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| | SGLT2 inhibition effect on salt-induced hypertension, RAAS, and Na+ transport in Dahl SS rats.Kravtsova O, Bohovyk R, Levchenko V, Palygin O, Klemens CA, Rieg T, Staruschenko A American journal of physiology. Renal physiology, 2022 (322), F692 - F707 | | Submitted Externally | 35466690 | Published |
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| | Dual blockade of protease-activated receptor 1 and 2 additively ameliorates diabetic kidney disease.Mitsui S, Oe Y, Sekimoto A, Sato E, Hashizume Y, Yamakage S, Kumakura S, Sato H, Ito S, Takahashi N American journal of physiology. Renal physiology, 2020 (318), F1067 - F1073 | | | 32200667 | Published |
| | In utero exposure to maternal diabetes impairs nephron progenitor differentiation.Cerqueira DM, Hemker SL, Bodnar AJ, Ortiz DM, Oladipupo FO, Mukherjee E, Gong Z, Appolonia C, Muzumdar RH, Sims-Lucas S, Ho J American journal of physiology. Renal physiology, 2019 | | | 31509011 | Published |
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| | Delayed treatment with PTBA analogs reduces postinjury renal fibrosis after kidney injury.Skrypnyk NI, Sanker S, Skvarca LB, Novitskaya T, Woods C, Chiba T, Patel K, Goldberg ND, McDermott L, Vinson PN, Calcutt MW, Huryn DM, Vernetti LA, Vogt A, Hukriede NA, de Caestecker MP American journal of physiology. Renal physiology, 2016 (310), F705 - F716 | | | 26661656 | Published |
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| | Mpv17 in mitochondria protects podocytes against mitochondrial dysfunction and apoptosis in vivo and in vitro.Casalena G, Krick S, Daehn I, Yu L, Ju W, Shi S, Tsai SY, D'Agati V, Lindenmeyer M, Cohen CD, Schlondorff D, Bottinger EP American journal of physiology. Renal physiology, 2014 (306), F1372 - F1380 | | | 24598802 | Published |
| | Diabetic Nephropathy in a non-obese mouse model of Type 2 Diabetes Mellitus.Mallipattu SK, Gallagher EJ, Leroith D, Liu R, Mehrotra A, Horne SJ, Chuang PY, Yang VW, He JC American journal of physiology. Renal physiology, 2014 (306), F1008 - F1017 | | Submitted Externally | 24598803 | Published |
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| | Knockout of Na-glucose transporter SGLT2 attenuates hyperglycemia and glomerular hyperfiltration but not kidney growth or injury in diabetes mellitus.Vallon V, Rose M, Gerasimova M, Satriano J, Platt KA, Koepsell H, Cunard R, Sharma K, Thomson SC, Rieg T American journal of physiology. Renal physiology, 2013 (304), F156 - F167 | | | 23152292 | Published |
| | The best-laid plans.Harris RC American journal of physiology. Renal physiology, 2013 (304), F1086 - F1087 | | | 23269642 | Published |
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| | A role for the organic anion transporter OAT3 in renal creatinine secretion in mice.Vallon V, Eraly SA, Rao SR, Gerasimova M, Rose M, Nagle M, Anzai N, Smith T, Sharma K, Nigam SK, Rieg T American journal of physiology. Renal physiology, 2012 (302), F1293 - F1299 | | | 22338083 | Published |
| | Null mutations at the p66 and bradykinin 2 receptor loci induce divergent phenotypes in the diabetic kidney.Vashistha H, Singhal PC, Malhotra A, Husain M, Mathieson P, Saleem MA, Kuriakose C, Seshan S, Wilk A, Delvalle L, Peruzzi F, Giorgio M, Pelicci PG, Smithies O, Kim HS, Kakoki M, Reiss K, Meggs LG American journal of physiology. Renal physiology, 2012 (303), F1629 - F1640 | | Submitted Externally | 23019230 | Published |
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| | Urinary matrix metalloproteinase activities: biomarkers for plaque angiogenesis and nephropathy in diabetes.McKittrick IB, Bogaert Y, Nadeau K, Snell-Bergeon J, Hull A, Jiang T, Wang X, Levi M, Moulton KS American journal of physiology. Renal physiology, 2011 (301), F1326 - F1333 | | | 21921021 | Published |
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| | Podocyte-specific overexpression of GLUT1 surprisingly reduces mesangial matrix expansion in diabetic nephropathy in mice.Zhang H, Schin M, Saha J, Burke K, Holzman LB, Filipiak W, Saunders T, Xiang M, Heilig CW, Brosius FC American journal of physiology. Renal physiology, 2010 (299), F91 - F98 | | | 20375116 | Published |
| | Transgenic overexpression of GLUT1 in mouse glomeruli produces renal disease resembling diabetic glomerulosclerosis.Wang Y, Heilig K, Saunders T, Minto A, Deb DK, Chang A, Brosius F, Monteiro C, Heilig CW American journal of physiology. Renal physiology, 2010 (299), F99 - F111 | | | 20375117 | Published |
| | TRB3 is stimulated in diabetic kidneys, regulated by the ER stress marker CHOP, and is a suppressor of podocyte MCP-1.Morse E, Schroth J, You YH, Pizzo DP, Okada S, Ramachandrarao S, Vallon V, Sharma K, Cunard R American journal of physiology. Renal physiology, 2010 (299), F965 - F972 | | | 20660016 | Published |
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| | Moderate exercise attenuates caspase-3 activity, oxidative stress, and inhibits progression of diabetic renal disease in db/db mice.Ghosh S, Khazaei M, Moien-Afshari F, Ang LS, Granville DJ, Verchere CB, Dunn SR, McCue P, Mizisin A, Sharma K, Laher I American journal of physiology. Renal physiology, 2009 (296(4)), F700 - F708 | | | 19144689 | Published |
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| | The farnesoid X receptor modulates renal lipid metabolism and diet-induced renal inflammation, fibrosis, and proteinuria.Wang XX, Jiang T, Shen Y, Adorini L, Pruzanski M, Gonzalez FJ, Scherzer P, Lewis L, Miyazaki-Anzai S, Levi M American journal of physiology. Renal physiology, 2009 (297(6)), F1587 - F1596 | | | 19776172 | Published |
| | Rosiglitazone reduces renal and plasma markers of oxidative injury and reverses urinary metabolite abnormalities in the amelioration of diabetic nephropathyHongyu Zhang, Jharna Saha, MaryLee Schin, Jaeman Byun, Matthias Kretzler, Eva L. Feldman, David A. Weild, Subramaniam Pennathur, Frank C. Brosius III American journal of physiology. Renal physiology, 2008 (295(4)), F1071 - F1081 | | | 18667486 | Published |
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| | Glycation of mitochondrial proteins from diabetic rat kidney is associated with excess superoxide formation.Rosca MG, Mustata TG, Kinter MT, Ozdemir AM, Kern TS, Szweda LI, Brownlee M, Monnier VM, Weiss MF American journal of physiology. Renal physiology, 2005 (289), F420 - 30 | | Submitted Externally | 15814529 | Published |
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