Therefore, high throughput screening compounds it is not surprising that Klotho is implicated in pleiotropic pathophysiological regulation. Indeed, a defect in klotho gene expression has been reported to cause systemic phenotypes similar to those observed in patients with chronic renal failure [1, 7]. On the other hand, reduced renal production of Klotho is observed not only in patients with chronic renal failure, but also in those with acute kidney injury [5, 8]. However, the relationship between the amount of urinary excreted Klotho and renal function among patients with chronic renal failure still remains poorly understood. Recently, a sandwich
enzyme-linked immunosorbent assay (ELISA) system has been established for the soluble form of Klotho [9]. In the present study, Imatinib mw this system was used to determine not only the serum but also the urine Klotho levels among patients treated with peritoneal dialysis
(PD). The qualitative and quantitative relationships between the soluble form of Klotho and the residual renal function were also explored. Patients, materials, and methods Thirty-six patients with end-stage renal failure who were undergoing PD with conventional dialysis fluid and who had a urine output of at least 100 ml per day participated in the study. The patients were in a stable condition, and none had peritonitis at the time of the study or in the 4 weeks preceding the study. The body weight at the start and end of each dialysis exchange was also recorded. The usual medications, such as anti-hypertensives, erythropoietin, and phosphate binders, were continued during the study period. For comparison, eleven normal control subjects who ages ranged
from 20 to 74 years were also included in the present study. The research protocol was approved by the Medical Ethics Committee Molecular motor of Jichi Medical University, and all patients included in the present study provided their informed consent. Urine and dialysate samples were taken not only for determining the level of soluble Klotho, but also for evaluating the residual renal function, peritoneal clearance of creatinine and urea, and the KT/V urea index, which integrates the efficiency of solute removal (urea clearance, K), treatment duration (T), and patient size (urea distribution volume, V) determined from the formula described by the Canada-USA (CANUSA) peritoneal dialysis study group [9] and Watson et al. [10]. Urine and dialysate specimens were collected during a 24-h study period for the clearance determinations. The patients were able to accurately carry out urine collection and peritoneal dialysis exchanges. The serum sodium, chloride, potassium, calcium, inorganic phosphate, urea, and creatinine levels were all measured just after the collection periods.