmias in rat isolated heart is primarily mediated via WB 4101-sensitive alpha1-adrenergic activation. Beta- and alpha2-adrenoceptor blockade did not affect ventricular fibrillation in this model. The antifibrillatory action of propranolol was rather due to ancillary properties of this agent.

Novel antiplatelet drugs in clinical development.

The clinical value of antiplatelet compounds strongly depends on the benefit-risk balance between their anti-thrombotic effects and the bleeding risk they incur. This ratio is especially important in the treatment of cerebro-vascular disease. Several novel compounds in clinical development hold promise to improve this benefit-risk ratio.

The recombinant bifunctional protein αCD133-GPVI promotes repair of the infarcted myocardium in mice.

BACKGROUND: Bone-marrow-derived progenitor cells are important in myocardial repair mechanisms following prolonged ischemia. Cell-based therapy of diseased myocardium is limited by a low level of tissue engraftment. OBJECTIVES: The aim of this study was the development of the bifunctional protein αCD133-glycoprotein (GP)VI as an effective treatment for supporting vascular and myocardial repair mechanisms. RESULTS: We have generated and characterized a bifunctional molecule (αCD133-GPVI) that binds both to the subendothelium of the injured microvasculature and to CD133(+) progenitor cells with high affinity. αCD133-GPVI enhances progenitor cell adhesion to extracellular matrix proteins and differentiation into mature endothelial cells. In vivo studies showed that αCD133-GPVI favors adhesion of circulating progenitor cells to the injured vessel wall (intravital microscopy). Also, treatment of mice undergoing experimental myocardial infarction with αCD133-GPVI-labeled progenitor cells reduces infarction size and preserves myocardial function. CONCLUSIONS: The bifunctional trapping protein αCD133-GPVI represents a novel and promising therapeutic option for limiting heart failure of the ischemic myocardium.

Effect of dominant negative SNAP-23 expression on platelet function.

BACKGROUND: The protein SNAP-23 is part of the secretory pathway in platelets. It is, however, not entirely clear to what extent this protein contributes to the secretory function of platelets. Therefore, we overexpressed a dominant negative mutant with a novel technology that allows the creation of intact transgene-expressing platetets. RESULTS: Overexpression of a dominant negative SNAP-23 mutant that inhibited the binding of the native protein to the docking site within the secretory machinery resulted in significant suppression of the agonist-dependent surface recruitment of P-selectin and CD40L. Simultaneously, release from dense granules was clearly suppressed in the presence of this construct. Also agonist-dependent surface expression of fibrinogen receptor markers CD41 and CD61 was reduced, and agonist-triggered aggregation was inhibited. CONCLUSION: The dominant negative inhibition of SNAP-23 resulted in clear effects on platelet functions. The novel method using recombinant culture-derived platelets allowed the rapid clarification of the functional importance of this protein in intact platelets.