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1. Uromodulin, an immunosuppressive glycoprotein found in urine, is a high-affinity binding ligand for certain cytokines, including tumour necrosis factor. 2. Its occurrence in urine was monitored after renal transplantation to investigate whether this simple urine test might differentiate common early causes of graft failure: acute immune rejection and acute tubular necrosis. 3. Diluted urine was assayed for uromodulin using a sandwich enzyme-linked immunosorbent assay. When graft function failed due to acute tubular necrosis, urinary uromodulin levels were significantly depressed compared with levels in urine produced during biopsy-proven acute immune rejection episodes (P < 0.01) or during periods of stable graft function (P < 0.02). This suggests that urinary levels of uromodulin may reflect tubular damage rather than other causes of graft functional failure. 4. The cytokine tumour necrosis factor, which binds with high affinity to uromodulin, was found in 30% of urine samples in association with immune rejection episodes, but not during acute tubular necrosis. However, the presence of urinary tumour necrosis factor was not related to levels of uromodulin in the same sample.

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Renal Tubular Peptide Catabolism in Chronic Vascular Rejection

Rustom

Ra³

et al. 2001

Renal Failure

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Chronic vascular rejection (CR) is the commonest cause of renal transplant loss, with few clues to etiology, but proteinuria is a common feature. In diseased native kidneys, proteinuria and progression to failure are linked. We proposed a pathogenic role for this excess protein at a tubular level in kidney diseases of dissimilar origin. We demonstrated in both nephrotic patients with normal function and in those with failing kidneys increased renal tubular catabolism and turnover rates of a peptide marker, Aprotinin (Apr), linked to increased ammonia excretion and tubular injury. These potentially injurious processes were suppressed by reducing proteinuria with Lisinopril. Do similar mechanisms of renal injury and such a linkage also occur in proteinuric transplanted patients with CR, and if so, is Lisinopril then of beneficial value? We now examine these aspects in 11 patients with moderate/severe renal impairment (51CrEDTA clearance 26.2+/-3.3 mL/min/1.73 m2), proteinuria (6.1+/-1.5 g/24 h) and biopsy proven CR. Lisinopril (10-40 mg) was given daily for 2 months in 7 patients. Four others were given oral sodium bicarbonate (Na HCO3) for 2 months before adding Lisinopril. Renal tubular catabolism of intravenous 99mTc-Apr (Apr* 0.5 mg, 80MBq), was measured before and after Lisinopril by gamma-ray renal imaging and urinary radioactivity of the free radiolabel over 26 h. Fractional degradation was calculated from these data. Total 24 h urinary N-acetyl-beta-glucoaminidase (NAG) and ammonia excretion in fresh timed urine collections were also measured every two weeks from two months before treatment. After Lisinopril proteinuria fell significantly (from 7.8+/-2.2 to 3.4+/-1.9 g/24 h, p<0.05). This was associated with a reduction in metabolism of Apr* over 26 h (from 0.5+/-0.05 to 0.3+/-0.005% dose/h, p < 0.02), and in fractional degradation (from 0.04+/-0.009 to 0.02+/-0.005/h, p<0.01). Urinary ammonia fell, but surprisingly not significantly and this was explained by the increased clinical acidosis after Lisinopril, (plasma bicarbonate fell from 19.1+/-0.7 to 17.4+/-0.8 mmol/L, p < 0.01), an original observation. Total urinary NAG did fall significantly from a median of 2108 (range 1044-3816) to 1008 (76-2147) micromol/L, p < 0.05. There was no significant change in blood pressure or in measurements of glomerular hemodynamics. In the 4 patients who were given Na HCO3 before adding Lisinopril, both acidosis (and hyperkalemia) were reversed and neither recurred after adding Lisinopril. These observations in proteinuric transplanted patients after Lisinopril treatment have not been previously described.

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TNF Staining of Graft Biopsies in Renal Transplantation

Aikawa

Pj²,

Iw³

et al. 1993

Transplantation

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TNF staining of graft biopsy in renal transplantation

Aikawa

et al. 1992

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Induction of Immunological Tolerance by Porcine Liver Allografts

Uromodulin levels are decreased in urine during acute tubular necrosis but not during immune rejection after renal transplantation

Renal Tubular Peptide Catabolism in Chronic Vascular Rejection

TNF Staining of Graft Biopsies in Renal Transplantation

TNF staining of graft biopsy in renal transplantation

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