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Full-Text Articles in Medicine and Health Sciences
Deubiquitinase Usp47/Ubp64e Regulates Β-Catenin Ubiquitination And Degradation And Plays A Positive Role In Wnt Signaling, Jiandang Shi, Yajuan Liu, Xuehe Xu, Wen Zhang, Tianxin Yu, Jianhang Jia, Chunming Liu
Deubiquitinase Usp47/Ubp64e Regulates Β-Catenin Ubiquitination And Degradation And Plays A Positive Role In Wnt Signaling, Jiandang Shi, Yajuan Liu, Xuehe Xu, Wen Zhang, Tianxin Yu, Jianhang Jia, Chunming Liu
Markey Cancer Center Faculty Publications
Wnt signaling plays important roles in development and tumorigenesis. A central question about the Wnt pathway is the regulation of β-catenin. Phosphorylation of β-catenin by CK1α and GSK3 promotes β-catenin binding to β-TrCP, leading to β-catenin degradation through the proteasome. The phosphorylation and ubiquitination of β-catenin have been well characterized; however, it is unknown whether and how a deubiquitinase is involved. In this study, by screening RNA interference (RNAi) libraries, we identified USP47 as a deubiquitinase that prevents β-catenin ubiquitination. Inactivation of USP47 by RNAi increased β-catenin ubiquitination, attenuated Wnt signaling, and repressed cancer cell growth. Furthermore, USP47 deubiquitinates itself, …
Chaperone Hsp47 Drives Malignant Growth And Invasion By Modulating An Ecm Gene Network, Jieqing Zhu, Gaofeng Xiong, Hanjiang Fu, B. Mark Evers, Binhua P. Zhou, Ren Xu
Chaperone Hsp47 Drives Malignant Growth And Invasion By Modulating An Ecm Gene Network, Jieqing Zhu, Gaofeng Xiong, Hanjiang Fu, B. Mark Evers, Binhua P. Zhou, Ren Xu
Markey Cancer Center Faculty Publications
The extracellular matrix (ECM) is a determining factor in the tumor microenvironment that restrains or promotes malignant growth. In this report, we show how the molecular chaperone protein Hsp47 functions as a nodal hub in regulating an ECM gene transcription network. A transcription network analysis showed that Hsp47 expression was activated during breast cancer development and progression. Hsp47 silencing reprogrammed human breast cancer cells to form growth-arrested and/or noninvasive structures in 3D cultures, and to limit tumor growth in xenograft assays by reducing deposition of collagen and fibronectin. Coexpression network analysis also showed that levels of microRNA(miR)-29b and -29c were …
Metabolic Reprogramming Of Cancer-Associated Fibroblasts By Idh3Α Downregulation, Daoxiang Zhang, Yongbin Wang, Zhimin Shi, Jingyi Liu, Pan Sun, Xiaodan Hou, Jian Zhang, Shimin Zhao, Binhua P. Zhou, Jun Mi
Metabolic Reprogramming Of Cancer-Associated Fibroblasts By Idh3Α Downregulation, Daoxiang Zhang, Yongbin Wang, Zhimin Shi, Jingyi Liu, Pan Sun, Xiaodan Hou, Jian Zhang, Shimin Zhao, Binhua P. Zhou, Jun Mi
Markey Cancer Center Faculty Publications
Cancer-associated fibroblasts (CAFs) provide critical metabolites for tumor growth and undergo metabolic reprogramming to support glycolysis. However, the molecular mechanisms responsible for this change remain unclear. Here, we report that TGF-β1- or PDGF-induced CAFs switch from oxidative phosphorylation to aerobic glycolysis. We identify downregulation of isocitrate dehydrogenase 3α (IDH3α) as a marker for this switch. Furthermore, miR-424 downregulates IDH3α during CAF formation. Downregulation of IDH3α decreases the effective level of α-ketoglutarate (α-KG) by reducing the ratio of α-KG to fumarate and succinate, resulting in PHD2 inhibition and HIF-1α protein stabilization. The accumulation of HIF-1α, in turn, promotes glycolysis by increasing …
Tsc2/Mtorc1 Signaling Controls Paneth And Goblet Cell Differentiation In The Intestinal Epithelium, Y. Zhou, Piotr G. Rychahou, Q. Wang, Heidi L. Weiss, B. Mark Evers
Tsc2/Mtorc1 Signaling Controls Paneth And Goblet Cell Differentiation In The Intestinal Epithelium, Y. Zhou, Piotr G. Rychahou, Q. Wang, Heidi L. Weiss, B. Mark Evers
Markey Cancer Center Faculty Publications
The intestinal mucosa undergoes a continual process of proliferation, differentiation and apoptosis, which is regulated by multiple signaling pathways. Notch signaling is critical for the control of intestinal stem cell maintenance and differentiation. However, the precise mechanisms involved in the regulation of differentiation are not fully understood. Previously, we have shown that tuberous sclerosis 2 (TSC2) positively regulates the expression of the goblet cell differentiation marker, MUC2, in intestinal cells. Using transgenic mice constitutively expressing a dominant negative TSC2 allele, we observed that TSC2 inactivation increased mTORC1 and Notch activities, and altered differentiation throughout the intestinal epithelium, with a marked …