Ibrutinib Does Not Impact CCR7-Mediated Homeostatic Migration in T-Cells from Chronic Lymphocytic Leukemia Patients

Simple Summary Bruton's tyrosine kinase inhibitor ibrutinib restores T-cell immunity and increases circulating T-cell numbers in chronic lymphocytic leukemia (CLL) patients. Recent evidence suggests T-cell enhanced expansion, rather than increased egress from secondary lymphoid organs (SLO), as a root cause for ibrutinib-induced lymphocytosis. However, this physiological change might reflect, as well, a forced retention in PB derived of impaired migration to SLO. With the aim to investigate the impact of ibrutinib on CCR7-mediated homeostasis in CLL T-cells, we have documented receptor expression in a large cohort of ibrutinib-treated patients, and performed different in vivo and in vitro migration models. We show that ibrutinib has no effect on CCR7 expression or receptor-mediated T-cell chemotaxis, homing to SLO, and interstitial migration. Together, these results indicate that ibrutinib T-lymphocytosis is not caused by accumulation in the blood stream, and therefore back the T-cell expansion as the most plausible cause. Bruton's tyrosine kinase inhibitor ibrutinib has significantly changed treatment landscape in chronic lymphocytic leukemia (CLL). Growing evidence supports ibrutinib to work beyond the effect on tumor cells by means of, for example, restoring functionality of the T-cell compartment and increasing circulating T-cell numbers. Recent evidence suggests T-cell enhanced expansion, rather than increased egress from secondary lymphoid organs (SLO), as a root cause for ibrutinib-induced lymphocytosis. However, whether the latter physiological change is also a consequence of a forced retention in blood remains undisclosed. Since CCR7 is the main chemokine receptor taking over the homing of T-cells from peripheral compartments to lymph nodes and other SLO, we aimed to investigate the impact of ibrutinib on CCR7 functionality in T-cells. To this end, we documented receptor expression in T-cells from a large cohort of ibrutinib-treated CLL patients, and performed different in vivo and in vitro migration models. Overall, our data confirm that CCR7 expression or receptor-mediated migration in CLL T-cells is not affected by ibrutinib. Furthermore, it does not modulate CCR7-driven homing nor nodal interstitial migration. Together, our results support that ibrutinib-induced CLL T-cell accumulation in the blood stream is not derived from an impairment of CCR7-driven recirculation between the SLO and bloodstream, and therefore T-cell expansion is the most plausible cause.