Publications

Fu L, Wang G, Shevchuk MM, Nanus DM, Gudas LJ.  2013.  Activation of HIF2α in kidney proximal tubule cells causes abnormal glycogen deposition but not tumorigenesis.. Cancer Res. 73(9):2916-25.

Minton DR, Fu L, Chen Q, Robinson BD, Gross SS, Nanus DM, Gudas LJ.  2015.  Analyses of the transcriptome and metabolome demonstrate that HIF1α mediates altered tumor metabolism in clear cell renal cell carcinoma.. PLoS One. 10(4):e0120649.

van der Mijn JC, Fu L, Khani F, Zhang T, Molina AM, Barbieri CE, Chen Q, Gross SS, Gudas LJ, Nanus DM.  2020.  Combined Metabolomics and Genome-Wide Transcriptomics Analyses Show Multiple HIF1α-Induced Changes in Lipid Metabolism in Early Stage Clear Cell Renal Cell Carcinoma.. Transl Oncol. 13(2):177-185.

Fu L, Wang G, Shevchuk MM, Nanus DM, Gudas LJ.  2011.  Generation of a mouse model of Von Hippel-Lindau kidney disease leading to renal cancers by expression of a constitutively active mutant of HIF1α.. Cancer Res. 71(21):6848-56.

Fu L, Minton DR, Zhang T, Nanus DM, Gudas LJ.  2015.  Genome-Wide Profiling of TRACK Kidneys Shows Similarity to the Human ccRCC Transcriptome.. Mol Cancer Res. 13(5):870-8.

van der Mijn JC, Laursen KB, Fu L, Khani F, Dow LE, Nowak DG, Chen Q, Gross SS, Nanus DM, Gudas LJ.  2023.  Novel genetically engineered mouse models for clear cell renal cell carcinoma.. Sci Rep. 13(1):8246.

DiKun KM, Tang X-H, Fu L, Choi ME, Lu C, Gudas LJ.  2024.  Retinoic acid receptor α activity in proximal tubules prevents kidney injury and fibrosis.. Proc Natl Acad Sci U S A. 121(7):e2311803121.

Gudas LJ, Fu L, Minton DR, Mongan NP, Nanus DM.  2014.  The role of HIF1α in renal cell carcinoma tumorigenesis.. J Mol Med (Berl). 92(8):825-36.

Minton DR, Fu L, Mongan NP, Shevchuk MM, Nanus DM, Gudas LJ.  2016.  Role of NADH Dehydrogenase (Ubiquinone) 1 Alpha Subcomplex 4-Like 2 in Clear Cell Renal Cell Carcinoma.. Clin Cancer Res. 22(11):2791-801.