Preservation injury and/or immune- mediated vascular damage result in varying levels of acute or chronic graft dysfunction. Injured vascular endothelial cells and activated platelets release substantive amounts of nucleotides that interact with multiple purinergic/pyrimidinergic type-2- (P2)-receptors expressed by vascular cells platelets and leukocytes. Extracellular nucleotides therefore could mediate signaling events that influence blood flow, hemostatic and inflammatory reactions, pertinent to both vascular injury and graft rejection. Ectonucleotidases are extracellular nucleotide-metabolizing enzymes that modulate P2-receptor-mediated signaling e.g. by catalyzing the hydrolysis of ATP and/or ADP. We have shown CD39, a B-lymphocyte activation marker, to be the prototype member of an ectonucleotidase family, now termed nucleoside triphosphate diphosphohydrolases (CD39/ NTPDases). CD39 with at least two other CD39-like(L)/ NTPDases and several defined P2-receptors (e.g. P2Yl, P2Y2, and P2X7) are expressed by quiescent endothelium. This arrangement may """"""""fine-tune"""""""" vascular responses to fluctuating levels of these ubiquitous nucleotide messengers. In addition, NTPDase activity of CD39 is regulated at both transcriptional and post-translational levels in vitro. Importantly, vascular NTPDase activity is rapidly lost with exposure to oxidant stress in vivo e.g. in reperfusion injury and graft rejection. Conversely, over-expression of CD39 or administration of soluble NTPDases have major beneficial effects on platelet sequestration and thrombosis in several models of vascular injury tested to date. We have recently targeted and deleted cd39 by homologous recombination. The mice generated were viable but exhibited major thromboregulatory and hemostatic disturbances, ascribed to aberrant nucleotide-mediated signaling and receptor desensitization. These cd39-null mice respond adversely to ischemiareperfusion injury and their cardiac xenografts are more subject to vascular thrombosis. Deletion of cd39 also appears to result in defective monocyte and Iymphocyte responses, relevant to graft rejection responses. In this proposal, we will investigate how CD39 regulates several P2-receptor mediated events in vitro and consequent inflammatory reactions in vivo. We will examine the distribution, structural and functional interactions of CD39 with related NTPDases and those P2-receptors co-expressed in the vasculature. Pathological, immunological, molecular and biochemical studies will involve analysis of clinical biopsy material, mutant or transgenic mice and in vitro cellular expression systems. Vascular injury and mismatched allograft rejection will be evaluated using mutant mice deficient in cd39 or animals with vascular upregulation of NTPDases achieved by either somatic recombination or transgenic approaches. These experiments should delineate involvement of NTPDases and P2signaling in inflammation associated with arterial/venous injury and also culminating in allograft failure.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
2R01HL057307-05
Application #
6266901
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Program Officer
Massicot-Fisher, Judith
Project Start
1997-01-01
Project End
2004-12-31
Budget Start
2001-01-01
Budget End
2001-12-31
Support Year
5
Fiscal Year
2001
Total Cost
$391,500
Indirect Cost
Name
Beth Israel Deaconess Medical Center
Department
Type
DUNS #
076593722
City
Boston
State
MA
Country
United States
Zip Code
02215
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O'Keeffe, Mary G; Thorne, Peter R; Housley, Gary D et al. (2012) Hair cell specific NTPDase6 immunolocalisation in vestibular end organs: potential role of purinergic signaling in vestibular sensory transduction. J Vestib Res 22:213-9
Deaglio, Silvia; Robson, Simon C (2011) Ectonucleotidases as regulators of purinergic signaling in thrombosis, inflammation, and immunity. Adv Pharmacol 61:301-32
Cowan, Peter J; Robson, Simon C; d'Apice, Anthony J F (2011) Controlling coagulation dysregulation in xenotransplantation. Curr Opin Organ Transplant 16:214-21
Feng, Lili; Sun, Xiaofeng; Csizmadia, Eva et al. (2011) Vascular CD39/ENTPD1 directly promotes tumor cell growth by scavenging extracellular adenosine triphosphate. Neoplasia 13:206-16
Crikis, S; Zhang, X M; Dezfouli, S et al. (2010) Anti-inflammatory and anticoagulant effects of transgenic expression of human thrombomodulin in mice. Am J Transplant 10:242-50
Crikis, S; Lu, B; Murray-Segal, L M et al. (2010) Transgenic overexpression of CD39 protects against renal ischemia-reperfusion and transplant vascular injury. Am J Transplant 10:2586-95
Beldi, Guido; Banz, Yara; Kroemer, Alexander et al. (2010) Deletion of CD39 on natural killer cells attenuates hepatic ischemia/reperfusion injury in mice. Hepatology 51:1702-11
Friedman, David J; Künzli, Beat M; A-Rahim, Yousif I et al. (2009) From the Cover: CD39 deletion exacerbates experimental murine colitis and human polymorphisms increase susceptibility to inflammatory bowel disease. Proc Natl Acad Sci U S A 106:16788-93
Braganhol, Elizandra; Morrone, Fernanda B; Bernardi, Andressa et al. (2009) Selective NTPDase2 expression modulates in vivo rat glioma growth. Cancer Sci 100:1434-42

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