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Publications indexed to the term Glycolysis

FacultyTitle
2FOXM1 regulates glycolysis and energy production in multiple myeloma. (Cheng Y, Sun F, Thornton K, Jing X, Dong J, Yun G, Pisano M, Zhan F, Kim SH, Katzenellenbogen JA, Katzenellenbogen BS, Hari P, Janz S) Oncogene 2022 Aug;41(32):3899-3911       16 Citations
2AMPK-deficiency forces metformin-challenged cancer cells to switch from carbohydrate metabolism to ketogenesis to support energy metabolism. (Palma FR, Ratti BA, Paviani V, Coelho DR, Miguel R, Danes JM, Zaichik SV, de Abreu AL, Silva SO, Chen Y, Silverstein RL, Karan U, Jones DP, Bonini MG) Oncogene 2021 Sep;40(36):5455-5467       12 Citations
1Inhibition of oxidative metabolism by nitric oxide restricts EMCV replication selectively in pancreatic beta-cells. (Stafford JD, Yeo CT, Corbett JA) J Biol Chem 2020 Dec 25;295(52):18189-18198       7 Citations
2Knockout of VDAC1 in H9c2 Cells Promotes Oxidative Stress-Induced Cell Apoptosis through Decreased Mitochondrial Hexokinase II Binding and Enhanced Glycolytic Stress. (Yang M, Sun J, Stowe DF, Tajkhorshid E, Kwok WM, Camara AKS) Cell Physiol Biochem 2020 Sep 09;54(5):853-874       10 Citations
4p38γ MAPK Is Essential for Aerobic Glycolysis and Pancreatic Tumorigenesis. (Wang F, Qi XM, Wertz R, Mortensen M, Hagen C, Evans J, Sheinin Y, James M, Liu P, Tsai S, Thomas J, Mackinnon A, Dwinell M, Myers CR, Bartrons Bach R, Fu L, Chen G) Cancer Res 2020 Aug 15;80(16):3251-3264       41 Citations
1Metal-independent variants of phosphoglycerate mutase promote resistance to nutritional immunity and retention of glycolysis during infection. (Radin JN, Kelliher JL, Solórzano PKP, Grim KP, Ramezanifard R, Slauch JM, Kehl-Fie TE) PLoS Pathog 2019 Jul;15(7):e1007971       23 Citations
3The Role of Metabolic Flexibility in the Regulation of the DNA Damage Response by Nitric Oxide. (Oleson BJ, Broniowska KA, Yeo CT, Flancher M, Naatz A, Hogg N, Tarakanova VL, Corbett JA) Mol Cell Biol 2019 Sep 15;39(18)       12 Citations
3Mitochondrial Oxidative Phosphorylation defect in the Heart of Subjects with Coronary Artery Disease. (Ait-Aissa K, Blaszak SC, Beutner G, Tsaih SW, Morgan G, Santos JH, Flister MJ, Joyce DL, Camara AKS, Gutterman DD, Donato AJ, Porter GA Jr, Beyer AM) Sci Rep 2019 May 20;9(1):7623       58 Citations
2miR-21-5p regulates mitochondrial respiration and lipid content in H9C2 cells. (Nasci VL, Chuppa S, Griswold L, Goodreau KA, Dash RK, Kriegel AJ) Am J Physiol Heart Circ Physiol 2019 Mar 01;316(3):H710-H721       34 Citations
1A Screen Using iPSC-Derived Hepatocytes Reveals NAD+ as a Potential Treatment for mtDNA Depletion Syndrome. (Jing R, Corbett JL, Cai J, Beeson GC, Beeson CC, Chan SS, Dimmock DP, Lazcares L, Geurts AM, Lemasters JJ, Duncan SA) Cell Rep 2018 Nov 06;25(6):1469-1484.e5       37 Citations
2YAP1-TEAD1 signaling controls angiogenesis and mitochondrial biogenesis through PGC1α. (Mammoto A, Muyleart M, Kadlec A, Gutterman D, Mammoto T) Microvasc Res 2018 Sep;119:73-83       37 Citations
1T-Cell Metabolism in Hematopoietic Cell Transplantation. (Nguyen HD, Kuril S, Bastian D, Yu XZ) Front Immunol 2018;9:176       26 Citations
1Ancient Regulatory Role of Lysine Acetylation in Central Metabolism. (Nakayasu ES, Burnet MC, Walukiewicz HE, Wilkins CS, Shukla AK, Brooks S, Plutz MJ, Lee BD, Schilling B, Wolfe AJ, Müller S, Kirby JR, Rao CV, Cort JR, Payne SH) mBio 2017 Nov 28;8(6)       86 Citations
1Teaching the basics of cancer metabolism: Developing antitumor strategies by exploiting the differences between normal and cancer cell metabolism. (Kalyanaraman B) Redox Biol 2017 Aug;12:833-842       145 Citations
1FX11 inhibits aerobic glycolysis and growth of neuroblastoma cells. (Rellinger EJ, Craig BT, Alvarez AL, Dusek HL, Kim KW, Qiao J, Chung DH) Surgery 2017 Mar;161(3):747-752       28 Citations
1Metabolic reprogramming of alloantigen-activated T cells after hematopoietic cell transplantation. (Nguyen HD, Chatterjee S, Haarberg KM, Wu Y, Bastian D, Heinrichs J, Fu J, Daenthanasanmak A, Schutt S, Shrestha S, Liu C, Wang H, Chi H, Mehrotra S, Yu XZ) J Clin Invest 2016 Apr 01;126(4):1337-52       90 Citations
1Long Noncoding RNA Ceruloplasmin Promotes Cancer Growth by Altering Glycolysis. (Rupaimoole R, Lee J, Haemmerle M, Ling H, Previs RA, Pradeep S, Wu SY, Ivan C, Ferracin M, Dennison JB, Millward NMZ, Nagaraja AS, Gharpure KM, McGuire M, Sam N, Armaiz-Pena GN, Sadaoui NC, Rodriguez-Aguayo C, Calin GA, Drapkin RI, Kovacs J, Mills GB, Zhang W, Lopez-Berestein G, Bhattacharya PK, Sood AK) Cell Rep 2015 Dec 22;13(11):2395-2402       96 Citations
5Antiproliferative effects of mitochondria-targeted cationic antioxidants and analogs: Role of mitochondrial bioenergetics and energy-sensing mechanism. (Cheng G, Zielonka J, McAllister D, Hardy M, Ouari O, Joseph J, Dwinell MB, Kalyanaraman B) Cancer Lett 2015 Aug 28;365(1):96-106       61 Citations
1Metabolic reconfiguration of the central glucose metabolism: a crucial strategy of Leishmania donovani for its survival during oxidative stress. (Ghosh AK, Sardar AH, Mandal A, Saini S, Abhishek K, Kumar A, Purkait B, Singh R, Das S, Mukhopadhyay R, Roy S, Das P) FASEB J 2015 May;29(5):2081-98       38 Citations
1Enhanced antitumor activity of 3-bromopyruvate in combination with rapamycin in vivo and in vitro. (Zhang Q, Pan J, Lubet RA, Komas SM, Kalyanaraman B, Wang Y, You M) Cancer Prev Res (Phila) 2015 Apr;8(4):318-26       21 Citations
1Comparison of Cardiomyocyte Differentiation Potential Between Type 1 Diabetic Donor- and Nondiabetic Donor-Derived Induced Pluripotent Stem Cells. (Kikuchi C, Bienengraeber M, Canfield S, Koopmeiner A, Schäfer R, Bosnjak ZJ, Bai X) Cell Transplant 2015;24(12):2491-504       20 Citations
2Products of lipid peroxidation, but not membrane susceptibility to oxidative damage, are conserved in skeletal muscle following temperature acclimation. (Grim JM, Semones MC, Kuhn DE, Kriska T, Keszler A, Crockett EL) Am J Physiol Regul Integr Comp Physiol 2015 Mar 01;308(5):R439-48       11 Citations
3Profiling and targeting of cellular bioenergetics: inhibition of pancreatic cancer cell proliferation. (Cheng G, Zielonka J, McAllister D, Tsai S, Dwinell MB, Kalyanaraman B) Br J Cancer 2014 Jul 08;111(1):85-93       68 Citations
1Docosahexaenoic acid attenuates breast cancer cell metabolism and the Warburg phenotype by targeting bioenergetic function. (Mouradian M, Kikawa KD, Dranka BP, Komas SM, Kalyanaraman B, Pardini RS) Mol Carcinog 2015 Sep;54(9):810-20       42 Citations
1Altering O-linked β-N-acetylglucosamine cycling disrupts mitochondrial function. (Tan EP, Villar MT, E L, Lu J, Selfridge JE, Artigues A, Swerdlow RH, Slawson C) J Biol Chem 2014 May 23;289(21):14719-30       78 Citations
1The multifaceted activities of AMPK in tumor progression--why the "one size fits all" definition does not fit at all? (Bonini MG, Gantner BN) IUBMB Life 2013 Nov;65(11):889-96       40 Citations
2Depleted energy charge and increased pulmonary endothelial permeability induced by mitochondrial complex I inhibition are mitigated by coenzyme Q1 in the isolated perfused rat lung. (Bongard RD, Yan K, Hoffmann RG, Audi SH, Zhang X, Lindemer BJ, Townsley MI, Merker MP) Free Radic Biol Med 2013 Dec;65:1455-1463       20 Citations
3Mitochondria-targeted antioxidant and glycolysis inhibition: synergistic therapy in hepatocellular carcinoma. (Dilip A, Cheng G, Joseph J, Kunnimalaiyaan S, Kalyanaraman B, Kunnimalaiyaan M, Gamblin TC) Anticancer Drugs 2013 Oct;24(9):881-8       26 Citations
1Glycolysis-respiration relationships in a neuroblastoma cell line. (Swerdlow RH, E L, Aires D, Lu J) Biochim Biophys Acta 2013 Apr;1830(4):2891-8       37 Citations
1Effect of cholinergic signaling on neuronal cell bioenergetics. (Lu J, E L, Roy N, Hutfles L, Selfridge E, Funk E, Burns JM, Swerdlow RH) J Alzheimers Dis 2013;33(4):1135-46       7 Citations
1PathCase-SB: integrating data sources and providing tools for systems biology research. (Coskun SA, Qi X, Cakmak A, Cheng E, Cicek AE, Yang L, Jadeja R, Dash RK, Lai N, Ozsoyoglu G, Ozsoyoglu ZM) BMC Syst Biol 2012 Jun 14;6(1):67       6 Citations
3Mitochondria-targeted drugs synergize with 2-deoxyglucose to trigger breast cancer cell death. (Cheng G, Zielonka J, Dranka BP, McAllister D, Mackinnon AC Jr, Joseph J, Kalyanaraman B) Cancer Res 2012 May 15;72(10):2634-44       198 Citations
1Differential regulation of metabolism by nitric oxide and S-nitrosothiols in endothelial cells. (Diers AR, Broniowska KA, Darley-Usmar VM, Hogg N) Am J Physiol Heart Circ Physiol 2011 Sep;301(3):H803-12       22 Citations
1A database of thermodynamic quantities for the reactions of glycolysis and the tricarboxylic acid cycle. (Li X, Dash RK, Pradhan RK, Qi F, Thompson M, Vinnakota KC, Wu F, Yang F, Beard DA) J Phys Chem B 2010 Dec 16;114(49):16068-82       25 Citations
1Mitochondrial metabolism and ROS generation are essential for Kras-mediated tumorigenicity. (Weinberg F, Hamanaka R, Wheaton WW, Weinberg S, Joseph J, Lopez M, Kalyanaraman B, Mutlu GM, Budinger GR, Chandel NS) Proc Natl Acad Sci U S A 2010 May 11;107(19):8788-93       1323 Citations
1Cancer's craving for sugar: an opportunity for clinical exploitation. (Yeluri S, Madhok B, Prasad KR, Quirke P, Jayne DG) J Cancer Res Clin Oncol 2009 Jul;135(7):867-77       47 Citations
1Metabolic adaptation of the fetal and postnatal ovine heart: regulatory role of hypoxia-inducible factors and nuclear respiratory factor-1. (Nau PN, Van Natta T, Ralphe JC, Teneyck CJ, Bedell KA, Caldarone CA, Segar JL, Scholz TD) Pediatr Res 2002 Aug;52(2):269-78       46 Citations
2S-nitrosoglutathione improves functional recovery in the isolated rat heart after cardioplegic ischemic arrest-evidence for a cardioprotective effect of nitric oxide. (Konorev EA, Tarpey MM, Joseph J, Baker JE, Kalyanaraman B) J Pharmacol Exp Ther 1995 Jul;274(1):200-6       80 Citations
1Regional metabolic differences in the rat diaphragm. (Powers SK, Lawler J, Criswell D, Silverman H, Forster HV, Grinton S, Harkins D) J Appl Physiol (1985) 1990 Aug;69(2):648-50       26 Citations
1Single muscle fiber enzyme shifts with hindlimb suspension and immobilization. (Fitts RH, Brimmer CJ, Heywood-Cooksey A, Timmerman RJ) Am J Physiol 1989 May;256(5 Pt 1):C1082-91       37 Citations