Bone skeletal alterations are no longer considered a rare event in
chronic lymphocytic leukemia (CLL), especially at more advanced stages of the disease. This study is aimed at elucidating the mechanisms underlying this phenomenon. Bone marrow stromal cells, induced to differentiate toward osteoblasts in osteogenic medium, appeared unable to complete their maturation upon co-culture with CLL cells, CLL-cell-derived
conditioned media (CLL-cm) or CLL-sera (CLL-sr). Inhibition of osteoblast differentiation was documented by decreased levels of RUNX2 and
osteocalcin mRNA expression, by increased
osteopontin and DKK-1
mRNA levels, and by a marked reduction of mineralized matrix deposition. The addition of neutralizing TNFα,
IL-11 or anti-IL-6R
monoclonal antibodies to these cocultures resulted in restoration of bone mineralization, indicating the involvement of these
cytokines. These findings were further supported by silencing TNFα,
IL-11 and
IL-6 in leukemic cells. We also demonstrated that the addition of CLL-cm to monocytes, previously stimulated with MCSF and RANKL, significantly amplified the formation of large, mature osteoclasts as well as their
bone resorption activity. Moreover, enhanced osteoclastogenesis, induced by CLL-cm, was significantly reduced by treating cultures with the anti-TNFα
monoclonal antibody infliximab. An analogous effect was observed with the use of the BTK inhibitor,
ibrutinib. Interestingly, CLL cells co-cultured with mature osteoclasts were protected from apoptosis and upregulated Ki-67. These experimental results parallel the direct correlation between amounts of TNFα in CLL-sr and the degree of compact bone erosion that we previously described, further strengthening the indication of a reciprocal influence between leukemic cell expansion and bone structure derangement.