Abstract
BackgroundThe processes of prostate cancer (PCa) invasion and metastasis are facilitated by proteolytic cascade involving multiple proteases, such as matrix metalloproteinases, serine proteases and cysteine proteases including cathepsin K (CatK). CatK is predominantly secreted by osteoclasts and specifically degrades collagen I leading to bone destruction. PCa and breast cancer preferentially metastasize to the bone. Importantly, CatK expression level is greater in PCa bone metastatic sites compared to primary tumor and normal prostate tissues. However, the underlying mechanism of CatK during PCa metastases into the bone remains to be elucidated. We investigated the functional role of CatK during the PCa establishment and growth process in the murine bone.MethodsCatK mRNA expression was validated by RT-PCR, protein expression by immunoblotting in PCa LNCaP, C4-2B, and PC3 cells as well as in PCa tissues. Its protein production was measured using ELISA assay. The effect of both knockdowns via siRNA and CatK inhibitor was compared in regard to PCa cell invasion. We further studied the dose-dependent CatK inhibitor effect on conditioned media-induced bone resorption. In setting up an animal model, C4-2B cells were injected into the tibiae of SCID mice. The animals treated with either vehicle or CatK inhibitor for 8 weeks at the time of tumor cell injection (tumor establishment model; protocol I) or 4 weeks after tumor cell injection (tumor progression model; protocol II) were applied to histological and histomorphometric analyses.ResultsWe confirmed CatK expression in PCa LNCaP, C4-2B, and PC3 cells as well as in PCa tissues. Furthermore, we observed the inhibitory effects of a selective CatK inhibitor on PCa cell invasion. The CatK inhibitor dose-dependently inhibited PCa-conditioned media-induced bone resorption. Upon injection of C4-2B cells into the tibiae of SCID mice, the selective CatK inhibitor significantly prevented the tumor establishment in protocol I, and reduced the tumor growth in bone in protocol II. It also decreased serum PSA levels in both animal models. The inhibitory effects of the CatK inhibitor were enhanced in combination with zoledronic acid (ZA).ConclusionThe selective CatK inhibitor may prevent the establishment and progression of PCa in bone, thus making it a novel therapeutic approach for advanced PCa.
Highlights
The skeleton is the most common site of metastatic disease after lung and liver
We found that C4-2B cells (C4-2B cells were derived from LNCaP cells but with characteristics of bone metastasis) expressed higher levels of cathepsin K (CatK) mRNA than LNCaP and Prostate epithelial cells (PrEC) cells
C4-2B cells expressed greater levels of CatK protein than LNCaP cells, to a degree that CatK was detectable in the Conditioned media (CM) of prostate cancer (PCa) cells
Summary
The skeleton is the most common site of metastatic disease after lung and liver. Bone metastasis is more prevalent than primary bone tumors and remains a major cause of cancer death (Jayarangaiah and Theetha Kariyanna 2018). CatK expression level is greater in PCa bone metastatic sites compared to primary tumor and normal prostate tissues. Its protein production was measured using ELISA assay The effect of both knockdowns via siRNA and CatK inhibitor was compared in regard to PCa cell invasion. We further studied the dose-dependent CatK inhibitor effect on conditioned media-induced bone resorption. Upon injection of C4-2B cells into the tibiae of SCID mice, the selective CatK inhibitor significantly prevented the tumor establishment in protocol I, and reduced the tumor growth in bone in protocol II. It decreased serum PSA levels in both animal models. Conclusion The selective CatK inhibitor may prevent the establishment and progression of PCa in bone, making it a novel therapeutic approach for advanced PCa
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