Novel role of NOX in supporting aerobic glycolysis in cancer cells with mitochondrial dysfunction and as a potential target for cancer therapy
about
The sweet trap in tumors: aerobic glycolysis and potential targets for therapyIntracellular oxygen determined by respiration regulates localization of Ras and prenylated proteins.NOX1 supports the metabolic remodeling of HepG2 cellsApoptosis induction by 13-acetoxyrolandrolide through the mitochondrial intrinsic pathway.Cancer stem cell theory and the warburg effect, two sides of the same coin?Deficiency of metabolic regulator FGFR4 delays breast cancer progression through systemic and microenvironmental metabolic alterations.Genetic Evidence for XPC-KRAS Interactions During Lung Cancer DevelopmentMatrix metalloproteinase-3 causes dopaminergic neuronal death through Nox1-regenerated oxidative stressMitochondrial dysfunction in some triple-negative breast cancer cell lines: role of mTOR pathway and therapeutic potentialMitochondrial respiratory function induces endogenous hypoxia.Inhibition of lactate dehydrogenase activity as an approach to cancer therapy.Identification of NDUFAF1 in mediating K-Ras induced mitochondrial dysfunction by a proteomic screening approach.A novel IL-17 signaling pathway controlling keratinocyte proliferation and tumorigenesis via the TRAF4-ERK5 axis.Selective killing of K-ras-transformed pancreatic cancer cells by targeting NAD(P)H oxidase.ZNF143 transcription factor mediates cell survival through upregulation of the GPX1 activity in the mitochondrial respiratory dysfunction.Targeting cancer cell mitochondria as a therapeutic approach.Mitochondrial NDUFS3 regulates the ROS-mediated onset of metabolic switch in transformed cells.Radiation induces aerobic glycolysis through reactive oxygen species.Cancer as a metabolic disease: implications for novel therapeutics.Targeting of NAD metabolism in pancreatic cancer cells: potential novel therapy for pancreatic tumors.Mutant Kras- and p16-regulated NOX4 activation overcomes metabolic checkpoints in development of pancreatic ductal adenocarcinoma.Tumor glycolysis as a target for cancer therapy: progress and prospects.Interactions of ion transporters and channels with cancer cell metabolism and the tumour microenvironment.Nrf1 and Nrf2 transcription factors regulate androgen receptor transactivation in prostate cancer cellsROS in gastrointestinal inflammation: Rescue Or Sabotage?Therapeutic potential of NADPH oxidase 1/4 inhibitors.Interaction Between Gastric Carcinoma Cells and Neural Cells Promotes Perineural Invasion by a Pathway Involving VCAM1.Targeting reactive oxygen species in development and progression of pancreatic cancer.Combined incubation of colon carcinoma cells with phorbol ester and mitochondrial uncoupling agents results in synergic elevated reactive oxygen species levels and increased γ-glutamyltransferase expression.GPER modulators: Opportunity Nox on the heels of a class Akt.The contribution of N₂O₃ to the cytotoxicity of the nitric oxide donor DETA/NO: an emerging role for S-nitrosylation.Identification of NCF2/p67phox as a novel p53 target geneEnhanced Th2 cell differentiation and function in the absence of Nox2.Roles of Mitochondrial DNA Changes on Cancer Initiation and Progression.Correction: Novel Role of NOX in Supporting Aerobic Glycolysis in Cancer Cells with Mitochondrial Dysfunction and as a Potential Target for Cancer Therapy.Metabolic Reprogramming and Redox Signaling in Pulmonary Hypertension.Therapeutic potential of targeting glucose metabolism in glioma stem cells.Teaching the basics of reactive oxygen species and their relevance to cancer biology: Mitochondrial reactive oxygen species detection, redox signaling, and targeted therapies.A proteomic landscape of diffuse-type gastric cancer.Associations of the Polymorphisms in DHRS4, SERPING1, and APOR Genes with Postmortem pH in Berkshire Pigs.
P2860
Q26766079-18D1782A-B449-4EFF-AD45-E9E804B1F3FAQ27329552-AB238576-28CA-4249-BB0B-14B030F1C9D9Q28544991-88E86CC5-4CA9-471D-997B-EE9658AF5DC2Q33748016-C1B41947-45EC-4C13-ADE5-3111AFDF1D01Q33755908-1467C4C5-5849-4927-9D8F-A49267DF3696Q34258918-B548D5EA-8C7F-456A-836F-0C5136C96982Q34501246-FCFBCF20-5EC9-41C5-83AE-34AC0872E798Q34764783-B5D9C888-3863-48DC-B6AF-D3858F3FFFB0Q35000248-5BE72E59-429F-47BE-9256-CDAA4521DC71Q35106440-6B7399F6-FFBC-4BF5-86AC-70DF118155E5Q35122361-3D37E95C-B44D-4F60-B449-9DB16AF131EAQ35551914-7A4A95F6-317A-4C2F-B771-FFC06A55C8CAQ36080701-EBC3D20E-4E78-4AEE-82D7-481FCBE8CFC8Q36121107-F4CDC43C-E9EB-45A4-AE86-57484D7DD170Q36525103-5E5B0F02-509A-4741-B499-8BFCDBB85E17Q36655323-182FE238-1F51-408B-B24F-CB56CEBCC898Q36702313-12097643-B275-4892-BAF2-7C99A47DAB6FQ37163558-64E92D43-54A1-4009-A02A-7E7F4C3DAE9EQ37616057-5C9BEC67-C3D0-4F9B-976D-3DFE21F0A3F3Q37626233-84E82ED4-41C6-4BC6-8DA1-0A867B59BD6DQ37676353-BEF2BB11-2716-4D7B-A50B-5463311367C6Q38168262-CD218ED6-DC95-450D-A203-28AA6CB028A3Q38184981-36C684A2-40A1-4711-BA4B-68EF979CECCBQ38309430-7C79421C-4FC5-453B-AC0D-D418800E0E07Q38693962-9BC18096-0ECD-4369-BCE4-ED7DB08CB89BQ38858553-217CCD61-E47D-456C-8C29-564D6D9C87A6Q38860458-0D8AED72-57A1-428D-9660-B040448BCEA5Q39007517-AC446AB6-9A66-4E3A-AFBA-80EE7A842E8AQ39053766-C2E08096-B598-45DF-8C35-996F3E1053E3Q39174507-C188C182-DB7B-42DE-8072-7EE115853EB2Q39196011-4A52F356-A0DA-4CA6-8BAF-3D04FF5E2C7EQ39236998-DB8F149B-C30F-4AB7-9E5A-A65F5644ACB9Q40648691-A8FE010F-0AFE-48FC-90E5-C509B5A7F6EBQ42022492-E1DA37A4-6C92-4B54-9DF3-6876C8726362Q47118870-F692948A-BD87-4D8E-917F-FD2EF3D7CC2AQ47631019-D163ACC7-EC8E-47E0-9968-8785645EA6AEQ48628647-5F73FFD7-77E5-4DD5-90CE-4169ECB2701FQ49182137-EA48C9F6-1653-4C03-934E-2896F5BDD7E4Q52727768-3566AE7E-6577-41C4-A6AA-6BE941F5101BQ53111671-56C6DB7B-6287-4A37-8175-1861598775DF
P2860
Novel role of NOX in supporting aerobic glycolysis in cancer cells with mitochondrial dysfunction and as a potential target for cancer therapy
description
2012 nî lūn-bûn
@nan
2012 թուականին հրատարակուած գիտական յօդուած
@hyw
2012 թվականին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Novel role of NOX in supportin ...... tial target for cancer therapy
@ast
Novel role of NOX in supportin ...... tial target for cancer therapy
@en
Novel role of NOX in supportin ...... tial target for cancer therapy
@nl
type
label
Novel role of NOX in supportin ...... tial target for cancer therapy
@ast
Novel role of NOX in supportin ...... tial target for cancer therapy
@en
Novel role of NOX in supportin ...... tial target for cancer therapy
@nl
prefLabel
Novel role of NOX in supportin ...... tial target for cancer therapy
@ast
Novel role of NOX in supportin ...... tial target for cancer therapy
@en
Novel role of NOX in supportin ...... tial target for cancer therapy
@nl
P2093
P2860
P1433
P1476
Novel role of NOX in supportin ...... tial target for cancer therapy
@en
P2093
Helene Pelicano
Huamin Wang
Jinsong Liu
Peng Huang
Wallace McKeehan
P2860
P304
P356
10.1371/JOURNAL.PBIO.1001326
P407
P577
2012-01-01T00:00:00Z