期刊
AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
卷 301, 期 2, 页码 C431-C440出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpcell.00074.2011
关键词
microvasculature; reactive oxygen species; hypoxia-inducible factors
资金
- American Heart Association
- March of Dimes Basil O'Connor Starter Scholar Award
- National Institutes of Health [U54CA143868]
- National Science Foundation [1054415]
Abaci HE, Truitt R, Tan S, Gerecht S. Unforeseen decreases in dissolved oxygen levels affect tube formation kinetics in collagen gels. Am J Physiol Cell Physiol 301: C431-C440, 2011. First published May 4, 2011; doi: 10.1152/ajpcell.00074.2011.-The availability of oxygen (O(2)) is a critical parameter affecting vascular tube formation. In this study, we hypothesize that dissolved oxygen (DO) levels in collagen gels change during the three-dimensional (3D) culture of human umbilical vein endothelial cells (HUVECs) in atmospheric conditions and that such changes affect the kinetics of tube formation through the production of reactive oxygen species (ROS). We demonstrate a decrease in O(2) tension during 3D cultures of HUVECs. Noninvasive measurements of DO levels during culture under atmospheric conditions revealed a profound decrease that reached as low as 2% O(2) at the end of 24 h. After media replacement, DO levels rose rapidly and equilibrated at similar to 15% O(2), creating a reoxygenated environment. To accurately estimate DO gradients in 3D collagen gels, we developed a 3D mathematical model and determined the Michaelis-Menten parameters, V(max) and K(m), of HUVECs in collagen gels. We detected an increase in ROS levels throughout the culture period. Using diphenyliodonium to inhibit ROS production resulted in the complete inhibition of tube formation. Interference RNA studies further showed that hypoxia-inducible factors (HIFs)-1 alpha and -2 alpha are not involved in the formation of 3D tubes in collagen gels. We conclude that ROS affect the tubulogenesis process through HIF alpha-independent pathways, where the levels of ROS are influenced by the uncontrolled variations in DO levels. This study is the first demonstration of the critical and unexpected role of O(2) during 3D in vitro culture models of tubulogenesis in atmospheric conditions.
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