David J Pinsky

Publications (67)433.54 Total impact

• Article: Myeloid mineralocorticoid receptor during experimental ischemic stroke: effects of model and sex.

  Ryan A Frieler, Jessica J Ray, He Meng, Sai P Ramnarayanan, Michael G Usher, Enming J Su, Stefan Berger, David J Pinsky, Daniel A Lawrence, Michael M Wang, Richard M Mortensen
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  ABSTRACT: Mineralocorticoid receptor (MR) antagonists have protective effects in the brain during experimental ischemic stroke, and we have previously demonstrated a key role for myeloid MR during stroke pathogenesis. In this study, we explore both model- and sex-specific actions of myeloid MR during ischemic stroke. The MR antagonist eplerenone significantly reduced the infarct size in male (control, 99.5 mm(3); eplerenone, 74.2 mm(3); n=8 to 12 per group) but not female (control, 84.0 mm(3); eplerenone, 83.7 mm(3); n=6 to 7 per group) mice after transient (90-minute) middle cerebral artery occlusion. In contrast to MR antagonism, genetic ablation of myeloid MR in female mice significantly reduced infarct size (myeloid MR knockout, 9.4 mm(3) [5.4 to 36.6]; control, 66.0 mm(3) [50.0 to 81.4]; n=6 per group) after transient middle cerebral artery occlusion. This was accompanied by reductions in inflammatory gene expression and improvement in neurological function. In contrast to ischemia-reperfusion, myeloid MR-knockout mice were not protected from permanent middle cerebral artery occlusion. The infarct size and inflammatory response after permanent occlusion showed no evidence of protection by myeloid MR knockout in photothrombotic and intraluminal filament models of permanent occlusion. These studies demonstrate that MR antagonism is protective in male but not female mice during transient middle cerebral artery occlusion, whereas genetic ablation of myeloid MR is protective in both male and female mice. They also highlight important mechanistic differences in the role of myeloid cells in different models of stroke and confirm that specific myeloid phenotypes play key roles in stroke protection.
  Journal of the American Heart Association. 10/2012; 1(5):e002584.
• Article: TLR signaling prevents hyperoxia-induced lung injury by protecting the alveolar epithelium from oxidant-mediated death.

  Megan N Ballinger, Michael W Newstead, Xianying Zeng, Urvashi Bhan, Jeffrey C Horowitz, Bethany B Moore, David J Pinsky, Richard A Flavell, Theodore J Standiford
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  ABSTRACT: Mechanical ventilation using high oxygen tensions is often necessary to treat patients with respiratory failure. Recently, TLRs were identified as regulators of noninfectious oxidative lung injury. IRAK-M is an inhibitor of MyD88-dependent TLR signaling. Exposure of mice deficient in IRAK-M (IRAK-M(-/-)) to 95% oxygen resulted in reduced mortality compared with wild-type mice and occurred in association with decreased alveolar permeability and cell death. Using a bone marrow chimera model, we determined that IRAK-M's effects were mediated by structural cells rather than bone marrow-derived cells. We confirmed the expression of IRAK-M in alveolar epithelial cells (AECs) and showed that hyperoxia can induce the expression of this protein. In addition, IRAK-M(-/-) AECs exposed to hyperoxia experienced a decrease in cell death. IRAK-M may potentiate hyperoxic injury by suppression of key antioxidant pathways, because lungs and AECs isolated from IRAK-M(-/-) mice have increased expression/activity of heme oxygenase-1, a phase II antioxidant, and NF (erythroid-derived)-related factor-2, a transcription factor that initiates antioxidant generation. Treatment of IRAK-M(-/-) mice in vivo and IRAK-M(-/-) AECs in vitro with the heme oxygenase-1 inhibitor, tin protoporphyrin, substantially decreased survival and significantly reduced the number of live cells after hyperoxia exposure. Collectively, our data suggest that IRAK-M inhibits the induction of antioxidants essential for protecting the lungs against cell death, resulting in enhanced susceptibility to hyperoxic lung injury.
  The Journal of Immunology 06/2012; 189(1):356-64. · 5.79 Impact Factor
• Article: Preclinical Evaluation of Postischemic Dehydroascorbic Acid Administration in a Large-Animal Stroke Model

  Andrew F. Ducruet, William J. Mack, J. Mocco, Daniel J. Hoh, Alexander L. Coon, Anthony L. D’Ambrosio, Christopher J. Winfree, David J. Pinsky, E. Sander Connolly
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  ABSTRACT: Dehydroascorbic acid (DHA), a blood–brain barrier transportable form of ascorbic acid, confers robust neuroprotection following murine stroke. In an effort to translate this promising neuroprotective strategy into human clinical trial, we evaluated postischemic DHA administration in a large-animal stroke model. Thirty-six adult male baboons were initially randomized to undergo transorbital craniectomy to induce transient cerebral artery occlusion and to receive postischemic dosing of either 500mg/kg of DHA or vehicle. Primary outcomes included infarct volume, determined by magnetic resonance imaging, as well as neurological function evaluated on the day of sacrifice. The midpoint interim analysis (n = 9 per cohort) revealed that DHA administration did not significantly improve either infarct volume or neurological function. The study was terminated after a determination of statistical futility. We were unable to confirm a neuroprotective effect for postischemic DHA administration in our large-animal model using a dosing scheme that was previously successful in rodents. Further analysis of the efficacy of DHA administration must thus be undertaken prior to clinical translation. KeywordsAntioxidants–Brain ischemia–Animal models–Neuroprotection–Acute stroke
  05/2012; 2(3):399-403.
• Article: Tissue-resident ecto-5' nucleotidase (CD73) regulates leukocyte trafficking in the ischemic brain.

  Danica Petrovic-Djergovic, Matthew C Hyman, Jessica J Ray, Diane Bouis, Scott H Visovatti, Takanori Hayasaki, David J Pinsky
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  ABSTRACT: Ectoenzymes expressed on the surface of vascular cells and leukocytes modulate the ambient nucleotide milieu. CD73 is an ecto-5' nucleotidase that catalyzes the terminal phosphohydrolysis of AMP and resides in the brain on glial cells, cells of the choroid plexus, and leukocytes. Though CD73 tightens epithelial barriers, its role in the ischemic brain remains undefined. When subjected to photothrombotic arterial occlusion, CD73(-/-) mice exhibited significantly larger (49%) cerebral infarct volumes than wild-type mice, with concordant increases in local accumulation of leukocyte subsets (neutrophils, T lymphocytes, macrophages, and microglia). CD73(-/-) mice were rescued from ischemic neurologic injury by soluble 5'-nucleotidase. In situ, CD73(-/-) macrophages upregulated expression of costimulatory molecules far more than wild-type macrophages, with a sharp increase of the CD80/CD86 ratio. To define the CD73-bearing cells responsible for ischemic cerebroprotection, mice were subjected to irradiative myeloablation, marrow reconstitution, and then stroke following engraftment. Chimeric mice lacking CD73 in tissue had larger cerebral infarct volumes and more tissue leukosequestration than did mice lacking CD73 on circulating cells. These data show a cardinal role for CD73 in suppressing ischemic tissue leukosequestration. This underscores a critical role for CD73 as a modulator of brain inflammation and immune function.
  The Journal of Immunology 03/2012; 188(5):2387-98. · 5.79 Impact Factor
• Source

  Available from: Diane Bouïs

  Article: Increased CD39 nucleotidase activity on microparticles from patients with idiopathic pulmonary arterial hypertension.

  Scott H Visovatti, Matthew C Hyman, Diane Bouis, Richard Neubig, Vallerie V McLaughlin, David J Pinsky
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  ABSTRACT: Idiopathic pulmonary arterial hypertension (IPAH) is a devastating disease characterized by increased pulmonary vascular resistance, smooth muscle and endothelial cell proliferation, perivascular inflammatory infiltrates, and in situ thrombosis. Circulating intravascular ATP, ADP, AMP and adenosine activate purinergic cell signaling pathways and appear to induce many of the same pathologic processes that underlie IPAH. Extracellular dephosphorylation of ATP to ADP and AMP occurs primarily via CD39 (ENTPD1), an ectonucleotidase found on the surface of leukocytes, platelets, and endothelial cells. Microparticles are micron-sized phospholipid vesicles formed from the membranes of platelets and endothelial cells. Objectives: Studies here examine whether CD39 is an important microparticle surface nucleotidase, and whether patients with IPAH have altered microparticle-bound CD39 activity that may contribute to the pathophysiology of the disease. Kinetic parameters, inhibitor blocking experiments, and immunogold labeling with electron microscopy support the role of CD39 as a major nucleotidase on the surface of microparticles. Comparison of microparticle surface CD39 expression and nucleotidase activity in 10 patients with advanced IPAH and 10 healthy controls using flow cytometry and thin layer chromatograph demonstrate the following: 1) circulating platelet (CD39(+)CD31(+)CD42b(+)) and endothelial (CD39(+)CD31(+)CD42b(-)) microparticle subpopulations in patients with IPAH show increased CD39 expression; 2) microparticle ATPase and ADPase activity in patients with IPAH is increased. We demonstrate for the first time increased CD39 expression and function on circulating microparticles in patients with IPAH. Further research is needed to elucidate whether these findings identify an important trigger for the development of the disease, or reflect a physiologic response to IPAH.
  PLoS ONE 01/2012; 7(7):e40829. · 4.09 Impact Factor
• Article: Antioxidant properties of pioglitazone limit nicotinamide adenine dinucleotide phosphate hydrogen oxidase and augment superoxide dismutase activity in cardiac allotransplantation.

  Tomomi Hasegawa, Kenji Okada, Yutaka Okita, David J Pinsky
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  ABSTRACT: Many non-immunologic factors contribute to the development of cardiac allograft vasculopathy (CAV), chief among them being ischemia-reperfusion injury associated with oxidative stress. We hypothesized that pioglitazone, a peroxisome proliferator-activated receptor (PPAR)-γ agonist, could attenuate graft oxidant stress in cardiac transplantation. Experiments were performed using a murine heterotopic cardiac allotransplantation model. Pioglitazone was administered to recipients once daily, beginning 1 day before transplantation. At 4 hours after transplantation, pioglitazone significantly reduced the expression of endothelial cell adhesion receptors and infiltration of polymorphonuclear leukocytes (PMNs). The anti-oxidant balance in pioglitazone-treated cardiac allografts was significantly bolstered by reduced nicotinamide adenine dinucleotide phosphate hydrogen (NADPH) oxidase (Nox1 and p22(phox) sub-units) activity and preservation of manganese superoxide dismutase (SOD) activity, resulting in the mitigation of oxidative damage at the level of lipids, proteins, and DNA. At 7 days after transplantation, PPAR-γ was significantly up-regulated by pioglitazone, but nuclear factor-κB and inducible nitric oxide synthase were significantly down-regulated. A concomitant reduction of inflammatory cytokines and chemokines and graft leukosequestration was noted. Pioglitazone consequently prolonged cardiac allograft survival and attenuated CAV development. In vitro experiments demonstrated that pioglitazone decreased transendothelial PMN migration, NADPH oxidase activity, and loss of SOD activity in PMNs and endothelial cells. Pioglitazone can suppress the oxidative stress and damage and can stimulate antioxidant capacity in cardiac allografts after transplantation. Mitigation of graft oxidant stress could be an important mechanism through which pioglitazone confers benefit after cardiac transplantation.
  The Journal of heart and lung transplantation: the official publication of the International Society for Heart Transplantation 10/2011; 30(10):1186-96. · 3.54 Impact Factor
• Article: Paradoxical exacerbation of neuronal injury in reperfused stroke despite improved blood flow and reduced inflammation in early growth response-1 gene-deleted mice.

  Andrew F Ducruet, Sergey A Sosunov, Scott H Visovatti, Danica Petrovic-Djergovic, William J Mack, E Sander Connolly, David J Pinsky
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  ABSTRACT: Early growth response gene-1 (Egr-1) coordinates the rapid upregulation of diverse inflammatory and coagulation-related genes following ischemia/reperfusion. Genetic deletion of Egr-1 results in attenuated post-ischemic injury in diverse tissue systems. In the present study, we utilized a murine model of transient middle cerebral artery occlusion to probe the functional effects of Egr-1 deletion following cerebral ischemia/reperfusion. The time course of Egr-1 expression was established by Northern/Western blot analysis, and immunocytochemistry localized Egr-1 to specific cell populations. Flow cytometry was then employed to characterize the ischemic cellular infiltrate of both wild-type (+/+) and Egr-1-null (-/-) mice. Next, the functional effect of Egr-1 deletion was investigated in Egr-1-deficient mice and their wild-type littermates subjected to middle cerebral artery occlusion. Infarct volumes, neurological scores, and reperfusion cerebral blood flow were compared between cohorts. Rapid upregulation of Egr-1 was observed in the ischemic hemisphere, and localized primarily to neurons and mononuclear cells. Egr-1 deletion led to a suppression of infiltrating neutrophils and activated microglia/macrophages (P<0.001). Additionally, although Egr-1 deletion enhanced post-ischemic cerebral blood flow, Egr-1-deficient mice suffered larger infarcts (P=0.01) and demonstrated a trend towards worse neurological scores (P=0.06) than wild-type controls. Despite a reduction in the proportion of infiltrating inflammatory cells/activated microglia and improvement in post-ischemic reperfusion, Egr-1-deficient animals suffer larger infarcts in our model. Therefore, cerebral Egr-1 expression may function to protect neurons despite its adverse modulatory consequences for inflammation and thrombosis.
  Neurological Research 09/2011; 33(7):717-25. · 1.52 Impact Factor
• Article: Plasma interleukin-10 levels and adverse outcomes in acute coronary syndrome.

  Erdal Cavusoglu, Jonathan D Marmur, Mohammad R Hojjati, Vineet Chopra, Mitul Butala, Rakesh Subnani, Mohammad S Huda, Sunitha Yanamadala, Cyril Ruwende, Calvin Eng, David J Pinsky
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  ABSTRACT: PURPOSE OR BACKGROUND: Interleukin (IL)-10 is an immunoregulatory cytokine that is produced by a variety of cell types, such as macrophages and activated monocytes. IL-10 possesses numerous anti-inflammatory, anti-thrombotic and anti-atherosclerotic properties. Furthermore, patients with acute coronary syndrome have been demonstrated to have reduced levels of IL-10 compared to their stable counterparts. For these reasons, it has been proposed that IL-10 plays a protective role in both atherogenesis and plaque vulnerability. However, 2 short-term studies on the prognostic utility of IL-10 in patients with acute coronary syndrome have provided conflicting results, with one study showing that reduced levels of IL-10 were predictors of adverse outcomes and another showing that elevated levels predicted poor outcomes. The objective of the present study was to investigate the long-term prognostic significance of baseline IL-10 levels in patients with acute coronary syndrome. Baseline plasma IL-10 levels were measured in 193 well-characterized male patients with acute coronary syndrome who were referred for coronary angiography and followed prospectively for 5 years for the development of major adverse cardiovascular events. After controlling for a variety of baseline variables (including established biomarkers such as high-sensitivity C-reactive protein and N-terminal-pro-B-type natriuretic peptide), plasma IL-10 levels (whether analyzed as a continuous variable or as a categorical variable using receiver operating characteristic-derived cut point) were a strong and independent predictor of the composite outcome of death or non-fatal myocardial infarction when using a Cox proportional hazards model. These data demonstrate that, despite biologic plausibility for IL-10 as being a cardioprotective cytokine, elevated baseline plasma levels of IL-10 are a strong and independent predictor of long-term adverse cardiovascular outcomes in patients with acute coronary syndrome.
  The American journal of medicine 08/2011; 124(8):724-30. · 4.47 Impact Factor
• Article: Epithelial interactions and local engraftment of lung-resident mesenchymal stem cells.

  Linda Badri, Natalie M Walker, Takashi Ohtsuka, Zhuo Wang, Mario Delmar, Andrew Flint, Marc Peters-Golden, Galen B Toews, David J Pinsky, Paul H Krebsbach, Vibha N Lama
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  ABSTRACT: Multipotent mesenchymal progenitor cells, termed "mesenchymal stem cells" (MSCs), have been demonstrated to reside in human adult lungs. However, there is little information regarding the associations of these local mesenchymal progenitors with other resident somatic cells and their potential for therapeutic use. Here we provide in vivo and in vitro evidence for the ability of human adult lung-resident MSCs (LR-MSCs) to interact with the local epithelial cells. The in vivo retention and localization of human LR-MSCs in an alveolar microenvironment was investigated by placing PKH-26 or DsRed lentivirus-labeled human LR-MSCs in the lungs of immunodeficient (SCID) mice. At 3 weeks after intratracheal administration, 19.3 ± 3.21% of LR-MSCs were recovered, compared with 3.47 ± 0.51% of control fibroblasts, as determined by flow cytometry. LR-MSCs were found to persist in murine lungs for up to 6 months and demonstrated preferential localization to the corners of the alveoli in close proximity to type II alveolar epithelial cells, the progenitor cells of the alveolar epithelium. In vitro, LR-MSCs established gap junction communications with lung alveolar and bronchial epithelial cells and demonstrated an ability to secrete keratinocyte growth factor, an important modulator of epithelial cell proliferation and differentiation. Gap junction communications were also demonstrable between LR-MSCs and resident murine cells in vivo. This study demonstrates, for the first time, an ability of tissue-specific MSCs to engraft in their organ of origin and establishes a pathway of bidirectional interaction between these mesenchymal progenitors and adult somatic epithelial cells in the lung.
  American Journal of Respiratory Cell and Molecular Biology 03/2011; 45(4):809-16. · 5.13 Impact Factor
• Article: Mesenchymal stromal cells in bronchoalveolar lavage as predictors of bronchiolitis obliterans syndrome.

  Linda Badri, Susan Murray, Lyrica X Liu, Natalie M Walker, Andrew Flint, Anish Wadhwa, Kevin M Chan, Galen B Toews, David J Pinsky, Fernando J Martinez, Vibha N Lama
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  ABSTRACT: Bronchoalveolar lavage fluid (BAL) from human lung allografts demonstrates the presence of a multipotent mesenchymal stromal cell population. However, the clinical relevance of this novel cellular component of BAL and its association with bronchiolitis obliterans syndrome (BOS), a disease marked by progressive airflow limitation secondary to fibrotic obliteration of the small airways, remains to be determined. In this study we investigate the association of number of mesenchymal stromal cells in BAL with development of BOS in human lung transplant recipients. Mesenchymal colony-forming units (CFUs) were quantitated in a cohort of 405 BAL samples obtained from 162 lung transplant recipients. Poisson generalized estimating equations were used to determine the predictors of BAL mesenchymal CFU count. Higher CFU counts were noted early post-transplantation; time from transplant to BAL of greater than 3 months predicted 0.4-fold lower CFU counts (P = 0.0001). BOS diagnosis less than or equal to 365 days before BAL was associated with a 2.11-fold higher CFU count (P = 0.02). There were 2.62- and 2.70-fold higher CFU counts noted in the presence of histologic diagnosis of bronchiolitis obliterans (P = 0.05) and organizing pneumonia (0.0003), respectively. In BAL samples obtained from BOS-free patients greater than 6 months post-transplantation (n = 173), higher mesenchymal CFU counts (≥10) significantly predicted BOS onset in both univariate (hazard ratio, 5.61; 95% CI, 3.03-10.38; P < 0.0001) and multivariate (hazard ratio, 5.02; 95% CI, 2.40-10.51; P < 0.0001) Cox regression analysis. Measurement of mesenchymal CFUs in the BAL provides predictive information regarding future BOS onset.
  American Journal of Respiratory and Critical Care Medicine 12/2010; 183(8):1062-70. · 11.08 Impact Factor
• Article: Ecto-5'-nucleotidase (CD73) attenuates allograft airway rejection through adenosine 2A receptor stimulation.

  Takashi Ohtsuka, Paul S Changelian, Diane Bouïs, Kathleen Noon, Hiroaki Harada, Vibha N Lama, David J Pinsky
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  ABSTRACT: There are multiple drivers of leukocyte recruitment in lung allografts that contribute to lymphocytic bronchitis (LB) and bronchiolitis obliterans (BO). The innate mechanisms driving (or inhibiting) leukocyte trafficking to allografts remain incompletely understood. This study tested the hypothesis that CD73 (ecto-5'nucleotidase), an enzyme that catalyzes the conversion of AMP to adenosine, is a critical negative regulator of LB and BO. Implantation of tracheal allografts from wild type (WT) mice into CD73(-/-) recipients revealed a striking increase in airway luminal obliteration at 7 d (62 +/- 4% and 47 +/- 5% for CD73(-/-) and WT allograft recipients, respectively; p = 0.046). There was also a concordant increase in CD3(+) lymphocytic infiltration (523 +/- 41 cells and 313 +/- 43 cells for CD73(-/-) and WT allograft recipients, respectively; p = 0.013). Because real-time PCR revealed a 43-fold upregulation of mRNA for the adenosine A2A receptor (A2AR) in WT allografts compared with WT isografts (p = 0.032), additional experiments were performed to determine whether the protective effect of CD73 was due to generation of adenosine and its stimulation of the A2AR. Treatment of WT recipients with an A2AR agonist significantly reduced CD3(+) lymphocyte infiltration and airway luminal obliteration; similar treatment of CD73(-/-) recipients rescued them from LB and airway obliteration. These data implicate CD73 acting through adenosine generation and its stimulation of the A2AR as a critical negative modulator of lymphocyte recruitment into airway allografts. The CD73/adenosine axis might be a new therapeutic target to prevent BO.
  The Journal of Immunology 07/2010; 185(2):1321-9. · 5.79 Impact Factor
• Article: cAMP/CREB-mediated transcriptional regulation of ectonucleoside triphosphate diphosphohydrolase 1 (CD39) expression.

  Hui Liao, Matthew C Hyman, Amy E Baek, Keigo Fukase, David J Pinsky
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  ABSTRACT: CD39 is a transmembrane enzyme that inhibits platelet reactivity and inflammation by phosphohydrolyzing ATP and ADP to AMP. Cyclic AMP (cAMP), an essential second messenger, is particularly important in regulating genes controlling vascular homeostasis. These experiments test the hypothesis that cAMP might positively regulate the expression of CD39 and thereby modulate important vascular homeostatic properties. Cd39 mRNA was induced by 13.8- fold in RAW cells treated with a membrane-permeant cAMP analogue (8-bromo-cyclic AMP; 8-Br-cAMP), stimulation of adenylate cyclase, or prostanoids known to drive cAMP response. Fluorescence-activated cell sorting, immunofluorescence, and TLC assays demonstrated that both CD39 protein expression and enzymatic activity were increased in cells treated with 8-Br-cAMP but not in cells transfected with short hairpin RNA against CD39. This analogue drove a significant increase in transcriptional activity at the Cd39 promoter although not when the promoter's cAMP-response element sites were mutated. Pretreatment with cAMP-dependent protein kinase (PKA), phosphoinositide 3-kinase (PI3K), or ERK inhibitors nearly obliterated the cAMP-driven increase in Cd39 mRNA, protein expression, and promoter activity. 8-Br-cAMP greatly increased the phosphorylation of CREB1 (Ser(133)) and ATF2 (Thr(71)) in a PKA-, PI3K-, and ERK-dependent fashion. Chromatin immunoprecipitation assays demonstrated that binding of phosphorylated CREB1 and ATF2 to cAMP-response element-like sites was significantly increased with 8-Br-cAMP treatment and that binding was reduced with PKA, PI3K, and ERK inhibition, whereas transfection of Creb1 and Atf2 overexpression constructs enhanced cAMP-driven Cd39 mRNA expression. Transfection of RAW cells with mutated Creb1 (S133A) reduced cAMP-driven Cd39 mRNA expression. Furthermore, the cAMP-mediated induction of Cd39 mRNA, protein, and phosphohydrolytic activity was replicated in primary peritoneal macrophages. These data identify cAMP as a crucial regulator of macrophage CD39 expression and demonstrate that cAMP acts through the PKA/CREB, PKA/PI3K/ATF2, and PKA/ERK/ATF2 pathways to control a key vascular homeostatic mediator.
  Journal of Biological Chemistry 02/2010; 285(19):14791-805. · 4.77 Impact Factor
• Article: Pulmonary artery smooth muscle hypertrophy: roles of glycogen synthase kinase-3beta and p70 ribosomal S6 kinase.

  Huan Deng, Marc B Hershenson, Jing Lei, Anuli C Anyanwu, David J Pinsky, J Kelley Bentley
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  ABSTRACT: Increased medial arterial thickness is a structural change in pulmonary arterial hypertension (PAH). The role of smooth muscle hypertrophy in this process has not been well studied. Bone morphogenetic proteins (BMPs), transforming growth factor (TGF)-beta1, serotonin (or 5-hydroxytryptamine; 5-HT), and endothelin (ET)-1 have been implicated in PAH pathogenesis. We examined the effect of these mediators on human pulmonary artery smooth muscle cell size, contractile protein expression, and contractile function, as well on the roles of glycogen synthase kinase (GSK)-3beta and p70 ribosomal S6 kinase (p70S6K), two proteins involved in translational control, in this process. Unlike epidermal growth factor, BMP-4, TGF-beta1, 5-HT, and ET-1 each increased smooth muscle cell size, contractile protein expression, fractional cell shortening, and GSK-3beta phosphorylation. GSK-3beta inhibition by lithium or SB-216763 increased cell size, protein synthesis, and contractile protein expression. Expression of a non-phosphorylatable GSK-3beta mutant blocked BMP-4-, TGF-beta1-, 5-HT-, and ET-1-induced cell size enlargement, suggesting that GSK-3beta phosphorylation is required and sufficient for cellular hypertrophy. However, BMP-4, TGF-beta1, 5-HT, and ET-1 stimulation was accompanied by an increase in serum response factor transcriptional activation but not eIF2 phosphorylation, suggesting that GSK-3beta-mediated hypertrophy occurs via transcriptional, not translational, control. Finally, BMP-4, TGF-beta1, 5-HT, and ET-1 treatment induced phosphorylation of p70S6K and ribosomal protein S6, and siRNAs against p70S6K and S6 blocked the hypertrophic response. We conclude that mediators implicated in the pathogenesis of PAH induce pulmonary arterial smooth muscle hypertrophy. Identification of the signaling pathways regulating vascular smooth muscle hypertrophy may define new therapeutic targets for PAH.
  AJP Lung Cellular and Molecular Physiology 02/2010; 298(6):L793-803. · 3.66 Impact Factor
• Source

  Available from: Vineet Chopra

  Article: Relation of baseline plasma ADMA levels to cardiovascular morbidity and mortality at two years in men with diabetes mellitus referred for coronary angiography.

  Erdal Cavusoglu, Cyril Ruwende, Vineet Chopra, Shyam Poludasu, Sunitha Yanamadala, William H Frishman, Calvin Eng, David J Pinsky, Jonathan D Marmur
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  ABSTRACT: Patients with diabetes mellitus (DM) have been shown to have higher levels of asymmetric dimethylarginine (ADMA), an endogenous inhibitor of endothelial nitric oxide (NO) synthase. Higher plasma levels of ADMA have been implicated in the pathogenesis of endothelial dysfunction and atherosclerosis by lowering NO levels. High baseline plasma levels of ADMA in patients with DM have been shown to predict diabetes related complications. However, there are limited data on the prognostic significance of baseline ADMA levels in patients with established DM. The present study investigated the long-term prognostic significance of baseline plasma ADMA levels in a well-characterized cohort of 170 high-risk diabetic men with known or suspected coronary artery disease who were referred for coronary angiography. All patients were followed prospectively for the development of vascular outcomes, including all-cause mortality. After controlling for a variety of baseline variables (including established biomarkers such as hs-CRP and fibrinogen), plasma ADMA levels (analyzed as the upper tertile of baseline values compared with the lower two tertiles) were a strong and independent predictor of all-cause mortality (HR 2.63, 95% CI 1.13-6.11, p=0.0247) when using a Cox proportional hazards model. In addition, baseline ADMA values were also an independent predictor of the composite outcome of all-cause mortality or MI (fatal or non-fatal) (HR 2.44, 95% CI 1.26-4.72, p=0.0079), as well as the composite outcome of all-cause mortality, MI (fatal or nonfatal), or stroke (HR 2.00, 95% CI 1.10-3.62, p=0.0232). These data demonstrate that elevated baseline levels of ADMA are a strong and independent predictor of cardiovascular outcomes (including all-cause mortality) in patients with DM.
  Atherosclerosis 11/2009; 210(1):226-31. · 3.79 Impact Factor
• Article: Self-regulation of inflammatory cell trafficking in mice by the leukocyte surface apyrase CD39.

  Matthew C Hyman, Danica Petrovic-Djergovic, Scott H Visovatti, Hui Liao, Sunitha Yanamadala, Diane Bouïs, Enming J Su, Daniel A Lawrence, M Johan Broekman, Aaron J Marcus, David J Pinsky
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  ABSTRACT: Leukocyte and platelet accumulation at sites of cerebral ischemia exacerbate cerebral damage. The ectoenzyme CD39 on the plasmalemma of endothelial cells metabolizes ADP to suppress platelet accumulation in the ischemic brain. However, the role of leukocyte surface CD39 in regulating monocyte and neutrophil trafficking in this setting is not known. Here we have demonstrated in mice what we believe to be a novel mechanism by which CD39 on monocytes and neutrophils regulates their own sequestration into ischemic cerebral tissue, by catabolizing nucleotides released by injured cells, thereby inhibiting their chemotaxis, adhesion, and transmigration. Bone marrow reconstitution and provision of an apyrase, an enzyme that hydrolyzes nucleoside tri- and diphosphates, each normalized ischemic leukosequestration and cerebral infarction in CD39-deficient mice. Leukocytes purified from Cd39-/- mice had a markedly diminished capacity to phosphohydrolyze adenine nucleotides and regulate platelet reactivity, suggesting that leukocyte ectoapyrases modulate the ambient vascular nucleotide milieu. Dissipation of ATP by CD39 reduced P2X7 receptor stimulation and thereby suppressed baseline leukocyte alphaMbeta2-integrin expression. As alphaMbeta2-integrin blockade reversed the postischemic, inflammatory phenotype of Cd39-/- mice, these data suggest that phosphohydrolytic activity on the leukocyte surface suppresses cell-cell interactions that would otherwise promote thrombosis or inflammation. These studies indicate that CD39 on both endothelial cells and leukocytes reduces inflammatory cell trafficking and platelet reactivity, with a consequent reduction in tissue injury following cerebral ischemic challenge.
  The Journal of clinical investigation 05/2009; 119(5):1136-49. · 15.39 Impact Factor
• Article: Relation of baseline serum potassium levels to angiographic findings in patients with known or suspected coronary artery disease.

  Erdal Cavusoglu, Vineet Chopra, Amit Gupta, Palak U Choksi, Cyril Ruwende, Sunitha Yanamadala, William H Frishman, David J Pinsky, Jonathan D Marmur
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  ABSTRACT: In experimental animal studies, potassium has been demonstrated to protect against the development of atherosclerosis through a variety of mechanisms. Data regarding the role of potassium in the development of human atherosclerosis are sparse. The objective of this study was to determine the association between plasma potassium levels and angiographically defined coronary artery disease (CAD). In a cohort of 389 male patients undergoing coronary angiography for a variety of clinical indications, the association between baseline serum potassium levels and the extent of angiographically defined atherosclerosis was analyzed. Adjustments were made for clinical and laboratory variables (including inflammatory markers) known to be associated with atherosclerosis. By multivariate logistic regression analysis, baseline serum potassium levels were an independent predictor of the presence of multivessel disease (odds ratio (OR) 1.31, 95% confidence interval (CI) 1.01-1.69; P < 0.05). In addition, in the non-myocardial infarction subpopulation of patients, serum potassium was also an independent predictor of the presence of multivessel disease by multivariate logistic regression analysis (OR 1.34, 95% CI, 1.02-1.76; P < 0.05). In the myocardial infarction (MI) subpopulation, serum potassium was not a predictor of multivessel disease, possibly due to the confounding effect of hypokalemia known to be present during MI. These data demonstrate that a simple baseline serum potassium level is independently associated with the presence of multivessel disease, even in the context of clinical CAD risk factors and other established inflammatory markers.
  American Journal of Hypertension 04/2009; 22(7):754-62. · 3.18 Impact Factor
• Article: Suppression of nitrosative and oxidative stress to reduce cardiac allograft vasculopathy.

  Tomomi Hasegawa, Koichiro Iwanaga, Donald E Hultquist, Hui Liao, Scott H Visovatti, David J Pinsky
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  ABSTRACT: Oxidant injury occurs when an organ is severed from its native blood supply and then reperfused and continues during subsequent periods of immune attack. Experiments here test the hypothesis that an antioxidant given only in the peri-reperfusion period protects against not only oxidative but also nitrosative stress, leading to reduced vasculopathy long after cardiac allotransplantation. Experiments were performed using a murine heterotopic cardiac transplantation model. An antioxidant, in the form of intraperitoneal high-dose riboflavin, was given to recipients during the initial 3 days after transplantation. Antioxidant-treated mice showed significantly longer graft survival than control mice. At 4 h after transplantation, antioxidant treatment significantly reduced graft lipid peroxidation and oxidized DNA and preserved antioxidant enzyme activity. At day 6 posttransplantation, the redox-sensitive transcription factor nuclear factor-kappaB and inducible nitric oxide synthase were significantly reduced following antioxidant treatment, with concomitant reduction of nitrotyrosine. Despite the limited duration of antioxidant treatment, both acute and chronic rejection were significantly suppressed. In vitro experiments confirmed suppression of nitrosative and oxidative stress and cardiomyocyte damage in antioxidant-treated cardiac allografts. Collectively, antioxidant administration during the initial 3 days after transplantation significantly reduces nitrosative and oxidative stress in cardiac allografts, modulates immune responses, and protects against vasculopathy.
  AJP Heart and Circulatory Physiology 02/2009; 296(4):H1007-16. · 3.71 Impact Factor
• Article: Neuronal RAGE expression modulates severity of injury following transient focal cerebral ischemia.

  Benjamin G Hassid, M Nathan Nair, Andrew F Ducruet, Marc L Otten, Ricardo J Komotar, David J Pinsky, Ann Marie Schmidt, Shi Fang Yan, E Sander Connolly
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  ABSTRACT: Inflammation has a significant role in the neurological injury that follows stroke. The receptor for advanced-glycation end products (RAGE) is a multiligand member of the immunoglobulin superfamily that has been implicated in multiple neuronal and inflammatory stress processes. To directly test the role of neuronal RAGE in stroke, we employed two cohorts of transgenic mice, one over-expressing full-length functional human RAGE in neurons, and the other a human RAGE transgene in which deletion of the cytoplasmic domain of the receptor in neurons suppresses signal transduction stimulated by ligands (referred to as dominant negative or DN-RAGE). We found a statistically significant increase in stroke volume in the RAGE over-expressing cohort compared to normal controls, and a trend towards decreased stroke volume in the DN RAGE cohort. These results indicate that RAGE signaling directly contributes to pathology in cerebral ischemia.
  Journal of Clinical Neuroscience 01/2009; 16(2):302-6. · 1.25 Impact Factor
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  Article: Ecto-5' nucleotidase (CD73)-mediated adenosine generation and signaling in murine cardiac allograft vasculopathy.

  Tomomi Hasegawa, Diane Bouïs, Hui Liao, Scott H Visovatti, David J Pinsky
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  ABSTRACT: Ecto-5'-nucleotidase (CD73) catalyzes the terminal phosphohydrolysis of 5'-adenosine monophosphate and is widely expressed on endothelial cells where it regulates barrier function. Because it is also expressed on lymphocytes, we hypothesized that it modulates vascular immune regulation under homeostatic conditions and dysregulation under stress conditions such as cardiac allotransplantation. In a heterotopic cardiac allotransplantation model, CD73 deficiency in either donors or recipients resulted in decreased graft survival and the development of cardiac allograft vasculopathy, suggesting a contribution of CD73 on both graft-resident and circulating cells in vasculopathy pathogenesis. Vascular perturbations incited by lack of CD73 included loss of graft barrier function and diminished graft expression of the A(2B) adenosine receptor (A(2B)AR), with a concordant exacerbation of the acute inflammatory and immune responses. The importance of CD73 in modulating endothelial-lymphocyte interaction was further demonstrated in allomismatched in vitro coculture experiments. Either genetic deletion or pharmacological blockade of CD73 increased transendothelial lymphocyte migration and inflammatory responses, suggesting that CD73 plays a critical role to suppress transendothelial leukocyte trafficking through its enzymatic activity. In addition, antagonism of A(2B)AR caused a significant increase in vascular leakage, and agonism of A(2B)AR resulted in marked prolongation of graft survival and suppression of cardiac allograft vasculopathy development. These data suggest a new paradigm in which phosphohydrolysis of adenosine monophosphate by CD73 on graft-resident or circulating cells diminishes transendothelial leukocyte trafficking and mitigates inflammatory and immune sequelae of cardiac transplantation via the A(2B)AR.
  Circulation Research 12/2008; 103(12):1410-21. · 9.49 Impact Factor
• Article: Lung resident mesenchymal stem cells isolated from human lung allografts inhibit T cell proliferation via a soluble mediator.

  Lamis Jarvinen, Linda Badri, Scott Wettlaufer, Takashi Ohtsuka, Theodore J Standiford, Galen B Toews, David J Pinsky, Marc Peters-Golden, Vibha N Lama
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  ABSTRACT: Development of allograft rejection continues to be the major determinant of morbidity and mortality postlung transplantation. We have recently demonstrated that a population of donor-derived mesenchymal stem cells is present in human lung allografts and can be isolated and expanded ex vivo. In this study, we investigated the impact of lung resident mesenchymal stem cells (LR-MSCs), derived from allografts of human lung transplant recipients, on T cell activation in vitro. Similar to bone marrow-derived MSCs, LR-MSCs did not express MHC II or the costimulatory molecules CD80 or CD86. In vitro, LR-MSCs profoundly suppressed the proliferative capacity of T cells in response to a mitogenic or an allogeneic stimulus. The immunosuppressive function of LR-MSCs was also noted in the absence of direct cell contact, indicating that LR-MSCs mediated their effect predominantly via a soluble mediator. LR-MSCs isolated from lung transplant recipients demonstrated PGE(2) secretion at baseline (385 +/- 375 pg/ml), which increased in response to IL-1beta (1149 +/- 1081 pg/ml). The addition of PG synthesis inhibitors (indomethacin and NS-398) substantially abrogated LR-MSC-mediated immunosuppression, indicating that PGE(2) may be one of the major soluble mediators impacting T cell activity. This is the first report to demonstrate that human tissue-derived MSCs isolated from an allogeneic environment have the potential to mediate immunological responses in vitro.
  The Journal of Immunology 10/2008; 181(6):4389-96. · 5.79 Impact Factor