Nishanth Sunny - Publications

Affiliations: 
2008-2011 Center for Human Nutrition University of Texas Southwestern Medical Center, Dallas, TX, United States 
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26 high-probability publications. We are testing a new system for linking publications to authors. You can help! If you notice any inaccuracies, please sign in and mark papers as correct or incorrect matches. If you identify any major omissions or other inaccuracies in the publication list, please let us know.

Year Citation  Score
2023 Gerrard SD, Yonke JA, Seymour KA, Sunny NE, El-Kadi SW. Feeding Medium-Chain Fatty Acid Rich Formula Causes Liver Steatosis and Alters Hepatic Metabolism in Neonatal Pigs. American Journal of Physiology. Gastrointestinal and Liver Physiology. PMID 37280515 DOI: 10.1152/ajpgi.00164.2022  0.318
2023 Surugihalli C, Muralidaran V, Ryan CE, Patel K, Zhao D, Sunny NE. Branched chain amino acids alter cellular redox to induce lipid oxidation and reduce de novo lipogenesis in the liver. American Journal of Physiology. Endocrinology and Metabolism. PMID 36791321 DOI: 10.1152/ajpendo.00307.2022  0.642
2022 Surugihalli C, Farley LS, Beckford RC, Kamkrathok B, Liu HC, Muralidaran V, Patel K, Porter TE, Sunny NE. Remodeling of Hepatocyte Mitochondrial Metabolism and Lipogenesis During the Embryonic-to-Neonatal Transition in Chickens. Frontiers in Physiology. 13: 870451. PMID 35530509 DOI: 10.3389/fphys.2022.870451  0.668
2021 Kattapuram N, Zhang C, Muyyarikkandy MS, Surugihalli C, Muralidaran V, Gregory T, Sunny NE. Dietary Macronutrient Composition Differentially Modulates the Remodeling of Mitochondrial Oxidative Metabolism during NAFLD. Metabolites. 11. PMID 33926132 DOI: 10.3390/metabo11050272  0.657
2020 Muyyarikkandy MS, McLeod M, Maguire M, Mahar R, Kattapuram N, Zhang C, Surugihalli C, Muralidaran V, Vavilikolanu K, Mathews CE, Merritt ME, Sunny NE. Branched chain amino acids and carbohydrate restriction exacerbate ketogenesis and hepatic mitochondrial oxidative dysfunction during NAFLD. Faseb Journal : Official Publication of the Federation of American Societies For Experimental Biology. PMID 32918763 DOI: 10.1096/fj.202001495R  0.6
2019 Surugihalli C, Porter TE, Chan A, Farley LS, Maguire M, Zhang C, Kattapuram N, Muyyarikkandy MS, Liu HC, Sunny NE. Hepatic Mitochondrial Oxidative Metabolism and Lipogenesis Synergistically Adapt to Mediate Healthy Embryonic-to-Neonatal Transition in Chicken. Scientific Reports. 9: 20167. PMID 31882889 DOI: 10.1038/S41598-019-56715-1  0.732
2019 Surugihalli C, Chan A, Maguire M, Farley L, Liu HC, Porter T, Sunny N. Optimal Coupling of Hepatic Mitochondrial Metabolism with Lipogenesis Promotes Healthy Embryonic to Post-hatch Development in Chicken (FS03-01-19). Current Developments in Nutrition. 3. PMID 31225199 DOI: 10.1093/cdn/nzz046.FS03-01-19  0.727
2019 Kalavalapalli S, Bril F, Guingab J, Vergara A, Garrett TJ, Sunny NE, Cusi K. Impact of exenatide on mitochondrial lipid metabolism in mice with nonalcoholic steatohepatitis. The Journal of Endocrinology. 241: 293-305. PMID 31082799 DOI: 10.1530/Joe-19-0007  0.469
2019 Hicks JA, Porter TE, Sunny NE, Liu HC. Delayed Feeding Alters Transcriptional and Post-Transcriptional Regulation of Hepatic Metabolic Pathways in Peri-Hatch Broiler Chicks. Genes. 10. PMID 30987204 DOI: 10.3390/Genes10040272  0.453
2018 Kalavalapalli S, Bril F, Koelmel JP, Abdo K, Guingab J, Andrews P, Li WY, Jose D, Yost RA, Frye RF, Garrett TJ, Cusi K, Sunny NE. Pioglitazone improves hepatic mitochondrial function in a mouse model of nonalcoholic steatohepatitis. American Journal of Physiology. Endocrinology and Metabolism. PMID 29634314 DOI: 10.1152/Ajpendo.00023.2018  0.632
2018 Kalavalapalli S, Bril F, Vergara A, Sunny N, Cusi K. Exenatide Treatment Improves Mitochondrial Metabolism and Hepatic Insulin Sensitivity in Mice with Nonalcoholic Steatohepatitis (NASH) Diabetes. 67. DOI: 10.2337/Db18-1846-P  0.528
2017 Cho J, Zhang Y, Park SY, Joseph AM, Han C, Park HJ, Kalavalapalli S, Chun SK, Morgan D, Kim JS, Someya S, Mathews CE, Lee YJ, Wohlgemuth SE, Sunny NE, et al. Corrigendum: Mitochondrial ATP transporter depletion protects mice against liver steatosis and insulin resistance. Nature Communications. 8: 16143. PMID 31305776 DOI: 10.1038/Ncomms16143  0.428
2017 Cho J, Zhang Y, Park SY, Joseph AM, Han C, Park HJ, Kalavalapalli S, Chun SK, Morgan D, Kim JS, Someya S, Mathews CE, Lee YJ, Wohlgemuth SE, Sunny NE, et al. Mitochondrial ATP transporter depletion protects mice against liver steatosis and insulin resistance. Nature Communications. 8: 14477. PMID 28205519 DOI: 10.1038/Ncomms14477  0.591
2016 Sunny NE, Bril F, Cusi K. Mitochondrial Adaptation in Nonalcoholic Fatty Liver Disease: Novel Mechanisms and Treatment Strategies. Trends in Endocrinology and Metabolism: Tem. PMID 27986466 DOI: 10.1016/j.tem.2016.11.006  0.673
2016 Williams CM, McCue MD, Sunny NE, Szejner-Sigal A, Morgan TJ, Allison DB, Hahn DA. Cold adaptation increases rates of nutrient flow and metabolic plasticity during cold exposure in Drosophila melanogaster. Proceedings. Biological Sciences / the Royal Society. 283. PMID 27605506 DOI: 10.1098/Rspb.2016.1317  0.448
2016 Satapati S, Kucejova B, Duarte JA, Fletcher JA, Reynolds L, Sunny NE, He T, Nair LA, Livingston KA, Fu X, Merritt ME, Sherry AD, Malloy CR, Shelton JM, Lambert J, et al. Mitochondrial metabolism mediates oxidative stress and inflammation in fatty liver. The Journal of Clinical Investigation. 126: 1605. PMID 27035816 DOI: 10.1172/Jci86695  0.626
2016 Patterson RE, Kalavalapalli S, Williams CM, Nautiyal M, Mathew JT, Martinez J, Reinhard MK, McDougall DJ, Rocca JR, Yost RA, Cusi K, Garrett TJ, Sunny NE. Lipotoxicity in steatohepatitis occurs despite an increase in tricarboxylic acid cycle activity. American Journal of Physiology. Endocrinology and Metabolism. ajpendo.00492.2015. PMID 26814015 DOI: 10.1152/Ajpendo.00492.2015  0.613
2016 Bril F, Kadiyala S, Portillo Sanchez P, Sunny NE, Biernacki D, Maximos M, Kalavalapalli S, Lomonaco R, Suman A, Cusi K. Plasma thyroid hormone concentration is associated with hepatic triglyceride content in patients with type 2 diabetes. Journal of Investigative Medicine : the Official Publication of the American Federation For Clinical Research. 64: 63-8. PMID 26755815 DOI: 10.1136/jim-2015-000019  0.396
2015 Satapati S, Kucejova B, Duarte JA, Fletcher JA, Reynolds L, Sunny NE, He T, Nair LA, Livingston K, Fu X, Merritt ME, Sherry AD, Malloy CR, Shelton JM, Lambert J, et al. Mitochondrial metabolism mediates oxidative stress and inflammation in fatty liver. The Journal of Clinical Investigation. PMID 26571396 DOI: 10.1172/Jci82204  0.611
2015 Sunny NE, Kalavalapalli S, Bril F, Garrett TJ, Nautiyal M, Mathew JT, Williams CM, Cusi K. Crosstalk between branched chain amino acids and hepatic mitochondria is compromised in nonalcoholic fatty liver disease. American Journal of Physiology. Endocrinology and Metabolism. ajpendo.00161.2015. PMID 26058864 DOI: 10.1152/Ajpendo.00161.2015  0.52
2013 Méndez-Lucas A, Duarte JA, Sunny NE, Satapati S, He T, Fu X, Bermúdez J, Burgess SC, Perales JC. PEPCK-M expression in mouse liver potentiates, not replaces, PEPCK-C mediated gluconeogenesis. Journal of Hepatology. 59: 105-13. PMID 23466304 DOI: 10.1016/J.Jhep.2013.02.020  0.474
2013 Lomonaco R, Sunny NE, Bril F, Cusi K. Nonalcoholic fatty liver disease: current issues and novel treatment approaches. Drugs. 73: 1-14. PMID 23329465 DOI: 10.1007/s40265-012-0004-0  0.42
2012 Satapati S, Sunny NE, Kucejova B, Fu X, He TT, Méndez-Lucas A, Shelton JM, Perales JC, Browning JD, Burgess SC. Elevated TCA cycle function in the pathology of diet-induced hepatic insulin resistance and fatty liver. Journal of Lipid Research. 53: 1080-92. PMID 22493093 DOI: 10.1194/Jlr.M023382  0.616
2011 Sunny NE, Parks EJ, Browning JD, Burgess SC. Excessive hepatic mitochondrial TCA cycle and gluconeogenesis in humans with nonalcoholic fatty liver disease. Cell Metabolism. 14: 804-10. PMID 22152305 DOI: 10.1016/J.Cmet.2011.11.004  0.607
2011 Potthoff MJ, Boney-Montoya J, Choi M, He T, Sunny NE, Satapati S, Suino-Powell K, Xu HE, Gerard RD, Finck BN, Burgess SC, Mangelsdorf DJ, Kliewer SA. FGF15/19 regulates hepatic glucose metabolism by inhibiting the CREB-PGC-1α pathway. Cell Metabolism. 13: 729-38. PMID 21641554 DOI: 10.1016/J.Cmet.2011.03.019  0.332
2010 Sunny NE, Satapati S, Fu X, He T, Mehdibeigi R, Spring-Robinson C, Duarte J, Potthoff MJ, Browning JD, Burgess SC. Progressive adaptation of hepatic ketogenesis in mice fed a high-fat diet. American Journal of Physiology. Endocrinology and Metabolism. 298: E1226-35. PMID 20233938 DOI: 10.1152/Ajpendo.00033.2010  0.537
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