Abstract
Cathepsin D (Cat D) is well known for its roles in metastasis, angiogenesis, proliferation, and carcinogenesis in cancer. Despite Cat D being a promising target in cancer cells, effects and underlying mechanism of its inhibition remain unclear. Here, we investigated the plausibility of using Cat D inhibition as an adjuvant or sensitizer for enhancing anticancer drug-induced apoptosis. Inhibition of Cat D markedly enhanced anticancer drug-induced apoptosis in human carcinoma cell lines and xenograft models. The inhibition destabilized Bcl-xL through upregulation of the expression of RNF183, an E3 ligase of Bcl-xL, via NF-κB activation. Furthermore, Cat D inhibition increased the proteasome activity, which is another important factor in the degradation of proteins. Cat D inhibition resulted in p62-dependent activation of Nrf2, which increased the expression of proteasome subunits (PSMA5 and PSMB5), and thereby, the proteasome activity. Overall, Cat D inhibition sensitized cancer cells to anticancer drugs through the destabilization of Bcl-xL. Furthermore, human renal clear carcinoma (RCC) tissues revealed a positive correlation between Cat D and Bcl-xL expression, whereas RNF183 and Bcl-xL expression indicated inverse correlation. Our results suggest that inhibition of Cat D is promising as an adjuvant or sensitizer for enhancing anticancer drug-induced apoptosis in cancer cells.
Highlights
Combination therapy has several advantages over monotherapy in the treatment of cancers
Cathepsin D (Cat D) is highly expressed in renal tumor tissue First, we assessed protein expression of Cat D was detected in 40 paired human renal carcinoma and adjacent normal kidney tissue samples
Cat D inhibition by pepstatin A (Pep A) sensitized cancer cells to cell death induced by sublethal dosages of several anticancer drugs (Fig. 1D)
Summary
Combination therapy has several advantages over monotherapy in the treatment of cancers. Synergistic combination therapy maximizes the effects of anticancer drugs, such as induction of cell death and inhibition of tumor growth and metastatic ability, and reduces their side effects [1, 2]. Cisplatin is a standard treatment for several cancers, such as ovarian, cervical, and head and neck cancers and lymphoma [3]; it has severe toxic side effects and increases cisplatin resistance in cancer cells [4, 5]. To mitigate such effects, cisplatin is administered in combination with other anticancer drugs, such as doxorubicin, paclitaxel, and gemcitabine [3]. Combination treatment reduces the development of drug resistance and enhances the anticancer effects [8]. Various combination therapies are currently being used for cancer treatment and several others are under preclinical and clinical investigations
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