The most common type of kidney cancer in adults is renal cell carcinoma (RCC), which accounts for approximately 90% of cases. RCC is a variant disease with numerous subtypes; the most common subtype is clear cell RCC (ccRCC, 75%), followed by papillary RCC (pRCC, 10%) and chromophobe RCC (chRCC, 5%). To identify a genetic target for all subtypes, we analyzed The Cancer Genome Atlas (TCGA) databases of ccRCC, pRCC, and chromophobe RCC. Enhancer of zeste homolog 2 (EZH2), which encodes a methyltransferase, was observed to be significantly upregulated in tumors. The EZH2 inhibitor tazemetostat induced anticancer effects in RCC cells. TCGA analysis revealed that large tumor suppressor kinase 1 (LATS1), a key tumor suppressor of the Hippo pathway, was significantly downregulated in tumors; the expression of LATS1 was increased by tazemetostat. Through additional experiments, we confirmed that LATS1 plays a crucial role in EZH2 inhibition and has a negative association with EZH2. Therefore, we suggest that epigenetic control could be a novel therapeutic strategy for three subtypes of RCC.
Sunitinib, a VEGF blockade, is used to treat clear cell renal cell carcinoma (ccRCC). However, the anti-cancer treatment effects of sunitinib do not last long in ccRCC patients. Ginsenoside, a natural medicine extracted from ginseng, has been studied in cancer treatment and shown to have anti-tumor effects and low toxicity. We assessed cell viability and cell cycle analysis in ccRCC cell lines after treatment with ginsenoside and sunitinib. DNA damage was evaluated by measuring 8-OHdG levels and comet assay. ROS levels, reflecting the cause of oxidative stress, were also measured. Ginsenoside significantly enhanced the inhibition of cell viability by sunitinib, a result that was also confirmed in the xenograft model. In cell cycle analysis, combination treatment of ginsenoside and sunitinib enhanced G2M arrest in comparison with single-treatment groups. In addition, DNA damage was increased by ginsenoside and sunitinib according to the comet assay, and the level of 8-OHdG, which reflects oxidative DNA damage, also increased. We verified that ginsenoside enhances the efficacy of sunitinib to inhibit the proliferation of ccRCC cells via induction of oxidative DNA damage. The combination therapy of sunitinib and ginsenoside suggested the possibility of effectively treating ccRCC patients.
Purpose Urolithiasis is a common urinary tract disease with growing prevalence. Alpha1-adrenoceptors (α1-ARs) are abundant in ureteral smooth muscle, distributed with different α1-AR subtypes. α1D-AR is the most widely distributed in the ureter. However, the effect of α1D-AR blockade on ureteric contraction remains unknown. Materials and Methods We dissected smooth muscle tissues (3 mm×3 mm) from the rat bladder and human ureter, tied silk strips on both tissue ends, and measured contraction in an organ bath chamber. Contraction activity in ureteral smooth muscle cells (USMCs) was immunocytochemically examined using primary rat and human USMC cultures. Results Using the organ bath system, we determined the inhibitory effects of silodosin, tamsulosin, and naftopidil. Naftopidil significantly decreased contractility of rat bladder tissue; similar results were observed in human ureteral tissue. To confirm ex vivo experimental results in vitro , we examined the phosphorylation of myosin light chain (MLC), a marker of contractility, in a primary human USMC culture. The examined drugs decreased phospho-MLC levels in human USMCs; however, naftopidil profoundly increased MLC dephosphorylation. Conclusions We studied the effects of naftopidil, an α1D-AR inhibitor, on the ureter. Compared with alpha-blockers, naftopidil significantly relaxed ureteral smooth muscle. Therefore, naftopidil could be an effective therapy for patients with ureteral stones.
Sunitinib, a VEGF blockade, is used to treat clear cell renal cell carcinoma (ccRCC). However, the anti-cancer treatment effects of sunitinib do not last long in ccRCC patients. Ginsenoside, a natural medicine extracted from ginseng, has been studied in cancer treatment and shown to have anti-tumor effects and low toxicity. We assessed cell viability and cell cycle analysis in ccRCC cell lines after treatment with ginsenoside and sunitinib. DNA damage was evaluated by measuring 8-OHdG levels and comet assay. ROS levels, reflecting cause of oxidative stress, were also measured. Ginsenoside significantly enhanced the inhibition of cell viability by sunitinib, a result that was also confirmed in the xenograft model. In cell cycle analysis, combination treatment of ginsenoside and sunitinib enhanced G2M arrest in comparison with single-treatment groups. In addition, DNA damage was increased by ginsenoside and sunitinib according to the comet assay, and the level of 8-OHdG, which reflects oxidative DNA damage, also increased. We verified that ginsenoside enhances the efficacy of sunitinib to inhibit the proliferation of ccRCC cells via induction of oxidative DNA damage. The combination therapy of sunitinib and ginsenoside is an effective new treatment strategy for RCC patients.
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