Kaori Yuuki scite author profile

BACKGROUND: Renal cell carcinoma (RCC) is highly resistant to chemotherapy because of a high apoptotic threshold. Recent evidences suggest that GSK-3b positively regulates human pancreatic cancer and leukaemia cell survival in part through regulation of nuclear factor (NF-kB)-mediated expression of anti-apoptotic molecules. Our objectives were to determine the expression pattern of GSK-3b and to assess the anti-cancer effect of GSK-3b inhibition in RCC. METHODS: Immunohistochemistry and nuclear/cytosolic fractionation were performed to determine the expression pattern of GSK-3b in human RCCs. We used small molecule inhibitor, RNA interference, western blotting, quantitative RT -PCR, BrDU incorporation and MTS assays to study the effect of GSK-3b inactivation on renal cancer cell proliferation and survival. RESULTS: We detected aberrant nuclear accumulation of GSK-3b in RCC cell lines and in 68 out of 74 (91.89%) human RCCs. We found that pharmacological inhibition of GSK-3 led to a decrease in proliferation and survival of renal cancer cells. We observed that inhibition of GSK-3 results in decreased expression of NF-kB target genes Bcl-2 and XIAP and a subsequent increase in renal cancer cell apoptosis. Moreover, we show that GSK-3 inhibitor and Docetaxel synergistically suppress proliferation and survival of renal cancer cells. CONCLUSIONS: Our results show nuclear accumulation of GSK-3b as a new marker of human RCC, identify that GSK-3 positively regulates RCC cell survival and proliferation and suggest inhibition of GSK-3 as a new promising approach in the treatment of human renal cancer.

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Glycogen Synthase Kinase-3β: A Prognostic Marker and a Potential Therapeutic Target in Human Bladder Cancer

Naito

Bilim

Yuuki

et al. 2010

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Purpose: Although recent studies have shown glycogen synthase kinase-3β (GSK-3β), a serine/threonine kinase, as a positive regulator of pancreatic, colon, and kidney cancer cell survival and proliferation, the role of GSK-3 in bladder cancer remains unknown. Our objectives were to determine the subcellular localization of GSK-3β and to evaluate the effect of GSK-3 inhibition in bladder cancer.Experimental Design: We used immunohistochemical staining and nuclear/cytosolic fractionation to determine the expression pattern of GSK-3β in human urothelial carcinomas. To study the effect of GSK-3 inhibition on bladder cancer cell proliferation and survival, we used pharmacologic inhibitors of GSK-3, RNA interference, MTS assay, bromodeoxyuridine incorporation assay, quantitative reverse transcriptase-PCR, and Western blotting.Results: We found aberrant nuclear accumulation of GSK-3β in 62% (43 of 69) and 91% (21 of 23) of noninvasive and invasive human urothelial carcinomas, respectively. GSK-3β nuclear staining was significantly associated with high-grade tumors (P < 0.001), advanced stage of bladder cancer (P < 0.05), metastasis (P < 0.05), and worse cause-specific survival (P < 0.05) in bladder cancer patients. Moreover, we found that pharmacologic inhibition or genetic depletion of GSK-3β resulted in decreased viability of bladder cancer cells.Conclusions: Our results suggest nuclear accumulation of GSK-3β as a novel prognostic marker in bladder cancer, show that GSK-3 contributes to urothelial cancer cell proliferation and survival, and identify GSK-3 as a potential therapeutic target in human bladder cancer.

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Re-expression of miR-199a suppresses renal cancer cell proliferation and survival by targeting GSK-3β

et al. 2012

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Double inhibition of XIAP and Bcl-2 axis is beneficial for retrieving sensitivity of renal cell cancer to apoptosis

et al. 2008

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Renal cell carcinoma (RCC) is known to be resistant to chemo-and radiotherapy due to a high apoptotic threshold. Smac and XIAP (X-linked inhibitor of apoptosis protein) proteins were detected in all RCC cell lines and tissue samples examined. We modulated the function of XIAP, either through its constitutional downregulation with an shRNA vector or by applying a Smac-mimicking peptide. Among RCC cell lines, Caki1 expresses the highest levels of XIAP. We transfected Caki1 with XIAP-targeting shRNA vector and generated stable clones. XIAP was knocked down by RNA interference in clone no. 14 by 81.6% and in clone no. 19 by 85.3%. Compared to the parental and mock-transfected cells, neither clone was more sensitive to conventional chemotherapeutic agents, but both clones were more susceptible to Fas stimulation (Po0.0001) and to pharmacological Bcl-2 inhibition (Po0.0001), as well as to a combination of the two (Po0.0001). Mature Smac binds to XIAP via the N-terminal residues, disrupting its interaction with caspases and promoting their activity. We determined that exposure of Caki1 cells to Smac-N7 peptide (AVPIAQK) resulted in a slight but significant decrease in viability (P ¼ 0.0031) and potentiated cisplatin's effect (P ¼ 0.0027). In contrast with point targeting of XIAP by shRNA, Smac-N7 peptide is active against several IAP (inhibitor of apoptosis protein) family members, which can explain its role in sensitising cells to cisplatin. Our results suggest that multiple targeting of both Bcl-2 and XIAP or, alternatively, of several IAP family members by the Smac-N7 peptide is a potent way to overcome resistance of RCC to apoptosis-triggering treatment modalities, and might be a new tool for molecular targeted therapy.

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Kaori Yuuki

Glycogen synthase kinase-3: a new therapeutic target in renal cell carcinoma

Glycogen Synthase Kinase-3β: A Prognostic Marker and a Potential Therapeutic Target in Human Bladder Cancer

Re-expression of miR-199a suppresses renal cancer cell proliferation and survival by targeting GSK-3β

Double inhibition of XIAP and Bcl-2 axis is beneficial for retrieving sensitivity of renal cell cancer to apoptosis

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