Antitumor Effect of the Human Immunodeficiency Virus Protease Inhibitor Ritonavir: Induction of Tumor-Cell Apoptosis Associated with Perturbation of Proteasomal Proteolysis

EMT and Cancer Progression and Treatment

Experimental Therapeutics

Antitumor Effect of the Human Immunodeficiency Virus Protease Inhibitor Ritonavir

Induction of Tumor-Cell Apoptosis Associated with Perturbation of Proteasomal Proteolysis

Simone Gaedicke, Elke Firat-Geier, Oana Constantiniu, Maria Lucchiari-Hartz, Marina Freudenberg, Chris Galanos and Gabriele Niedermann¹

Department of Cellular Immunology (S. G., E. F-G., O. C., M. L-H., G. N.), and Microbiology/Medical Unit (M. F., C. G.), Max-Planck Institute of Immunobiology, D-79108 Freiburg, Germany

Ritonavir is an HIV protease inhibitor used in the therapy ofHIV infection. Ritonavir has also been shown to inhibit thechymotrypsin-like activity of isolated 20S proteasomes. Here,we demonstrate that ritonavir, like classical proteasome inhibitors,has antitumoral activities. In vitro, ritonavir strongly reducedthe rate of proliferation of several tumor cell lines and inducedtheir apoptosis. Nontransformed cell lines and terminally differentiatedbone-marrow macrophages were comparatively resistant to theapoptosis-inducing effect. In vivo, ritonavir, administeredp.o. for a week at doses of 6–8.8 mg/mouse/day, causedsignificant growth inhibition (76–79% after 7 days oftreatment) of established EL4-T cell thymomas growing s.c. insyngeneic C57BL/6 mice. Unexpectedly, we found that ritonaviractivates the chymotrypsin-like activity of isolated 26S proteasomes,in strong contrast to its effect on isolated 20S proteasomes.The net effect of low micromolar concentrations of ritonaviron the chymotrypsin-like activity in cells and cell lysateswas a weak inhibition, consistent with marginal alterationsof polyubiquitinated proteins, marginal alterations in acid-solubleproteolytic peptide levels, and a small accumulation of thetumor suppressor protein p53, in cells treated with ritonavir.In contrast, we found a relatively strong accumulation of thecyclin-dependent kinase inhibitor p21^WAF-1, a sign of deregulationof cell-cycle progression typical for apoptosis induction intransformed cells by classical proteasome inhibitors. We demonstratethat p21 accumulation in the presence of ritonavir is attributableto the inhibition of proteolytic degradation. Accumulation ofp21 most likely reflects a selective inhibition of proteasomes,in line with the atypical degradation of p21, which does notrequire ubiquitination. These findings suggest that selectiveperturbation of proteasomal protein degradation may play a rolein the antitumoral activities of ritonavir.

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