Data are means 6 SD. *P,0.05. doi:10.1371/journal.pone.0055027.gnormal (Fig. 1A C, E G). A single dose of ADR administration at 10.5 mg/kg body weight in wild type C57BL/6 mice did not induce any significant injury in kidneys (Fig. 1B F). However, in the ADR-treated eNOS-deficient group, PAS (Fig. 1D) and Masson trichrome staining (Fig. 1H) demonstrated severe histopathological changes including glomerular and tubulointerstitial damage, massive cast formation, glomerulosclerosis, and tubulointerstitial fibrosis. Overt proteinuria appeared 7 days after ADR administration and persisted thereafter (Fig. 2A). In eNOSdeficient mice, the mean body weight decreased quickly after ADR administration and the tendency persisted until day 14, afterwhich body weight recovered gradually (Fig. 2B). Kidney/body ratio in eNOS-deficient mice with ADR treatment increased at day 3, peaked at days 7 and 14 then returned to normal at day 28 (Fig. 2C). Serum creatinine continuously increased following ADR injection in eNOS-deficient mice and peaked at 4 weeks, the experimental end-point (Fig. 2D). In eNOS-deficient mice, high blood pressure persisted during the whole study but there was no significant change in blood pressure between NS-treated and ADR-treated groups (Fig. 2E). Immunostaining demonstrated that the production of NHS-Biotin collagen IV (Fig. 3 A to D I) and fibronectin (Fig. 3E to H I) was significantly increased in ADR-treatedGlomerular Endothelial Cell InjuryFigure 7. Apoptotic glomerular endothelial cells and podocytes in ADR-induced nephropathy in Balb/c mice. Apoptotic glomerular endothelial cells (A B) and podocytes (D E), triple labeled with terminal deoxynucleotidyl transferase-mediated digoxigenin-dNTP nick end-labeling (TUNEL; A, B, D and E, green), anti-CD31 (A B, red) and anti-synaptopodin (D E, red), were detected at days 1 (B) and 7 (D) after ADR injection in Balb/c mouse kidneys. Positive apoptotic cells (B D) were counterstained with DAPI nuclear staining. Sections from NS-treated kidneys (A C) were used as controls. Quantification of CD31+/TUNEL+ glomerular endothelial cells and synaptopodin+/TUNEL+ podocytes in glomeruli (E). Original magnification, 600 X. Magnification in insets, 1200 X. One-way ANOVA, n = 6, data are means 6 SD. Vs NS day 7, *P,0.05; **P,0.01; ***P,0.001. doi:10.1371/journal.pone.0055027.geNOS-deficient kidneys compared with NS-treated eNOS-deficient, NS-treated wild type and ADR-treated wild type kidneys. These results demonstrated that ADR administration in eNOSdeficient C57BL/6 mice leads to progressive renal fibrosis that by 4 weeks resembles chronic renal failure with marked functionalimpairment and severe histopathological alterations. These results suggest that endothelial dysfunction may lead to the development and progression of chronic kidney disease.Glomerular Endothelial Cell InjuryFigure 8. eNOS overexpression protecting podocytes from TNF-a-induced loss of synaptopodin. GFP eNOS ?positive (GFP-eNOS+) and GFP-eNOS ?68181-17-9 cost negative (GFP-eNOS2) MMECs were obtained by FACS (A). Confocal microscopy of GFP in GFP-eNOS2 (B) and GFP-eNOS+ (C) MMECs. (D) Western blotting using anti-eNOS and anti-GFP antibodies to detect endogenous eNOS and overexpression of GFP-eNOS in GFP-eNOS2 and GFPeNOS+ MMECs. (E) Conditioned media from GFP-eNOS2 and GFP-eNOS+ MMECs was added to podocytes in the presence or absence of TNF-a, western blotting demonstrated expression levels of synaptopodin 36 hours after TNF-a stimulation. (F) Qu.Data are means 6 SD. *P,0.05. doi:10.1371/journal.pone.0055027.gnormal (Fig. 1A C, E G). A single dose of ADR administration at 10.5 mg/kg body weight in wild type C57BL/6 mice did not induce any significant injury in kidneys (Fig. 1B F). However, in the ADR-treated eNOS-deficient group, PAS (Fig. 1D) and Masson trichrome staining (Fig. 1H) demonstrated severe histopathological changes including glomerular and tubulointerstitial damage, massive cast formation, glomerulosclerosis, and tubulointerstitial fibrosis. Overt proteinuria appeared 7 days after ADR administration and persisted thereafter (Fig. 2A). In eNOSdeficient mice, the mean body weight decreased quickly after ADR administration and the tendency persisted until day 14, afterwhich body weight recovered gradually (Fig. 2B). Kidney/body ratio in eNOS-deficient mice with ADR treatment increased at day 3, peaked at days 7 and 14 then returned to normal at day 28 (Fig. 2C). Serum creatinine continuously increased following ADR injection in eNOS-deficient mice and peaked at 4 weeks, the experimental end-point (Fig. 2D). In eNOS-deficient mice, high blood pressure persisted during the whole study but there was no significant change in blood pressure between NS-treated and ADR-treated groups (Fig. 2E). Immunostaining demonstrated that the production of collagen IV (Fig. 3 A to D I) and fibronectin (Fig. 3E to H I) was significantly increased in ADR-treatedGlomerular Endothelial Cell InjuryFigure 7. Apoptotic glomerular endothelial cells and podocytes in ADR-induced nephropathy in Balb/c mice. Apoptotic glomerular endothelial cells (A B) and podocytes (D E), triple labeled with terminal deoxynucleotidyl transferase-mediated digoxigenin-dNTP nick end-labeling (TUNEL; A, B, D and E, green), anti-CD31 (A B, red) and anti-synaptopodin (D E, red), were detected at days 1 (B) and 7 (D) after ADR injection in Balb/c mouse kidneys. Positive apoptotic cells (B D) were counterstained with DAPI nuclear staining. Sections from NS-treated kidneys (A C) were used as controls. Quantification of CD31+/TUNEL+ glomerular endothelial cells and synaptopodin+/TUNEL+ podocytes in glomeruli (E). Original magnification, 600 X. Magnification in insets, 1200 X. One-way ANOVA, n = 6, data are means 6 SD. Vs NS day 7, *P,0.05; **P,0.01; ***P,0.001. doi:10.1371/journal.pone.0055027.geNOS-deficient kidneys compared with NS-treated eNOS-deficient, NS-treated wild type and ADR-treated wild type kidneys. These results demonstrated that ADR administration in eNOSdeficient C57BL/6 mice leads to progressive renal fibrosis that by 4 weeks resembles chronic renal failure with marked functionalimpairment and severe histopathological alterations. These results suggest that endothelial dysfunction may lead to the development and progression of chronic kidney disease.Glomerular Endothelial Cell InjuryFigure 8. eNOS overexpression protecting podocytes from TNF-a-induced loss of synaptopodin. GFP eNOS ?positive (GFP-eNOS+) and GFP-eNOS ?negative (GFP-eNOS2) MMECs were obtained by FACS (A). Confocal microscopy of GFP in GFP-eNOS2 (B) and GFP-eNOS+ (C) MMECs. (D) Western blotting using anti-eNOS and anti-GFP antibodies to detect endogenous eNOS and overexpression of GFP-eNOS in GFP-eNOS2 and GFPeNOS+ MMECs. (E) Conditioned media from GFP-eNOS2 and GFP-eNOS+ MMECs was added to podocytes in the presence or absence of TNF-a, western blotting demonstrated expression levels of synaptopodin 36 hours after TNF-a stimulation. (F) Qu.