Sharda Kumari

Thrombus inducing property of atomically thin graphene oxide sheets

Graphene oxide (GO), the new two-dimensional carbon nanomaterial, is extensively investigated for potential biomedical applications. Thus, it is pertinent to critically evaluate its untoward effects on physiology of tissue systems including blood platelets, the cells responsible for maintenance of hemostasis and thrombus formation. Here we report for the first time that atomically thin GO sheets elicited strong aggregatory response in platelets through activation of Src kinases and release of calcium from intracellular stores. Compounding this, intravenous administration of GO was found to induce extensive pulmonary thromboembolism in mice. Prothrombotic character of GO was dependent on surface charge distribution as reduced GO (RGO) was significantly less effective in aggregating platelets. Our findings raise a concern on putative biomedical applications of GO in the form of diagnostic and therapeutic tools where its prothrombotic property should be carefully investigated.

Intranasal curcumin and its evaluation in murine model of asthma

Curcumin, a phytochemical present in turmeric, rhizome of Curcuma longa, has been shown to have a wide variety of pharmacological activities including anti-inflammatory, anti-allergic and anti-asthmatic properties. Curcumin is known for its low systemic bioavailability and rapid metabolization through oral route and has limited its applications. Over the recent decades, the interest in intranasal delivery as a non-invasive route for drugs has increased as target tissue for drug delivery since nasal mucosa offers numerous benefits. In this study, we evaluated intranasal curcumin following its absorption through nasal mucosa by a sensitive and validated high-performance liquid chromatography (HPLC) method for the determination of intranasal curcumin in mouse blood plasma and lung tissue. Intranasal curcumin has been detected in plasma after 15 min to 3 h at pharmacological dose (5 mg/kg, i.n.), which has shown anti-asthmatic potential by inhibiting bronchoconstriction and inflammatory cell recruitment to the lungs. At considerably lower doses has proved better than standard drug disodium cromoglycate (DSCG 50 mg/kg, i.p.) by affecting inflammatory cell infiltration and histamine release in mouse model of asthma. HPLC detection revealed that curcumin absorption in lungs has started after 30 min following intranasal administration and retained till 3h then declines. Present investigations suggest that intranasal curcumin (5.0 mg/kg, i.n.) has effectively being absorbed and detected in plasma and lungs both and suppressed airway inflammations at lower doses than the earlier doses used for detection (100-200 mg/kg, i.p.) for pharmacological studies (10-20 mg/kg, i.p.) in mouse model of asthma. Present study may prove the possibility of curcumin as complementary medication in the development of nasal drops to prevent airway inflammations and bronchoconstrictions in asthma without any side effect.

Sirtuin Inhibition Induces Apoptosis-like Changes in Platelets and Thrombocytopenia.

Background: The role of sirtuins in regulating platelet aging is largely unexplored. Results: Sirtuin inhibitors induced apoptosis-like changes in blood platelets, associated with a rise in active Bax and a significant drop in platelet count. Conclusion: Sirtuins act as a central player in the determination of platelet aging. Significance: This study refocuses attention on the potential side effect of sirtuin inhibition in delimiting platelet life span and management of thrombosis. Sirtuins are evolutionarily conserved NAD+-dependent acetyl-lysine deacetylases that belong to class III type histone deacetylases. In humans, seven sirtuin isoforms (Sirt1 to Sirt7) have been identified. Sirtinol, a cell-permeable lactone ring derived from naphthol, is a dual Sirt1/Sirt2 inhibitor of low potency, whereas EX-527 is a potent and selective Sirt1 inhibitor. Here we demonstrate that Sirt1, Sirt2, and Sirt3 are expressed in enucleate platelets. Both sirtinol and EX-527 induced apoptosis-like changes in platelets, as revealed by enhanced annexin V binding, reactive oxygen species production, and drop in mitochondrial transmembrane potential. These changes were associated with increased phagocytic clearance of the platelets by macrophages. Expression of acetylated p53 and the conformationally active form of Bax were found to be significantly higher in both sirtinol- and EX-527-treated platelets, implicating the p53-Bax axis in apoptosis induced by sirtuin inhibitors. Administration of either sirtinol or EX-527 in mice led to a reduction in both platelet count and the number of reticulated platelets. Our results, for the first time, implicate sirtuins as a central player in the determination of platelet aging. Because sirtuin inhibitors are being evaluated for their antitumor activity, this study refocuses attention on the potential side effect of sirtuin inhibition in delimiting platelet life span and management of thrombosis.

Nanodiamonds activate blood platelets and induce thromboembolism

AIM Nanodiamonds (NDs) have been evaluated for a wide range of biomedical applications. Thus, thorough investigation of the biocompatibility of NDs has become a research priority. Platelets are highly sensitive and are one of the most abundant cell types found in blood. They have a central role in hemostasis and arterial thrombosis. In this study, we aim to investigate the direct and acute effects of carboxylated NDs on platelet function. METHODS In this study, pro-coagulant parameters such as platelet aggregability, intracellular Ca(2+) flux, mitochondrial transmembrane potential (ΔΨm), generation of reactive oxygen species, surface exposure of phosphatidylserine, electron microscopy, cell viability assay and in vivo thromboembolism were analyzed in great detail. RESULTS Carboxylated NDs evoked significant activation of human platelets. When administered intravenously in mice, NDs were found to induce widespread pulmonary thromboembolism, indicating the remarkable thrombogenic potential of this nanomaterial. CONCLUSION Our findings raise concerns regarding the putative biomedical applications of NDs pertaining to diagnostics and therapeutics, and their toxicity and prothrombotic properties should be critically evaluated.

Melatonin elevates intracellular free calcium in human platelets by inositol 1,4,5-trisphosphate independent mechanism

Several studies have indicated the existence of direct effects of melatonin on platelets. Here we show that, melatonin at high concentration is capable of significantly raising platelet intracellular calcium even in the absence of an agonist. The effect of melatonin on platelets was abolished by luzindole, a melatonin receptor blocker, and rotenone, while it was unaffected by cell‐permeable antagonists of either inositol 1,4,5‐trisphosphate (IP3) receptor, phospholipase C (PLC), or bafilomycin A1, which discharges acidic calcium stores. Melatonin‐induced manganese entry provided evidence for activation of bivalent cation entry. Thus, our data suggest that melatonin evoked the elevation of platelet intracellular calcium through depletion of mitochondrial Ca2+ stores and store‐operated calcium entry (SOCE), while the action was independent of the PLC‐IP3 axis.

Regulation of β-catenin stabilization in human platelets

The Wnt/β-catenin pathway controls developmental processes and homeostasis; however, abnormal activation of this pathway has been linked to several human diseases. Recent reports have demonstrated regulation of platelet function by canonical and non-canonical Wnt signalling. Platelet aggregation plays a crucial role in haemostasis and thrombosis. Here we report for the first time that, induction of sustained aggregation of platelets by a strong agonist in the presence of calcium was associated with nearly complete proteolysis of β-catenin, which was abrogated upon depletion of calcium from platelet suspension. β-catenin cleavage was disallowed in absence of aggregation, thus implicating integrin αIIbβ3 engagement in β-catenin proteolysis. Degradation of β-catenin was blocked partially by inhibitors of either proteasome or calpain and completely when cells were exposed to both the inhibitors. Protein kinase C inhibition, too, abolished β-catenin degradation. Thus activities of proteasome, calpain and protein kinase C regulate stabilization of β-catenin in aggregated human platelets.

Anti-apoptotic role of sonic hedgehog on blood platelets

Sonic hedgehog (Shh) is an essential morphogen involved in vertebrate organogenesis. Perturbation of Hh signaling is associated with pathological consequences like tumor formation and chronic lung fibrosis. Platelets are highly sensitive circulating blood cells responsible for hemostasis, while hyperactivity of these cells lead to morbidities like ischemic heart diseases and stroke. Despite being terminally differentiated cells with life span of 10-12 days, platelets have recently been shown to respond to Wnt ligand, another developmental signal similar to Shh. In this study, we demonstrate that components of Shh signaling, Patched and Gli3, are expressed in human platelets consistent with existence of functional Hedgehog signaling in these cells. Shh had potent inhibitory effect on platelet apoptosis induced by ABT-737 or thrombin through attenuation of caspase-3 activity. The Shh-mediated pathway may thus represent a novel endogenous mechanism for regulating platelet activity and life span.