Abstract

Beta-adrenergic agonists such as isoproterenol and terbutaline have been shown to attenuate the edema that various agents can produce in systemic and pulmonary vascular beds. We hypothesize that beta-agonists can prevent and possibly reverse the development of edema by a permeability-decreasing effect on vascular endothelial cells as well as hemodynamic effects and that this effect is unique to beta-agonists as opposed to other vasodilator substances. Furthermore, we hypothesize that this permeability-decreasing effect is mediated via cyclic AMP which alters the intracellular microfilaments and/or microtubules in such a way as to change the shape of the cell. This proposal will utilize in vitro and in vivo experimentation to demonstrate whether beta-agonists have a permeability-decreasing effect and to elucidate the mechanism for this activation the in vitro studies will utilize cultured endothelial cells from arteries. These studies will determine if beta-agonists can prevent and reverse the increased endothelial permeability produced by various permeability-increasing mediators such as thrombin, endotoxin, and histamine. The measurement for endothelial permeability will be the clearance of 125I-albumin across the cultured endothelial cell monolayers seeded on Nucleopore (0.8 um) filters. Radioligand binding studies will be done to demonstrate the presence of beta-receptors on the cultured endothelial cells. The in vitro studies will also determine if the permeability-increasing agents alter cell shape and the number and organization of cellular microfilaments and microtubules and if beta-agonists can prevent these alterations. Cell shape and microfilament changes will be assessed by time-lapse video, phase contrast and immunofluorescent microscopy. The proposed studies will focus on the pulmonary endothelium. With the information gained by the in vitro experimentation, in vivo studies, utilizing the chronic sheep lung lymph fistula preparation, will be done to differentiate between the effects of beta-agonists on vascular permeability and hemodynamics in the awake animal. These in vivo sheep studies will also focus on the pulmonary vasculature. In parallel with these objectives is the long-term objective of determining the transcellular signal pathways that may alter the shape of endothelial and epithelial cells and influence their function as semipermeable membranes.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL038894-02
Application #
3355345
Study Section
Respiratory and Applied Physiology Study Section (RAP)
Project Start
1988-04-01
Project End
1991-03-31
Budget Start
1989-04-01
Budget End
1990-03-31
Support Year
2
Fiscal Year
1989
Total Cost
Indirect Cost

  Institution

Name
Albany Medical College
Department
Type
Schools of Medicine
DUNS #
City
Albany
State
NY
Country
United States
Zip Code
12208

  Publications

Waypa, G B; Morton, C A; Vincent, P A et al. (2000) Oxidant-increased endothelial permeability: prevention with phosphodiesterase inhibition vs. cAMP production. J Appl Physiol 88:835-42
Patil, S; Kaplan, J E; Minnear, F L (1997) Protein, not adenosine or adenine nucleotides, mediates platelet decrease in endothelial permeability. Am J Physiol 273:H2304-11
Ochoa, L; Waypa, G; Mahoney Jr, J R et al. (1997) Contrasting effects of hypochlorous acid and hydrogen peroxide on endothelial permeability: prevention with cAMP drugs. Am J Respir Crit Care Med 156:1247-55
Waypa, G B; Vincent, P A; Morton, C A et al. (1996) Thrombin increases fluid flux in isolated rat lungs by a hemodynamic and not a permeability mechanism. J Appl Physiol 80:1197-204
Kreienberg, P B; Vincent, P A; Bell, D R et al. (1994) Isoproterenol decreases protein permeability in edematous isolated rabbit lungs: estimation of PS and sigma. J Appl Physiol 77:325-31
Charash, W E; Vincent, P A; Saba, T M et al. (1993) Immunofluorescent analysis of plasma fibronectin incorporation into the lung during acute inflammatory vascular injury. Am Rev Respir Dis 148:467-76
Minnear, F L; DeMichele, M A; Leonhardt, S et al. (1993) Isoproterenol antagonizes endothelial permeability induced by thrombin and thrombin receptor peptide. J Appl Physiol 75:1171-9
Vincent, P A; Kreienberg, P B; Minnear, F L et al. (1992) Simultaneous measurement of fluid and protein permeability in isolated rabbit lungs during edema. J Appl Physiol 73:2440-7
DeMichele, M A; Minnear, F L (1992) Modulation of vascular endothelial permeability by thrombin. Semin Thromb Hemost 18:287-95
DeMichele, M A; Moon, D G; Fenton 2nd, J W et al. (1990) Thrombin's enzymatic activity increases permeability of endothelial cell monolayers. J Appl Physiol 69:1599-606

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