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ab58968 has been referenced in 45 publications.

  • Kumar V  et al. Disruption of APOL1-miR193a Axis Induces Disorganization of Podocyte Actin Cytoskeleton. Sci Rep 9:3582 (2019). PubMed: 30837512
  • Senouthai S  et al. Fractalkine is Involved in Lipopolysaccharide-Induced Podocyte Injury through the Wnt/ß-Catenin Pathway in an Acute Kidney Injury Mouse Model. Inflammation N/A:N/A (2019). PubMed: 30919150
  • Lei XY  et al. Hepatitis B virus X protein decreases nephrin expression and induces podocyte apoptosis via activating STAT3. Exp Ther Med 17:4223-4229 (2019). PubMed: 31007753
  • Yin W  et al. Protein kinase C and protein kinase A are involved in the protection of recombinant human glucagon-like peptide-1 on glomeruli and tubules in diabetic rats. J Diabetes Investig 10:613-625 (2019). PubMed: 30307132
  • Cai X  et al. Silence of IGFBP7 suppresses apoptosis and epithelial mesenchymal transformation of high glucose induced-podocytes. Exp Ther Med 16:1095-1102 (2018). PubMed: 30112052
  • Wen H  et al. APOL1 risk variants cause podocytes injury through enhancing endoplasmic reticulum stress. Biosci Rep 38:N/A (2018). PubMed: 29967295
  • Hou XX  et al. Purinergic 2X7 Receptor is Involved in the Podocyte Damage of Obesity-Related Glomerulopathy via Activating Nucleotide-Binding and Oligomerization Domain-Like Receptor Protein 3 Inflammasome. Chin Med J (Engl) 131:2713-2725 (2018). PubMed: 30425198
  • Zhang L  et al. PGC-1a ameliorates kidney fibrosis in mice with diabetic kidney disease through an antioxidative mechanism. Mol Med Rep 17:4490-4498 (2018). PubMed: 29344670
  • van de Lest NA  et al. Nephrin Loss Can Be Used to Predict Remission and Long-term Renal Outcome in Patients With Minimal Change Disease. Kidney Int Rep 3:168-177 (2018). PubMed: 29340328
  • Wang P  et al. Knockdown of NUP160 inhibits cell proliferation, induces apoptosis, autophagy and cell migration, and alters the expression and localization of podocyte associated molecules in mouse podocytes. Gene 664:12-21 (2018). WB . PubMed: 29704630
  • Qian X  et al. MicroRNA-134-5p promotes high glucose-induced podocyte apoptosis by targeting bcl-2. Am J Transl Res 10:989-997 (2018). WB ; Human . PubMed: 29636888
  • Liu B  et al. Zhen-wu-tang protects against podocyte injury in rats with IgA nephropathy via PPAR?/NF-?B pathway. Biomed Pharmacother 101:635-647 (2018). WB . PubMed: 29518610
  • Wang Y  et al. Loss of slit protein nephrin is associated with reduced antioxidant superoxide dismutase expression in podocytes shed from women with preeclampsia. Physiol Rep 6:e13785 (2018). PubMed: 29981208
  • Hong Q  et al. Increased podocyte Sirtuin-1 function attenuates diabetic kidney injury. Kidney Int 93:1330-1343 (2018). PubMed: 29477240
  • Li X  et al. Nephrin loss is reduced by grape seed proanthocyanidins in the experimental diabetic nephropathy rat model. Mol Med Rep 16:9393-9400 (2017). PubMed: 29152654
  • Zhang C  et al. Autophagy is involved in mouse kidney development and podocyte differentiation regulated by Notch signalling. J Cell Mol Med 21:1315-1328 (2017). PubMed: 28158917
  • Guo H  et al. Astragaloside IV protects against podocyte injury via SERCA2-dependent ER stress reduction and AMPKa-regulated autophagy induction in streptozotocin-induced diabetic nephropathy. Sci Rep 7:6852 (2017). PubMed: 28761152
  • Henique C  et al. Genetic and pharmacological inhibition of microRNA-92a maintains podocyte cell cycle quiescence and limits crescentic glomerulonephritis. Nat Commun 8:1829 (2017). PubMed: 29184126
  • Chen Z  et al. Hyperoside alleviates adriamycin-induced podocyte injury via inhibiting mitochondrial fission. Oncotarget 8:88792-88803 (2017). PubMed: 29179476
  • Yu J  et al. Advanced glycation end products induce the apoptosis of and inflammation in mouse podocytes through CXCL9-mediated JAK2/STAT3 pathway activation. Int J Mol Med 40:1185-1193 (2017). PubMed: 28849106
  • Wu W  et al. Early protective role of MST1 knockdown in response to experimental diabetic nephropathy. Am J Transl Res 8:1397-411 (2016). PubMed: 27186267
  • Sheikh BN  et al. MOF maintains transcriptional programs regulating cellular stress response. Oncogene 35:2698-710 (2016). PubMed: 26387537
  • Guo J  et al. Glycogen synthase kinase-3ß is required for epithelial-mesenchymal transition and barrier dysfunction in mouse podocytes under high glucose conditions. Mol Med Rep 14:4091-4098 (2016). WB ; Mouse . PubMed: 27748847
  • Xu Y  et al. Autophagy downregulation contributes to insulin resistance mediated injury in insulin receptor knockout podocytes in vitro. PeerJ 4:e1888 (2016). WB . PubMed: 27077005
  • Randles MJ  et al. Genetic Background is a Key Determinant of Glomerular Extracellular Matrix Composition and Organization. J Am Soc Nephrol 26:3021-34 (2015). Mouse . PubMed: 25896609
  • Li Z  et al. MiRNA expression profile and miRNA-mRNA integrated analysis (MMIA) during podocyte differentiation. Mol Genet Genomics 290:863-75 (2015). PubMed: 25433550
  • Denhez B  et al. Increased SHP-1 protein expression by high glucose levels reduces nephrin phosphorylation in podocytes. J Biol Chem 290:350-8 (2015). PubMed: 25404734
  • Wu J  et al. MicroRNA-30 family members regulate calcium/calcineurin signaling in podocytes. J Clin Invest 125:4091-106 (2015). PubMed: 26436650
  • Li Y  et al. Involvement of nephrin in human placental trophoblast syncytialization. Reproduction 149:339-46 (2015). PubMed: 25614620
  • Vigneau C  et al. All anti-vascular endothelial growth factor drugs can induce 'pre-eclampsia-like syndrome': a RARe study. Nephrol Dial Transplant 29:325-32 (2014). Human . PubMed: 24302609
  • Zhong Y  et al. Puerarin attenuated early diabetic kidney injury through down-regulation of matrix metalloproteinase 9 in streptozotocin-induced diabetic rats. PLoS One 9:e85690 (2014). WB ; Rat . PubMed: 24454919
  • Lennon R  et al. Global Analysis Reveals the Complexity of the Human Glomerular Extracellular Matrix. J Am Soc Nephrol : (2014). PubMed: 24436468
  • Prunotto M  et al. Proteomic analysis of podocyte exosome-enriched fraction from normal human urine. J Proteomics 82C:193-229 (2013). WB ; Human . PubMed: 23376485
  • Chen CC  et al. Heterozygous knockout of transforming growth factor-ß1 protects Dahl S rats against high salt-induced renal injury. Physiol Genomics 45:110-8 (2013). WB ; Rat . PubMed: 23249995
  • Tezval H  et al. Reduced mrna expression level of corticotropin-releasing hormone-binding protein is associated with aggressive human kidney cancer. BMC Cancer 13:199 (2013). IHC-P ; Human . PubMed: 23607589
  • Müller-Krebs S  et al. Cellular effects of everolimus and sirolimus on podocytes. PLoS One 8:e80340 (2013). WB ; Human . PubMed: 24260371
  • Shevalye H  et al. Prediabetic nephropathy as an early consequence of the high-calorie/high-fat diet: relation to oxidative stress. Endocrinology 153:1152-61 (2012). WB ; Mouse . PubMed: 22234462
  • Cárdenas A  et al. Adenosine A(2B) receptor-mediated VEGF induction promotes diabetic glomerulopathy. Lab Invest : (2012). PubMed: 23069939
  • Wang H  et al. Low but sustained coagulation activation ameliorates glucose-induced podocyte apoptosis: protective effect of factor V Leiden in diabetic nephropathy. Blood 117:5231-42 (2011). WB ; Mouse . PubMed: 21389321
  • Nakamaki S  et al. Adiponectin reduces proteinuria in streptozotocin-induced diabetic Wistar rats. Exp Biol Med (Maywood) 236:614-20 (2011). PubMed: 21521713
  • Bai XY  et al. miR-335 and miR-34a Promote renal senescence by suppressing mitochondrial antioxidative enzymes. J Am Soc Nephrol 22:1252-61 (2011). PubMed: 21719785
  • Zhao S  et al. Altered nephrin and podoplanin distribution is associated with disturbed polarity protein PARD-3 and PARD-6 expressions in podocytes from preeclampsia. Reprod Sci 18:772-80 (2011). PubMed: 21422051
  • Zhang C  et al. Protection of podocytes from hyperhomocysteinemia-induced injury by deletion of the gp91phox gene. Free Radic Biol Med 48:1109-17 (2010). PubMed: 20116427
  • Garman JH  et al. Omega-3 fatty acid rich diet prevents diabetic renal disease. Am J Physiol Renal Physiol 296:F306-16 (2009). WB ; Rat . PubMed: 19052104
  • Sen U  et al. Hydrogen sulfide ameliorates hyperhomocysteinemia-associated chronic renal failure. Am J Physiol Renal Physiol 297:F410-9 (2009). WB ; Mouse . PubMed: 19474193

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