Effects of telomerase activity and apoptosis on ex vivo expansion of cord blood CD 34 + cells

Abstract Objective Ex vivo expansion of CD 34 + cells has become critically important in order to obtain sufficient haematopoietic stem cells for clinical application. Among major regulators involved in ex vivo expansion, telomerase activity and apoptosis have been revealed to be closely linked to cell cycle progression. However, all exact roles remain to be elucidated. Here, change in telomerase activity and level of apoptosis in cord blood ( CB ) CD 34 + cells were evaluated together with specific cell population growth rate during ex vivo culture. Materials and methods CD34 + cells isolated from human CB were expanded ex vivo over a 28‐day period. Besides monitoring cell proliferation kinetics of the CD34 + cells, changes in telomerase activity and apoptotic levels were investigated. Several relevant genes were quantified by qRT ‐PCR during the culture period. Results Significant elevation of telomerase activity had close relationship to activation of CB CD 34 + cell expansion. Peak apoptotic level was accompanied by a remarkable decline in cell‐specific growth rate, and apoptotic level of differentiated CD 34 – population was significantly higher than that of the CD 34 + population. Conclusion Although telomerase activity was activated during the culture, expansion of CB CD 34 + cells seemed to be more susceptible to apoptotic suppression when cultured ex vivo , which implied that apoptosis may serve as a rate‐limiting factor involved in controlling expansion efficiency.