Erin M. Lynch scite author profile

CCR2 is required for monocyte recruitment in many inflammatory processes, as well as conferring Th1 lymphokine responses. Deep vein thrombosis (DVT) resolution represents a specific inflammatory response whereby the thrombus must be dissolved for restoration of blood flow. Using a stasis model of DVT in the mouse, we investigated the role of CCR2 on DVT resolution. Genetic deletion of CCR2 (CCR2−/−) was associated with larger thrombi at early and later time points, increased thrombus collagen, fewer thrombus monocytes (F4/80), and significantly impaired neovascularization. IL-2 and IFN-γ were significantly reduced in early CCR2−/− thrombi, whereas MCP-1 was significantly increased, and Th2 lymphokines were unaffected. Supplementation of CCR2−/− mice with IFN-γ normalized early thrombus resolution without increasing monocyte influx. Neither Ab depletion of IFN-γ nor genetic deletion of IFN-γ impaired early DVT resolution. Early fibrinolysis was not impaired in CCR2−/− mice, but a significant reduction in both matrix metalloproteinase (MMP)-2 and MMP-9 activity was observed. However, only MMP-9 activity was restored with administration of IFN-γ. We conclude that an early CCR2-dependent Th1 lymphokine response predominates in normal DVT resolution, mediates this in part by MMP-9 activation, but is not solely dependent on IFN-γ.

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Vein wall remodeling after deep vein thrombosis involves matrix metalloproteinases and late fibrosis in a mouse model

Deatrick

Eliason

Lynch

et al. 2005

Journal of Vascular Surgery

112

139

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Deep vein thrombosis is an often neglected problem that long term is associated with the postphlebitic syndrome of limb swelling, pain, and often ulceration. The basic mechanisms of the vein wall damage that results have not been delineated. The following study describes the vein wall matrix metalloproteinase gene and activity response induced over time in the vein wall after DVT. Additionally, the corresponding collagen upregulation and proximate plasmin system mediators are determined. With this knowledge, potential therapies to reduce vein wall injury directly might be possible.

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Early Increased MT1-MMP Expression and Late MMP-2 and MMP-9 Activity during Angiotensin II Induced Aneurysm Formation

Eagleton¹,

Ballard²,

Lynch³

et al. 2006

Journal of Surgical Research

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Vein wall re-endothelialization after deep vein thrombosis is improved with low-molecular-weight heparin

Moaveni

Lynch

Luke

et al. 2008

Journal of Vascular Surgery

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How the vein wall endothelium responds after deep vein thrombosis (DVT) has not been well documented owing to limited human specimens. This report shows that low-molecular-weight heparin accelerates or protects the endothelium and preserves medial smooth muscle cell integrity after DVT, but that this effect is limited to a relatively early time period. Although most DVT prophylaxis is pharmacologic (a heparin agent), use of nonpharmacologic measures is also common. The use of heparin prophylaxis, compared with after DVT treatment, and the acceleration of post-DVT re-endothelialization require clinical correlation.

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Plasmin Inhibition Increases MMP-9 Activity and Decreases Vein Wall Stiffness During Venous Thrombosis Resolution

Dewyer

Sood

Lynch

et al. 2007

Journal of Surgical Research

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Erin M. Lynch

Targeted Deletion of CCR2 Impairs Deep Vein Thombosis Resolution in a Mouse Model

Vein wall remodeling after deep vein thrombosis involves matrix metalloproteinases and late fibrosis in a mouse model

Early Increased MT1-MMP Expression and Late MMP-2 and MMP-9 Activity during Angiotensin II Induced Aneurysm Formation

Vein wall re-endothelialization after deep vein thrombosis is improved with low-molecular-weight heparin

Plasmin Inhibition Increases MMP-9 Activity and Decreases Vein Wall Stiffness During Venous Thrombosis Resolution

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