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1.
MUC1 and HIF-1alpha Signaling Crosstalk Induces Anabolic Glucose Metabolism to Impart Gemcitabine Resistance to Pancreatic Cancer.
Shukla, Surendra K; Purohit, Vinee; Mehla, Kamiya; Gunda, Venugopal; Chaika, Nina V; Vernucci, Enza; King, Ryan J; Abrego, Jaime; Goode, Gennifer D; Dasgupta, Aneesha; Illies, Alysha L; Gebregiworgis, Teklab; Dai, Bingbing; Augustine, Jithesh J; Murthy, Divya; Attri, Kuldeep S; Mashadova, Oksana; Grandgenett, Paul M; Powers, Robert; Ly, Quan P; Lazenby, Audrey J; Grem, Jean L; Yu, Fang; Matés, José M; Asara, John M; Kim, Jung-Whan; Hankins, Jordan H; Weekes, Colin; Hollingsworth, Michael A; Serkova, Natalie J; Sasson, Aaron R; Fleming, Jason B; Oliveto, Jennifer M; Lyssiotis, Costas A; Cantley, Lewis C; Berim, Lyudmyla; Singh, Pankaj K.
Cancer Cell ; 32(3): 392, 2017 09 11.
Article in English | MEDLINE | ID: mdl-28898700
2.
MUC1 and HIF-1alpha Signaling Crosstalk Induces Anabolic Glucose Metabolism to Impart Gemcitabine Resistance to Pancreatic Cancer.
Shukla, Surendra K; Purohit, Vinee; Mehla, Kamiya; Gunda, Venugopal; Chaika, Nina V; Vernucci, Enza; King, Ryan J; Abrego, Jaime; Goode, Gennifer D; Dasgupta, Aneesha; Illies, Alysha L; Gebregiworgis, Teklab; Dai, Bingbing; Augustine, Jithesh J; Murthy, Divya; Attri, Kuldeep S; Mashadova, Oksana; Grandgenett, Paul M; Powers, Robert; Ly, Quan P; Lazenby, Audrey J; Grem, Jean L; Yu, Fang; Matés, José M; Asara, John M; Kim, Jung-Whan; Hankins, Jordan H; Weekes, Colin; Hollingsworth, Michael A; Serkova, Natalie J; Sasson, Aaron R; Fleming, Jason B; Oliveto, Jennifer M; Lyssiotis, Costas A; Cantley, Lewis C; Berim, Lyudmyla; Singh, Pankaj K.
Cancer Cell ; 32(1): 71-87.e7, 2017 07 10.
Article in English | MEDLINE | ID: mdl-28697344

ABSTRACT

Poor response to cancer therapy due to resistance remains a clinical challenge. The present study establishes a widely prevalent mechanism of resistance to gemcitabine in pancreatic cancer, whereby increased glycolytic flux leads to glucose addiction in cancer cells and a corresponding increase in pyrimidine biosynthesis to enhance the intrinsic levels of deoxycytidine triphosphate (dCTP). Increased levels of dCTP diminish the effective levels of gemcitabine through molecular competition. We also demonstrate that MUC1-regulated stabilization of hypoxia inducible factor-1α (HIF-1α) mediates such metabolic reprogramming. Targeting HIF-1α or de novo pyrimidine biosynthesis, in combination with gemcitabine, strongly diminishes tumor burden. Finally, reduced expression of TKT and CTPS, which regulate flux into pyrimidine biosynthesis, correlates with better prognosis in pancreatic cancer patients on fluoropyrimidine analogs.


Subject(s)
Deoxycytidine/analogs & derivatives , Drug Resistance, Neoplasm , Glucose/metabolism , Hypoxia-Inducible Factor 1, alpha Subunit/metabolism , Mucin-1/metabolism , Pancreatic Neoplasms/drug therapy , Carbon/metabolism , Deoxycytidine/therapeutic use , Digoxin/pharmacology , Humans , Hypoxia-Inducible Factor 1, alpha Subunit/antagonists & inhibitors , Pancreatic Neoplasms/genetics , Pancreatic Neoplasms/metabolism , Pentose Phosphate Pathway , Prognosis , Pyrimidines/biosynthesis , Signal Transduction , Gemcitabine
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