Gasping for air in the leukemic bone marrow: improving the functioning of natural killer cells in hypoxia.

Acute myeloid leukemia (AML) is a hematological cancer that arises and spreads from the bone marrow. It has a very dismal prognosis, characterized by a high relapse rate, despite initial complete molecular remission. Residual leukemic stem cells (LSC) are believed to be to origin of this relapse. LSC reside in a tumoral bone marrow that features a heightened state of hypoxia. Immunotherapeutic strategies are on the rise and are promising approaches to go hunt-and-destroy LSC. However, they will have to overcome the hypoxic burden in the leukemic bone marrow. Indeed, hypoxia is nowadays recognized as a barrier for immunotherapy. In this project, we will focus on natural killer (NK) cells as a born killer with great potential as adoptive cell product. While cytokines and chimeric antigen receptors (CAR) have improved the cytotoxic potency and targetability of NK cell products, their effectiveness at the tumor site is incapacitated by hypoxia. To address this conundrum, we will investigate several approaches to metabolically sustain their killing capacity in hypoxia in order to elicit potent elimination of both LSC and differentiated AML cells in the leukemic bone marrow. This will open up opportunities to develop next-generation CAR NK cells as an available off-the-shelf product for the treatment of AML patients.

Keywords:NATURAL KILLER CELLS, HYPOXIA, LEUKEMIA

Disciplines:Innate immunity, Cancer biology, Cancer therapy