Targeting PSMD14 inhibits melanoma growth through SMAD3 stabilization.

Although melanoma therapy is improved by novel molecular targeted reagents, including vemurafenib, aberrant proliferation and early metastasis remain obstacles for melanoma; therefore, novel target molecules for melanoma need to be identified. In this study, we focused on deubiquitinating enzymes, which regulate protein stability through ubiquitin-proteasome systems, and identified 26S proteasome non-ATPase regulatory subunit 14 (PSMD14) as a molecule related to melanoma growth using siRNA library screening. Similar to a previous report, PSMD14 knockdown strongly induced p21 expression and inhibited RB phosphorylation in melanoma. After in silico analysis, TGF-ß signaling was identified as a negatively correlated gene set with PSMD14 expression. Although TGF-ß signaling is also related to the invasive phenotype of melanoma, PSMD14 knockdown suppressed melanoma migration and reduced SLUG expression, suggesting that targeting PSMD14 suppresses both growth and migration. Furthermore, SMAD3 expression increased in nucleus and SMAD3 degradation was delayed after PSMD14 knockdown. Thus, our present study suggests that targeting PSMD14 can inhibit melanoma growth and migration through either SMAD3 accumulation or SLUG reduction, respectively.

Procyanidin C1 from Cinnamomi Cortex inhibits TGF-ß-induced epithelial-to-mesenchymal transition in the A549 lung cancer cell line.

Cancer metastasis is one of the most critical events in cancer patients, and the median overall survival of stage IIIb or IV patients with metastatic lung cancer in the TNM classification is only 8 or 5 months, respectively. We previously demonstrated that Juzentaihoto, a Japanese traditional medicine, can inhibit cancer metastasis through the activation of macrophages and T cells in mouse cancer metastatic models; however, the mechanism(s) through which Juzentaihoto directly affects tumor cells during the metastasis process and which herbal components from Juzentaihoto inhibit the metastatic potential have not been elucidated. In this study, we focused on the epithelial-to-mesenchymal transition (EMT), which plays an important role in the formation of cancer metastasis. We newly determined that only the Cinnamomi Cortex (CC) extract, one of 10 herbal components of Juzentaihoto, inhibits TGF-ß-induced EMT. Moreover, the contents of catechin trimer in CC extracts were significantly correlated with the efficacy of inhibiting TGF-ß-induced EMT. Finally, the structure of the catechin trimer from CC extract was chemically identified as procyanidin C1 and the compound showed inhibitory activity against TGF-ß-induced EMT. This illustrates that procyanidin C1 is the main active compound in the CC extract responsible for EMT inhibition and that procyanidin C1 could be useful as a lead compound to develop inhibitors of cancer metastasis and other diseases related to EMT.