Vascular Regeneration by Local Growth Factor Release Is Self-Limited by Microvascular Clearance

Author(s)

Le, Kha N.; Tzafriri, A. Rami; Hayward, Alison; Edelman, Elazer R.; Hwang, Chao-Wei; Lovich, Mark A.; ... Show more Show less

Abstract

Background— The challenge of angiogenesis science is that stable sustained vascular regeneration in humans has not been realized despite promising preclinical findings. We hypothesized that angiogenic therapies powerfully self-regulate by dynamically altering tissue characteristics. Induced neocapillaries increase drug clearance and limit tissue retention and subsequent angiogenesis even in the face of sustained delivery. Methods and Results— We quantified how capillary flow clears fibroblast growth factor after local epicardial delivery. Fibroblast growth factor spatial loading was significantly reduced with intact coronary perfusion. Penetration and retention decreased with transendothelial permeability, a trend diametrically opposite to intravascular delivery, in which factor delivery depends on vascular leak, but consistent with a continuum model of drug transport in perfused tissues. Model predictions of fibroblast growth factor sensitivity to manipulations of its diffusivity and transendothelial permeability were validated by conjugation to sucrose octasulfate. Induction of neocapillaries adds pharmacokinetic complexity. Sustained local fibroblast growth factor delivery in vivo produced a burst of neovascularization in ischemic myocardium but was followed by drug washout and a 5-fold decrease in fibroblast growth factor penetration depth. Conclusions— The very efficacy of proangiogenic compounds enhances their clearance and abrogates their pharmacological benefit. This self-limiting property of angiogenesis may explain the failures of promising proangiogenic therapies.

Date issued

2009-05

URI

http://hdl.handle.net/1721.1/92826

Department

Harvard University--MIT Division of Health Sciences and Technology
Massachusetts Institute of Technology. Division of Comparative Medicine

Journal

Circulation

Publisher

American Heart Association

Citation

Le, K. N., C.-W. Hwang, A. R. Tzafriri, M. A. Lovich, A. Hayward, and E. R. Edelman. “Vascular Regeneration by Local Growth Factor Release Is Self-Limited by Microvascular Clearance.” Circulation 119, no. 22 (May 26, 2009): 2928–2935.

Version: Author's final manuscript

ISSN

0009-7322

1524-4539