Further improvement of the technique and increase of the dialysis dose should result in a better and more realistic model for peritoneal dialysis. It is hoped that in the future these models will be useful to test the effects of long-term intraperitoneal application of different dialysis solutions and additives in uremic animals.
Our results demonstrate that local generation of NO, secondary to up-regulation of NOS isoforms, plays an important role in the regulation of peritoneal permeability during acute peritonitis in rats. By itself, NOS inhibition improves UF and reverses permeability changes, which might offer new therapeutic perspectives in acute peritonitis.
Abstract. The loss of ultrafiltration (UF) that accompanies acute peritonitis is a common problem in peritoneal dialysis (PD). It has been suggested that changes in nitric oxide (NO)-mediated vascular tone and permeability might be involved in the loss of UF, whereas channel-mediated water permeability should not be affected. This study used a model of acute peritonitis in rats to characterize changes in PD parameters, in correlation with: (1) expression studies of water channel aquaporin-1 and NO synthase (NOS) isoforms and (2) enzymatic assays for NOS in the peritoneum. Compared with controls, rats with peritonitis had a higher removal of plasma urea, a faster glucose absorption, and a loss of UF. Additional changes, including high protein loss, elevated leukocyte counts in dialysate, positive bacterial cultures, edema, and mononuclear infiltrates, were similar to those observed in PD patients with acute peritonitis. Acute peritonitis in rats induced a major increase in total NOS activity, which was inversely correlated with free-water permeability. The increased NOS activity was mediated by both inducible (Ca2+-independent) and endothelial (Ca2+-dependent) NOS isoforms and was reflected by increased peritoneal staining for nitrotyrosine. In contrast, aquaporin-1 expression was unchanged in rats with peritonitis. These findings cast light on the pathophysiology of permeability changes and loss of UF that characterize acute peritonitis. In particular, these data suggest that a local production of NO, mediated by different NOS isoforms, might play a key role in these changes.
Abstract. Advanced glycation end products (AGE), growth factors, and nitric oxide contribute to alterations of the peritoneum during peritoneal dialysis (PD). These mediators are also involved in chronic uremia, a condition associated with increased permeability of serosal membranes. It is unknown whether chronic uremiaper semodifies the peritoneum before PD initiation. A rat model of subtotal nephrectomy was used to measure peritoneal permeability after 3, 6, and 9 wk, in parallel with peritoneal nitric oxide synthase (NOS) isoform expression and activity and structural changes. Uremic rats were characterized by a higher peritoneal permeability for small solutes and an increased NOS activity due to the up-regulation of endothelial and neuronal NOS. The permeability changes and increased NOS activities correlated with the degree of renal failure. Focal areas of vascular proliferation and fibrosis were detected in uremic rats, in relation with a transient up-regulation of vascular endothelial growth factor and basic fibroblast growth factor, as well as vascular deposits of the AGE carboxymethyllysine and pentosidine. Correction of anemia with erythropoietin did not prevent the permeability or structural changes in uremic rats. Thus, in this rat model, uremia induces permeability and structural changes in the peritoneum, in parallel with AGE deposits and up-regulation of specific NOS isoforms and growth factors. These data suggest an independent contribution of uremia in the peritoneal changes during PD and offer a paradigm to better understand the modifications of serosal membranes in uremia.
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