Virginia M. Meade scite author profile

Emerging evidence to support the use of endothelial progenitor cells (EPCs) for angiogenic therapies or as biomarkers to assess cardiovascular disease risk and progression is compelling. However, there is no uniform definition of an EPC, which makes interpretation of these studies difficult. Although hallmarks of stem and progenitor cells are their ability to proliferate and to give rise to functional progeny, EPCs are primarily defined by the expression of cell-surface antigens. Here, using adult peripheral and umbilical cord blood, we describe an approach that identifies a novel hierarchy of EPCs based on their clonogenic and proliferative potential, analogous to the hematopoietic cell system. In fact, some EPCs form replatable colonies when deposited at the singlecell level. Using this approach, we also identify a previously unrecognized population of EPCs in cord blood that can achieve at least 100 population doublings, replate into at least secondary and tertiary colonies, and retain high levels of telomerase activity. Thus, these studies describe a clonogenic method to define a hierarchy of EPCs based on their proliferative potential, and they identify a unique population of high proliferative potentialendothelial colony-forming cells (HPPECFCs) in human umbilical cord blood.

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Hyperkalemia in very low birth weight infants

Shaffer

Kilbride

Hayen

et al. 1992

The Journal of Pediatrics

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Sodium balance and extracellular volume regulation in very low birth weight infants

Shaffer

Meade

1989

The Journal of Pediatrics

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Virginia M. Meade

Identification of a novel hierarchy of endothelial progenitor cells using human peripheral and umbilical cord blood

Hyperkalemia in very low birth weight infants

Sodium balance and extracellular volume regulation in very low birth weight infants

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