Optimization of the Cycling of Clonogenic and Primitive Cord Blood Progenitors by Various Growth Factors

Abstract

The cycling status of cord blood progenitors and the culture conditions triggering their activation into S-phase have been studied using flow cytometry and a ³H-thymidine suicide assay. Mononuclear cells cultured either in Iscove's modified Dulbecco's medium (IMDM) ± 10% fetal calf serum ([FCS]; IMDM + FCS) or in Dulbecco's modified Eagle's medium (DMEM) ± 10% newborn bovine serum ([NBS]; DMEM + NBS) were stimulated by various growth factors (GFs). Results showed that CD34⁺ cells, clonogenic progenitors (colony forming cells [CFCs]) and long-term culture initiating cells (LTC-IC) present in freshly harvested cord blood were quiescent. CFC numbers were maintained without cycling after 48-h cultures in serum-containing media without GFs. Addition of interleukin 3 (IL-3) + IL-6 + stem cell factor stimulated into S-phase ∼40% of CFCs within 24-48 h, without modifying their number except in DMEM + NBS where erythroid progenitors decreased. When cells were stimulated in IMDM + FCS by these three GFs + insulin-like growth factor I and basic fibroblast growth factor used at high concentration, more than 50% of CFCs were in S-phase and their total number was maintained. The latter culture conditions also recruited up to 66% of LTC-IC into S-phase. Our data underline the importance of the combination of GFs and culture media used for optimizing the cycling and maintenance of CFCs and LTC-IC within two days.