Purpose: Bruton’s tyrosine kinase inhibitor ibrutinib has revolutionized the treatment of chronic lymphocytic leukemia (CLL). Although ibrutinib is a highly effective drug, during the treatment acquired ibrutinib resistance may occur and its early detection is an important issue. Our aim was to investigate several phenotypic markers on CLL cells to reveal changes in their expression during ibrutinib treatment.
Methods: In our study 28 (treatment naive, ibrutinib sensitive, clinically ibrutinib resistant) peripheral blood (PB), and 6 paired PB and bone marrow (BM) samples were examined. The expression of several surface markers (CD69, CD184, CD86, CD185, CD27) was assessed by flow cytometry in each sample. Furthermore, the presence of the BTKC481S resistance mutation was tested using digital droplet PCR. In addition, we investigated the changes of the phenotype of CLL cells during ibrutinib treatment in one patient with acquired ibrutinib resistance.
Results: The expression of CD27 decreased during ibrutinib therapy but increased again at the onset of clinical resistance. Expressions of CD69 and CD86 were also elevated at the onset of clinical ibrutinib resistance. The expression of CD86 showed correlation between PB and BM samples. Relapsed cases with high CD86 expression were positive for BTKC481S mutation. Our prospective study showed that the increases in the expression of CD27, CD69 and CD86 were detectable up to several months before the onset of clinical resistance.
Conclusion: Our research suggests that the flow cytometric measurements of certain markers, especially CD86, may predict development of ibrutinib resistance, however, confirmatory experiments are still required.