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Experimental Therapeutics, Preclinical Pharmacology |
Departments of Cancer Biology [J. C. P., S. R., D. J. M.] and Leukemia [I. N., M. K., S. F.], and Section of Experimental and Molecular Hematology [L. R. C., M. A.], The University of Texas M. D. Anderson Cancer Center, Houston Texas 77030
Purpose: Bortezomib is a peptide boronic acid inhibitor of the proteasome developed for cancer therapy. The compound is being evaluated currently in Phase II and III clinical trials. Here we characterized the effects and mechanisms of action of bortezomib in cells obtained from patients with chronic lymphocytic leukemia (CLL).
Experimental Design: We exposed isolated CLL lymphocytes from >100 patients to various concentrations of bortezomib or other proapoptotic stimuli, and measured DNA fragmentation by propidium iodide staining and flow cytometry. We characterized the effects of bortezomib on release of apoptosis-associated mitochondrial factors and measured downstream effects on caspase activation using a fluorogenic substrate cleavage assay. We assessed potential effects of the drug on inhibitor of apoptosis protein family apoptosis inhibitors by immunoblotting. Finally, we quantified the effects of bortezomib on apoptosis in 5 patients on a Phase II clinical trial.
Results: Bortezomib stimulated apoptosis more rapidly than positive controls (glucocorticoid and fludarabine), although substantial heterogeneity was noted with respect to the concentration of drug required to induce cell death. Bortezomib-induced apoptosis was associated with release of SMAC, apoptosis-inducing factor, and cytochrome c from mitochondria, but the drug did not affect levels of inhibitor of apoptosis protein family cell death inhibitors. Levels of apoptosis were marginally elevated in CLL cells obtained from 2 of 5 fludarabine-refractory patients treated with bortezomib in vivo.
Conclusion: Our data confirm that bortezomib, like other proteasome inhibitors, has proapoptotic activity in CLL cells.
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