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- Title
Large populations of non-clonogenic early apoptotic CD34-positive cells are present in frozen-thawed peripheral blood stem cell transplants.
- Authors
Schuurhuis, G J; Muijen, M Monnee-v; Oberink, J W; de Boer, F; Ossenkoppele, G J; Broxterman, H J
- Abstract
Apoptosis is the common cell death pathway which is initiated by a variety of different stimuli. The recognition of early apoptotic events would markedly improve reliability and convenience of apoptosis assays. In the present study the vital stain SytoR16 in combination with the permeability marker 7-amino actinomycin D, (7-AAD) has been used to identify an early stage of apoptosis, not detected with trypan blue or 7-AAD alone or with conventional apoptosis tests and not consistently and only partly detected by the early apoptosis marker annexin V. The method was established using solid tumour cell lines treated with TNF. Subsequently we applied it to determine apoptotic populations in CD34+ peripheral blood progenitor cells obtained from growth factor and/or chemotherapy mobilised patients and frozen/thawed according to standard stem cell transplantation protocols. In a cell line model as well as CD34+ progenitor cells, different subpopulations with decreased SytoR16 fluorescence (SytoR16int or SytoR16low, compared with the normal SytoR16high) appeared which are not, or only partly, apoptotic using conventional techniques including morphology or 7-AAD staining: eg percentages of SytoR16int/7-AAD- and SytoR16low/7-AAD- may amount to the majority of cells present in a particular CD34+ sample. Second, upon further incubation these subpopulations become late apoptotic/secondary necrotic much faster than the unmodified SytoR16high population, as determined with 7-AAD staining and morphology. Third, these cells have strongly or completely reduced clonogenic capacity for committed (CFU-GM) and early (LTC-IC, determined only for CD34+ cells) progenitors. This technique needs the inclusion of a blocker of P-glycoprotein, which is highly active in...
- Subjects
APOPTOSIS; CD antigens; STEM cells; BLOOD cells
- Publication
Bone Marrow Transplantation, 2001, Vol 27, Issue 5, p487
- ISSN
0268-3369
- Publication type
Article
- DOI
10.1038/sj.bmt.1702809