In spite of development of molecular therapeutics, multiple myeloma (MM) is fatal in most cases. CD38 is a promising target for selective treatment of MM. We tested radioimmunoconjugates consisting of the α-emitter ²¹³Bi coupled to an anti-CD38 MAb in preclinical treatment of MM. Efficacy of ²¹³Bi-anti-CD38-MAb was assayed towards different MM cell lines with regard to induction of DNA double-strand breaks, induction of apoptosis and initiation of cell cycle arrest. Moreover, mice bearing luciferase-expressing MM xenografts were treated with ²¹³Bi-anti-CD38-MAb. Therapeutic efficacy was monitored by bioluminescence imaging, overall survival and histology. ²¹³Bi-anti-CD38-MAb treatment induced DNA damage which did not result in activation of the G2 DNA-damage-response checkpoint, but instead in mitotic arrest and subsequent mitotic catastrophe. The anti-tumor effect of ²¹³Bi-anti-CD38-MAb correlated with the expression level of CD38 in each MM cell line. In myeloma xenografts, treatment with ²¹³Bi-anti-CD38-MAb suppressed tumor growth via induction of apoptosis in tumor tissue and significantly prolonged survival compared to controls. The major organ systems did not show any signs of ²¹³Bi-induced toxicity. Preclinical treatment of MM with ²¹³Bi-anti-CD38-MAb turned out as an effective therapeutic option.
Keywords: OPM2 cells; anti-CD38-MAb; multiple myeloma xenograft model; radioimmunotherapy; α-emitter 213Bi.