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Vascular Inflammation and Thrombosis
Contact Information:

Dr. Charles J. Lowenstein
clowenst@jhmi.edu, 410-955-1530

 
Laboratory Location:950 Ross Building / 720 Rutland Avenue
Baltimore, MD 21205
Research Focus:

Dr. Lowenstein's research focuses on the regulation of vascular inflammation and thrombosis. 

Endothelial cells respond to vascular injury by activating the exocytosis of endothelial granules, Weibel-Palade bodies, that release pro-thrombotic and pro-inflammatory  mediators into the blood.  Our laboratory discovered the identity of the proteins that mediate endothelial exocytosis, including members of the SNARE family and NSF.  We then discovered that nitric oxide (NO) regulates vascular inflammation by chemically modifying NSF, thereby inhibiting exocytosis (Matsushita et al.  Cell  2003).  This discovery has profound biological significance.  NO may regulate exocytosis in a variety of physiological processes, including vascular inflammation, neurotransmission, thrombosis, and cytotoxic T lymphocyte cell killing.

Granule exocytosis is also a critical step in platelet activation.  We have  found that NO inhibits thrombosis in part by decreasing platelet exocytosis of alpha-granules, dense granules, and lysosomal granules (Morrell et al. Proc Natl Acad Sci U S A. 2005).  Current projects now explore the mechanisms by which NO and other neurotransmitters regulate platelet activation.

We have  also developed novel drugs that inhibit vascular inflammation by blocking endothelial exocytosis.

Funding Support:2003-2008: NIH Program Project Grant, PPG Project 3 (P01 HL56091) The Role of Mediators in Accelerated Graft Arteriosclerosis Project Leader 2004-2008: NIH R01 (HL74061) Regulation of Vascular Inflammation (Principal Investigator) 2004-2008: NIH R01 (HL78635) Exocytosis and Vascular Inflammation (Principal Investigator) 2005-2007: International HDL Research Award HDL Regulation of Endothelial Exocytosis (Principal Investigator) 2006-2011: NIH Program Project Grant, PPG Project 3 (P01 HL65608) The Regulation of Exocytosis in the Post-Ischemic Myocardium (Project Leader)
Active Projects:1. Nitric oxide regulation of vascular inflammation.
2. Neurotransmitter regulation of thrombosis.
3. Novel endogenous inhibitors of sepsis.
4. MicroRNA regulation of vascular biology.
Laboratory Collaborators:

Our laboratory collaborates with Dr. Lewis Becker also at The Johns Hopkins University School of Medicine to explore mechanisms of injury following myocardial ischemia and reperfusion under an NIH Program Project Grant. We also work with Dr. Wink Baldwin at Hopkins, studying mechanisms of arteriosclerosis in transplanted hearts within an NIH Program Project Grant. Dr. Lowenstein is working with Dr. Nicholas Flavahan to establish a Vascular Biology Initiative at The Johns Hopkins University School of Medicine

Selected Bibliography:

(1) Matsushita K... and Lowenstein CJ. Nitric Oxide Regulation of Exocytosis by S-Nitrosylation of N-ethylmaleimide Sensitive Factor. Cell 2003 Oct 17; 115(2): 139-150. (2) Bhatia R... and Lowenstein CJ. Ceramide Triggers Weibel-Palade Body Exocytosis. Circ Res. 2004 Jun 24; 95: 319-324. (3) Morrell CN... and Lowenstein CJ. Regulation of platelet granule exocytosis by S-nitrosylation. Proc Natl Acad Sci U S A. 2005 Mar 8;102(10):3782-7. (4) Ferlito M... and Lowenstein CJ. Nitric oxide inhibits exocytosis of cytolytic granules from lymphokine-activated killer cells. Proc Natl Acad Sci U S A. 2006 Aug 1;103(31):11689-94.

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