The Effect of N-Acetylcysteine on Proteinuria and Markers of Tubular Injury in Non-Diabetic Patients with Chronic Kidney Disease

The signaling pathways involved in the long-term metabolic effects of angiotensin II (Ang II) in vascular smooth muscle cells are incompletely understood but include the generation of molecules likely to affect oxidase activity. We examined the ability of Ang II to stimulate superoxide anion formation and investigated the identity of the oxidases responsible for its production. Treatment of vascular smooth muscle cells with Ang II for 4 to 6 hours caused a 2.7 +/- 0.4-fold increase in intracellular superoxide anion formation as detected by lucigenin assay. This superoxide appeared to result from activation of both the NADPH and NADH oxidases. NADPH oxidase activity increased from 3.23 +/- 0.61 to 11.80 +/- 1.72 nmol O2-/min per milligram protein after 4 hours of Ang II, whereas NADH oxidase activity increased from 16.76 +/- 2.13 to 45.00 +/- 4.57 nmol O2-/min per milligram protein. The NADPH oxidase activity was stimulated by exogenous phosphatidic and arachidonic acids and was partially inhibited by the specific inhibitor diphenylene iodinium. NADH oxidase activity was increased by arachidonic and linoleic acids, was insensitive to exogenous phosphatidic acid, and was inhibited by high concentrations of quinacrine. Both of these oxidases appear to reside in the plasma membrane, on the basis of migration of the activity after cellular fractionation and their apparent insensitivity to the mitochondrial poison KCN. These observations suggest that Ang II specifically activates enzyme systems that promote superoxide generation and raise the possibility that these pathways function as second messengers for long-term responses, such as hypertrophy or hyperplasia.

The urinary excretion of N-acetyl-beta-glucosamynidase (NAG) is increased in subjects exposed to substances toxic for renal tubular cells. In experimental and human glomerular diseases, its increased excretion is probably due to the dysfunction of tubular epithelial cells induced by increased traffic of proteins in the tubular lumen. The first aim of this study was to evaluate whether NAG excretion is correlated not only with the amount of proteinuria but also with some proteinuric components which reflect both glomerular capillary wall damage (IgG) and an impairment of tubular reabsorption of microproteins (alpha(1) microglobulin). The second aim was to assess whether NAG excretion has a predictive value on functional outcome and response to therapy. In 136 patients with primary glomerulonephritis [74 with idiopathic membranous nephropathy (IMN), 44 with primary focal segmental glomerulosclerosis (FSGS) and 18 with minimal change disease (MCD)] urinary NAG excretion was measured by a colorimetric method and expressed in units per gram of urinary creatinine. Using univariate linear regression analysis NAG excretion in all 136 patients was significantly dependent on IgG excretion, 24-h proteinuria, fractional excretion of alpha(1) microglobulin (FE alpha(1)m) and diagnosis. Using multiple linear regression analysis, NAG excretion was significantly dependent only on IgG excretion and 24-h proteinuria. Limiting the analysis to 67 patients with nephrotic syndrome (NS) and baseline normal renal function, by multiple linear regression, NAG excretion was significantly dependent on IgG excretion (P=0.0004), 24-h proteinuria (P=0.0067) and FE alpha(1)-m (P=0.0032) (R(2)=0.63). In 66 patients with NS and normal baseline renal function (MCD 10 patients; FSGS 20 patients; IMN 36 patients), according to values below or above defined cut-offs (IMN, 18 U/g urinary Cr; FSGS and MCD, 24 U/g urinary Cr), NAG excretion predicted remission in 86 vs 27% of IMN patients (P=0.0002) and 77 vs 14% of FSGS patients (P=0.005). Progression to chronic renal failure (CRF) was 0 vs 47% in IMN patients (P=0.001) and 8 vs 57% in FSGS patients (P=0.03). Using Cox model, in IMN patients only NAG excretion (P=0.01, RR 5.8), but not 24-h proteinuria, predicted progression to CRF. All MCD patients had NAG excretion values below the chosen cut-off, and 90% of them developed remission. Response to immunosuppressive therapy was significantly different in patients with NAG excretion values below or above the cut-offs. Urinary NAG excretion can be considered as a reliable marker of the tubulo-toxicity of proteinuria in the early stage of IMN, FSGS and MCD; the excretion values show a significant relationship with 24-h proteinuria, IgG excretion and FE alpha(1)m. Its determination may be a non-invasive, useful test for the early identification of patients who will subsequently develop CRF or clinical remission and responsiveness to therapy.