Abstract

The long-term objective of our research program has been, and continues to be, the elucidation of the basic mechanisms underlying accumulation of excess fluid in the extravascular spaces. In our current proposal, we focus on the basic microvascular, interstitial and lymphatic processes involved in causation of the edema of inflammation.
The specific aims of our proposed research are: 1) to delineate the roles of pressure-dependent (i.e. mocrovascular smooth muscle-dependent) and permeability-dependent (i.e. endothelium-dependent) mechanisms in extravasation of fluid and proteins during exposure to inflammatory stimuli, 2) utilizing cell-free perfusates, to define the action of chemical mediators of inflammation on microvascular permeability to macromolecules in the absence of formed blood elements, 3) to establish the ultrastructural and functional linkages between neutrophil/endothelium interactions and macromolecular extravasation, 4) to quantify the contribution of specific neutrophil-derived permeability-altering mediators to the macromolecular extravasation elicited by in vivo and in vitro activation of the leukocytes, 5) utilizing umbilical tissue and corneal stroma as model matrices, to elucidate the role of neutrophil-derived substances on the compliance, exclusion and transport properties of the interstitium, and 6) to determine the impact of inflammatory mediators on the function contractile lymph vessels. The proposed research should yield new insights into the causes and treatment of inflammatory reactions in the microvasculature, interstitium and lymphatics.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL021498-09
Application #
3336530
Study Section
Cardiovascular and Pulmonary Research B Study Section (CVB)
Project Start
1977-09-01
Project End
1987-08-31
Budget Start
1985-09-01
Budget End
1986-08-31
Support Year
9
Fiscal Year
1985
Total Cost
Indirect Cost

  Institution

Name
Texas A&M University
Department
Type
Schools of Medicine
DUNS #
City
College Station
State
TX
Country
United States
Zip Code
77845

  Publications

Wu, Mack H; Yuan, Sarah Y; Granger, Harris J (2005) The protein kinase MEK1/2 mediate vascular endothelial growth factor- and histamine-induced hyperpermeability in porcine coronary venules. J Physiol 563:95-104
Guo, Mingzhang; Wu, Mack H; Granger, Harris J et al. (2005) Focal adhesion kinase in neutrophil-induced microvascular hyperpermeability. Microcirculation 12:223-32
Guo, Mingzhang; Wu, Mack H; Granger, Harris J et al. (2004) Transference of recombinant VE-cadherin cytoplasmic domain alters endothelial junctional integrity and porcine microvascular permeability. J Physiol 554:78-88
Hayes, H; Kossmann, E; Wilson, E et al. (2003) Development and characterization of endothelial cells from rat microlymphatics. Lymphat Res Biol 1:101-19
Bridenbaugh, Eric A; Gashev, Anatoliy A; Zawieja, David C (2003) Lymphatic muscle: a review of contractile function. Lymphat Res Biol 1:147-58
Wu, Mack H; Guo, Mingzhang; Yuan, Sarah Y et al. (2003) Focal adhesion kinase mediates porcine venular hyperpermeability elicited by vascular endothelial growth factor. J Physiol 552:691-9
Gashev, Anatoliy A; Davis, Michael J; Zawieja, David C (2002) Inhibition of the active lymph pump by flow in rat mesenteric lymphatics and thoracic duct. J Physiol 540:1023-37
Gashev, A A; Orlov, R S; Zawieja, D C (2001) [Contractions of the lymphangion under low filling conditions and the absence of stretching stimuli. The possibility of the sucking effect] Ross Fiziol Zh Im I M Sechenova 87:97-109
Wu, M H; Ustinova, E; Granger, H J (2001) Integrin binding to fibronectin and vitronectin maintains the barrier function of isolated porcine coronary venules. J Physiol 532:785-91
Wu, H M; Yuan, Y; Zawieja, D C et al. (1999) Role of phospholipase C, protein kinase C, and calcium in VEGF-induced venular hyperpermeability. Am J Physiol 276:H535-42

Showing the most recent 10 out of 49 publications