Your search keyword '"Machida, Keigo"' showing total 4 results

1. The 2-oxoglutarate carrier promotes liver cancer by sustaining mitochondrial GSH despite cholesterol loading

Author

Centro de Investigación Biomédica en Red Enfermedades Hepáticas y Digestivas (España), Ministerio de Economía y Competitividad (España), National Institute on Alcohol Abuse and Alcoholism (US), National Institutes of Health (US), Generalitat de Catalunya, Consejo Superior de Investigaciones Científicas (España), Instituto de Salud Carlos III, European Commission, Baulies, Anna, Montero, Joan, Matías, Nuria, Insausti, Naroa, Terrones, Oihana, Basáñez, Gorka, Vallejo, Carmen, Conde de la Rosa, Laura, Martínez, Laura, Robles, David, Morales, Albert, Abián, Joaquín, Carrascal, Montserrat, Machida, Keigo, Kumar, Dinesh B.U., Tsukamoto, Hidekazu, Kaplowitz, Neil, García-Ruiz, Carmen, Fernández-Checa, José C., Centro de Investigación Biomédica en Red Enfermedades Hepáticas y Digestivas (España), Ministerio de Economía y Competitividad (España), National Institute on Alcohol Abuse and Alcoholism (US), National Institutes of Health (US), Generalitat de Catalunya, Consejo Superior de Investigaciones Científicas (España), Instituto de Salud Carlos III, European Commission, Baulies, Anna, Montero, Joan, Matías, Nuria, Insausti, Naroa, Terrones, Oihana, Basáñez, Gorka, Vallejo, Carmen, Conde de la Rosa, Laura, Martínez, Laura, Robles, David, Morales, Albert, Abián, Joaquín, Carrascal, Montserrat, Machida, Keigo, Kumar, Dinesh B.U., Tsukamoto, Hidekazu, Kaplowitz, Neil, García-Ruiz, Carmen, and Fernández-Checa, José C.

Abstract

Cancer cells exhibit mitochondrial cholesterol (mt-cholesterol) accumulation, which contributes to cell death resistance by antagonizing mitochondrial outer membrane (MOM) permeabilization. Hepatocellular mt-cholesterol loading, however, promotes steatohepatitis, an advanced stage of chronic liver disease that precedes hepatocellular carcinoma (HCC), by depleting mitochondrial GSH (mGSH) due to a cholesterol-mediated impairment in mGSH transport. Whether and how HCC cells overcome the restriction of mGSH transport imposed by mt-cholesterol loading to support mGSH uptake remains unknown. Although the transport of mGSH is not fully understood, SLC25A10 (dicarboxylate carrier, DIC) and SLC25A11 (2-oxoglutarate carrier, OGC) have been involved in mGSH transport, and therefore we examined their expression and role in HCC. Unexpectedly, HCC cells and liver explants from patients with HCC exhibit divergent expression of these mitochondrial carriers, with selective OGC upregulation, which contributes to mGSH maintenance. OGC but not DIC downregulation by siRNA depleted mGSH levels and sensitized HCC cells to hypoxia-induced ROS generation and cell death as well as impaired cell growth in three-dimensional multicellular HCC spheroids, effects that were reversible upon mGSH replenishment by GSH ethyl ester, a membrane permeable GSH precursor. We also show that OGC regulates mitochondrial respiration and glycolysis. Moreover, OGC silencing promoted hypoxia-induced cardiolipin peroxidation, which reversed the inhibition of cholesterol on the permeabilization of MOM-like liposomes induced by Bax or Bak. Genetic OGC knockdown reduced the ability of tumor-initiating stem-like cells to induce liver cancer. These findings underscore the selective overexpression of OGC as an adaptive mechanism of HCC to provide adequate mGSH levels in the face of mt-cholesterol loading and suggest that OGC may be a novel therapeutic target for HCC treatment.

Published

2018

2. TLR4 Signaling via NANOG Cooperates With STAT3 to Activate Twist1 and Promote Formation of Tumor-Initiating Stem-Like Cells in Livers of Mice.

Author

Uthaya Kumar, Dinesh Babu, Uthaya Kumar, Dinesh Babu, Chen, Chia-Lin, Liu, Jian-Chang, Feldman, Douglas E, Sher, Linda S, French, Samuel, DiNorcia, Joseph, French, Samuel W, Naini, Bita V, Junrungsee, Sunhawit, Agopian, Vatche Garen, Zarrinpar, Ali, Machida, Keigo, Uthaya Kumar, Dinesh Babu, Uthaya Kumar, Dinesh Babu, Chen, Chia-Lin, Liu, Jian-Chang, Feldman, Douglas E, Sher, Linda S, French, Samuel, DiNorcia, Joseph, French, Samuel W, Naini, Bita V, Junrungsee, Sunhawit, Agopian, Vatche Garen, Zarrinpar, Ali, and Machida, Keigo

Abstract

Background & aimsObesity and alcohol consumption contribute to steatohepatitis, which increases the risk for hepatitis C virus (HCV)-associated hepatocellular carcinomas (HCCs). Mouse hepatocytes that express HCV-NS5A in liver up-regulate the expression of Toll-like receptor 4 (TLR4), and develop liver tumors containing tumor-initiating stem-like cells (TICs) that express NANOG. We investigated whether the TLR4 signals to NANOG to promote the development of TICs and tumorigenesis in mice placed on a Western diet high in cholesterol and saturated fat (HCFD).MethodsWe expressed HCV-NS5A from a transgene (NS5A Tg) in Tlr4-/- (C57Bl6/10ScN), and wild-type control mice. Mice were fed a HCFD for 12 months. TICs were identified and isolated based on being CD133+, CD49f+, and CD45-. We obtained 142 paraffin-embedded sections of different stage HCCs and adjacent nontumor areas from the same patients, and performed gene expression, immunofluorescence, and immunohistochemical analyses.ResultsA higher proportion of NS5A Tg mice developed liver tumors (39%) than mice that did not express HCV NS5A after the HCFD (6%); only 9% of Tlr4-/- NS5A Tg mice fed HCFD developed liver tumors. Livers from NS5A Tg mice fed the HCFD had increased levels of TLR4, NANOG, phosphorylated signal transducer and activator of transcription (pSTAT3), and TWIST1 proteins, and increases in Tlr4, Nanog, Stat3, and Twist1 messenger RNAs. In TICs from NS5A Tg mice, NANOG and pSTAT3 directly interact to activate expression of Twist1. Levels of TLR4, NANOG, pSTAT3, and TWIST were increased in HCC compared with nontumor tissues from patients.ConclusionsHCFD and HCV-NS5A together stimulated TLR4-NANOG and the leptin receptor (OB-R)-pSTAT3 signaling pathways, resulting in liver tumorigenesis through an exaggerated mesenchymal phenotype with prominent Twist1-expressing TICs.

Published

2016

3. TLR4 Signaling via NANOG Cooperates With STAT3 to Activate Twist1 and Promote Formation of Tumor-Initiating Stem-Like Cells in Livers of Mice.

Author

Uthaya Kumar, Dinesh Babu, Uthaya Kumar, Dinesh Babu, Chen, Chia-Lin, Liu, Jian-Chang, Feldman, Douglas E, Sher, Linda S, French, Samuel, DiNorcia, Joseph, French, Samuel W, Naini, Bita V, Junrungsee, Sunhawit, Agopian, Vatche Garen, Zarrinpar, Ali, Machida, Keigo, Uthaya Kumar, Dinesh Babu, Uthaya Kumar, Dinesh Babu, Chen, Chia-Lin, Liu, Jian-Chang, Feldman, Douglas E, Sher, Linda S, French, Samuel, DiNorcia, Joseph, French, Samuel W, Naini, Bita V, Junrungsee, Sunhawit, Agopian, Vatche Garen, Zarrinpar, Ali, and Machida, Keigo

Abstract

Background & aimsObesity and alcohol consumption contribute to steatohepatitis, which increases the risk for hepatitis C virus (HCV)-associated hepatocellular carcinomas (HCCs). Mouse hepatocytes that express HCV-NS5A in liver up-regulate the expression of Toll-like receptor 4 (TLR4), and develop liver tumors containing tumor-initiating stem-like cells (TICs) that express NANOG. We investigated whether the TLR4 signals to NANOG to promote the development of TICs and tumorigenesis in mice placed on a Western diet high in cholesterol and saturated fat (HCFD).MethodsWe expressed HCV-NS5A from a transgene (NS5A Tg) in Tlr4-/- (C57Bl6/10ScN), and wild-type control mice. Mice were fed a HCFD for 12 months. TICs were identified and isolated based on being CD133+, CD49f+, and CD45-. We obtained 142 paraffin-embedded sections of different stage HCCs and adjacent nontumor areas from the same patients, and performed gene expression, immunofluorescence, and immunohistochemical analyses.ResultsA higher proportion of NS5A Tg mice developed liver tumors (39%) than mice that did not express HCV NS5A after the HCFD (6%); only 9% of Tlr4-/- NS5A Tg mice fed HCFD developed liver tumors. Livers from NS5A Tg mice fed the HCFD had increased levels of TLR4, NANOG, phosphorylated signal transducer and activator of transcription (pSTAT3), and TWIST1 proteins, and increases in Tlr4, Nanog, Stat3, and Twist1 messenger RNAs. In TICs from NS5A Tg mice, NANOG and pSTAT3 directly interact to activate expression of Twist1. Levels of TLR4, NANOG, pSTAT3, and TWIST were increased in HCC compared with nontumor tissues from patients.ConclusionsHCFD and HCV-NS5A together stimulated TLR4-NANOG and the leptin receptor (OB-R)-pSTAT3 signaling pathways, resulting in liver tumorigenesis through an exaggerated mesenchymal phenotype with prominent Twist1-expressing TICs.

Published

2016

4. Necrostatin-1 protects against reactive oxygen species (ROS)-induced hepatotoxicity in acetaminophen-induced acute liver failure

Author

70646546, 80378629, 40252449, Takemoto, Kenji, Hatano, Etsuro, Iwaisako, Keiko, Takeiri, Masatoshi, Noma, Naruto, Ohmae, Saori, Toriguchi, Kan, Tanabe, Kazutaka, Tanaka, Hirokazu, Seo, Satoru, Taura, Kojiro, Machida, Keigo, Takeda, Norihiko, Saji, Shigehira, Uemoto, Shinji, Asagiri, Masataka, 70646546, 80378629, 40252449, Takemoto, Kenji, Hatano, Etsuro, Iwaisako, Keiko, Takeiri, Masatoshi, Noma, Naruto, Ohmae, Saori, Toriguchi, Kan, Tanabe, Kazutaka, Tanaka, Hirokazu, Seo, Satoru, Taura, Kojiro, Machida, Keigo, Takeda, Norihiko, Saji, Shigehira, Uemoto, Shinji, and Asagiri, Masataka

Abstract

Excessive acetaminophen (APAP) use is one of the most common causes of acute liver failure. Various types of cell death in the damaged liver are linked to APAP-induced hepatotoxicity, and, of these, necrotic cell death of hepatocytes has been shown to be involved in disease pathogenesis. Until recently, necrosis was commonly considered to be a random and unregulated form of cell death; however, recent studies have identified a previously unknown form of programmed necrosis called receptor-interacting protein kinase (RIPK)-dependent necrosis (or necroptosis), which is controlled by the kinases RIPK1 and RIPK3. Although RIPK-dependent necrosis has been implicated in a variety of disease states, including atherosclerosis, myocardial organ damage, stroke, ischemia–reperfusion injury, pancreatitis, and inflammatory bowel disease. However its involvement in APAP-induced hepatocyte necrosis remains elusive. Here, we showed that RIPK1 phosphorylation, which is a hallmark of RIPK-dependent necrosis, was induced by APAP, and the expression pattern of RIPK1 and RIPK3 in the liver overlapped with that of CYP2E1, whose activity around the central vein area has been demonstrated to be critical for the development of APAP-induced hepatic injury. Moreover, a RIPK1 inhibitor ameliorated APAP-induced hepatotoxicity in an animal model, which was underscored by significant suppression of the release of hepatic enzymes and cytokine expression levels. RIPK1 inhibition decreased reactive oxygen species levels produced in APAP-injured hepatocytes, whereas CYP2E1 expression and the depletion rate of total glutathione were unaffected. Of note, RIPK1 inhibition also conferred resistance to oxidative stress in hepatocytes. These data collectively demonstrated a RIPK-dependent necrotic mechanism operates in the APAP-injured liver and inhibition of this pathway may be beneficial for APAP-induced fulminant hepatic failure.

Published

2014