Renal fibrosis is the final common pathway of chronic kidney diseases. Lymphatic vessel (LV) proliferation is found in human renal diseases and other fibrotic diseases, suggesting that lymphangiogenesis is associated with the progression or suppression of kidney diseases. However, the purpose of LV proliferation is not completely understood. We investigated the effect of vascular endothelial growth factor (VEGF)-C on lymphangiogenesis, inflammation, and fibrosis in the mouse kidney using the unilateral ureteral obstruction (UUO) model. In UUO mice, significant proliferation of LVs was accompanied by tubulointerstitial nephritis and fibrosis. We continuously administered recombinant human VEGF-C to UUO model mice using an osmotic pump (UUO+VEGF-C group). Lymphangiogenesis was significantly induced in the UUO+VEGF-C group compared with the vehicle group, despite similar numbers of capillaries in both groups. The number of infiltrating macrophages, and levels of inflammatory cytokines and transforming growth factor-β1 were reduced in the UUO+VEGF-C group compared with the vehicle group. Renal fibrosis was consequently attenuated in the UUO+VEGF-C group. In cultured lymphatic endothelial cells, administration of VEGF-C increased the activity and proliferation of lymphatic endothelial cells (LECs) and expression of adhesion molecules such as vascular cell adhesion molecule-1. These findings suggest that induction of lymphangiogenesis ameliorates inflammation and fibrosis in the renal interstitium. Enhancement of the VEGF-C signaling pathway in LECs may be a therapeutic strategy for renal fibrosis.
High perivascular lymphatic density is associated with favourable kidney allograft function. The perivascular lymphatic network may be involved in inhibition of allograft fibrosis and stabilization of graft function.
-Urinary protein (UP) is widely used as a clinical marker for podocyte injury; however, not all proteinuric nephropathies fit this model. We previously described the elevation of urinary angiotensinogen (AGT) accompanied by AGT expression by injured podocytes in a nitric oxide inhibition rat model (Eriguchi M, Tsuruya K, Haruyama N, Yamada S, Tanaka S, Suehiro T, Noguchi H, Masutani K, Torisu K, Kitazono T. Kidney Int 87: 116 -127, 2015). In this report, we performed the human and animal studies to examine the significance and origin of urinary AGT. In the human study, focal segmental glomerulosclerosis (FSGS) patients presented with higher levels of urinary AGT, corrected by UP, than minimal-change disease (MCD) patients. Furthermore, AGT was evident in podocin-negative glomerular segmental lesions. We also tested two different nephrotic models induced by puromycin aminonucleoside in Wistar rats. The urinary AGT/UP ratio and AGT protein and mRNA expression in sieved glomeruli from FSGS rats were significantly higher than in MCD rats. The presence of AGT at injured podocytes in FSGS rats was detected by immunohistochemistry and immunoelectron microscopy. Finally, we observed the renal tissue and urinary metabolism of exogenous injected human recombinant AGT (which is not cleaved by rodent renin) in FSGS and control rats. Significant amounts of human AGT were detected in the urine of FSGS rats, but not of control rats. Immunostaining for rat and human AGT identified that only rat AGT was detected in injured podocytes, and filtered human AGT was seen in superficial proximal tubules, but not in injured podocytes, suggesting AGT generation by injured podocytes. In conclusion, the urinary AGT/UP ratio represents a novel specific marker of podocyte injury.angiotensinogen; focal segmental glomerulosclerosis; minimalchange disease; podocyte; proteinuric nephropathy THE LOCAL RENIN-ANGIOTENSIN system (RAS) plays a crucial role in organ homeostasis, independently of the circulating RAS (15,26). The physiological function of the local RAS in the kidney includes the regulation of the glomerular filtration rate, blood pressure, and reabsorption at proximal tubules (3,19). In contrast, pathological long-term elevation of the intrarenal RAS leads to hypertension and renal injury (17,28,34). In pathological conditions, there is a vicious cycle of local RAS activation and organ dysfunction in the kidney, with local RAS activation augmenting organ dysfunction and vice versa. Therefore, local RAS elevation predicts not only disease prognosis but also the activity of organ injury.Several reports have demonstrated that urinary angiotensinogen (AGT) is a good marker of intrarenal RAS (13, 15, 16). Urinary AGT is elevated and associated with renal prognosis in both patients with various kidney diseases (18, 34) and experimental models (4, 22). However, the origin of AGT in the urine and the kidney is a matter of debate (25), specifically whether it is derived from circulating AGT (liver derived) (23) or from intrarenal generation (24)...
Fibroblast growth factor 23 (FGF23) levels in dialysis patients are influenced by various factors, including phosphorus load. However, the clinical parameters that determine serum FGF23 levels in patients on peritoneal dialysis (PD) remain unclear. The aim of the present study was to examine the effects of clinical factors, on serum FGF23 levels, with an emphasis on residual renal function (RRF). This cross-sectional study included 56 outpatients undergoing PD therapy. Urine volume ≥ 100 mL/day or renal creatinine (Cr) clearance was used as a surrogate marker for RRF. Clinical characteristics were compared between patients with and without RRF. Linear regression analysis was conducted with serum FGF23 level as the dependent variable and renal Cr clearance as the main independent variable. The median and interquartile range of serum FGF23 levels were 5970 (1451-11,688) pg/mL. Patients with RRF showed higher urinary and total phosphate eliminations, and lower serum FGF23 and phosphate levels than patients without RRF. Multivariate linear regression analysis showed that the renal Cr clearance and serum phosphate and dialysis history were negatively associated with serum FGF23 levels, even after adjusting for potential confounders including peritoneal Cr clearance. Further, the predictabilities of serum FGF23 were comparable among renal Cr clearance, Kt/V for urea, and renal phosphate clearance. RRF determined by renal Cr clearance or residual urine volume is an independent negative determinant of serum FGF23 levels in PD patients.
Fibroblast growth factor (FGF) 23 plays an important role in regulation of renal phosphate excretion in patients with chronic kidney disease. However, it remains undetermined whether FGF23 is closely linked to renal phosphate handling in patients with low glomerular filtration rate (GFR). The present cross-sectional study included 52 outpatients undergoing peritoneal dialysis with urine volume ≥ 100 mL/day. The primary outcome was level of urinary phosphate excretion, and the secondary outcomes were tubular maximal reabsorption of phosphate normalized to GFR (TmP/GFR), an index of the renal threshold for phosphate excretion, and level of peritoneal phosphate excretion. Variates of interest were serum FGF23 and parathyroid hormone (PTH) levels. The median and interquartile range of serum FGF23 level, TmP/GFR, and total urinary and peritoneal phosphate excretion were 5610 (1493-11 430) ng/mL, 1.30 (0.44-1.86) mg/dL, 117 (40-234) mg/day, and 208 (156-250) mg/day, respectively. Multivariate linear regression analysis revealed that serum FGF23 level was significantly (P < 0.05) associated with TmP/GFR negatively and significantly (P < 0.05) associated with urinary phosphate excretion positively, even after adjusting for confounders. In contrast, none of the three outcome variates was associated with serum PTH level. Neither serum FGF23 nor PTH level was associated with peritoneal phosphate excretion. The present study indicates that FGF23, but not PTH, is involved in urinary phosphate regulation, even in patients on peritoneal dialysis with residual renal function.
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