Effects of Altering Cell Proliferation on Hematopoietic Stem and Progenitor Cell Function

Abstract

Cell cycle checkpoints guarantee movement through the cell cycle in an appropriate manner. The spindle assembly checkpoint (SAC) ensures the proper segregation of chromosomes into daughter cells during mitosis. Mitotic arrest deficiency 2 (Mad2), a member of the mitotic checkpoint proteins, appears to be crucial for generating the wait anaphase signal to prevent onset of anaphase. We first studied the SAC in hematopoietic stem cells (HSC) to ensure that it was functional. Our previous studies found that prolonged SAC activation was uncoupled from apoptosis initiation in mouse and human embryonic stem cells (ESC). We found that upon treatment with a microtubule-destabilizing agent, HSC arrested in M-phase and subsequently initiated apoptosis. Thus unlike ESC, HSC exhibit coupling of prolonged SAC activation with apoptosis. We studied the effects of Mad2+/- on in vivo recovery of bone marrow HPC from cytotoxic effects and also effects of cytostatic agents on HPC growth in vitro using Mad2-haploinsufficient (Mad2+/-) mice. We found that Mad2+/- HPCs were protected from the cytotoxic effects of cytarabine (Ara-C), a cycle specific agent, consistent with Mad2+/- HPCs being in a slow or non-cycling state. Mad2 haploinsufficiency did not affect recovery of functional HPC after treatment with cyclophosphamide or high sub-lethal dose irradiation, both non-cycle specific agents. There were no differences in immunophenotype defined HSCs in Mad2+/- and Mad2+/+ mice, data confirmed by functional HSC competitive repopulation assays. To better understand the role of Mad2 in HPC, E3330, a cytostatic agent, was used to assess the redox function of Ape1/Ref-1, and colony formation in vitro was examined under normoxic and lowered O2 tension. Mad2+/- HPCs were less responsive to E3330 than Mad2+/+ HPCs, and E3330 was more effective under lowered O2 tension. Mad2+/- HPCs did not exhibit enhanced growth in lowered oxygen tension, in contrast to Mad2+/+ HPCs. Our studies have unexpectedly found that Mad2 haploinsufficiency is protective from the cytotoxic effects of a cycle specific DNA synthesis agent in vivo, and Ape1/Ref-1 inhibitor in vitro.