Establishing long-term cultures with self-renewing acute myeloid leukemia stem/progenitor cells.

Objective: With the emergence of the concept of the leukemia stem cell, assays to study them remain pivotal in understanding (leukemic) stem cell biology.

Methods: We have cultured acute myeloid leukemia CD34(+) cells on bone marrow stroma. Long-term expansion was monitored and self-renewal was addressed by replating of Leukemic-cobblestone area-forming cells (L-CAs). Also, lentiviral vectors were generated that could target L-CAs.

Results: A strong expansion was observed in about 75% of the acute myeloid leukemia cases (n = 30) and long-term cultures could be maintained for up to 24 weeks on MS5 bone marrow stromal cells. Cells that were able to initiate leukemic cobblestone areas resided in the CD34(+) population and were absent from the CD34(-) population. Self-renewal within these L-CAs was determined by sequential passaging of these L-CAs onto new MS5 stromal layers, which resulted in the generation of second, third, and fourth L-CAs, which were able to sustain long-term expansion and generated high numbers of immature undifferentiated suspension cells. CD34(+) cells that were able to initiate long-term cultures all coexpressed MEIS1 and HOXA9, and expressed elevated BMI1 levels.

Conclusion: We present a novel long-term leukemic stem/progenitor assay in which new drugs can be tested and in which genes can be overexpressed or downmodulated using a lentiviral approach in order to obtain more insight into the process of leukemic transformation and self-renewal.