Enhancement of natural killer cell effector functions against selected lymphoma and leukemia cell lines by dasatinib

N Hassold, K Seystahl, K Kempf… - … journal of cancer, 2012 - Wiley Online Library
N Hassold, K Seystahl, K Kempf, D Urlaub, M Zekl, H Einsele, C Watzl, J Wischhusen
International journal of cancer, 2012Wiley Online Library
As NK cell immunotherapy is still poorly successful, combinations with drugs enhancing NK
cell activity are of major interest. NK large granular lymphocyte expansions associated with
improved survival have been described under monotherapy with the Bcr‐Abl/Src inhibitor
dasatinib, which inhibits NK cell functions in vitro. As Src kinases play a major role in
inhibitory and activating signaling pathways of NK cells, both outcomes appear plausible. To
clarify these contradictory observations and potentially enable the use of dasatinib as …
Abstract
As NK cell immunotherapy is still poorly successful, combinations with drugs enhancing NK cell activity are of major interest. NK large granular lymphocyte expansions associated with improved survival have been described under monotherapy with the Bcr‐Abl/Src inhibitor dasatinib, which inhibits NK cell functions in vitro. As Src kinases play a major role in inhibitory and activating signaling pathways of NK cells, both outcomes appear plausible. To clarify these contradictory observations and potentially enable the use of dasatinib as adjuvant, we analyzed how clinically relevant doses promote NK cell effector functions. Polyclonal human NK cells were studied ex vivo. Functional outcomes assessed included conjugate formation, calcium flux, receptor regulation, cytokine production, degranulation, cytotoxicity, apoptosis induction and signal transduction. While dasatinib inhibits NK cell effector functions during functional assays, 24 hr pretreatment of NK cells followed by washout of dasatinib, led to dose‐dependent enhancement of cytokine production, degranulation marker expression and cytotoxicity against selected lymphoma and leukemia cell lines. Mechanistically, this was neither due to an altered viability of NK cells nor increased NKG2D, LFA‐1 or conjugate formation with target cells. Receptor proximal signaling events were inhibited. However, a slight time dependent enhancement of Vav phosphorylation was observed under certain circumstances. The shift in Vav phosphorylation level may be one major mechanism for NK cell activity enhancement induced by dasatinib. Our findings argue for a careful timing and dosing of dasatinib application during leukemia/lymphoma treatment to enhance NK cell immunotherapeutic efforts.
Wiley Online Library