2024-03-29T15:07:53Zhttps://www.tdx.cat/oai/requestoai:www.tdx.cat:10803/43912017-09-01T04:56:56Zcom_10803_120col_10803_138
00925njm 22002777a 4500
dc
Blanco Cano, Sandra
author
2002-01-29
Background. Recent experimental studies have suggested a relevant contribution of lipid abnormalities in the development of the glomerulosclerosis associated with NIDDM-related nephropathy. Furthermore, clinical studies have recently suggested that HMG-CoA reductase inhibitors reduce proteinuria in diabetic population. However, it remains unclear how lipids cause glomerulosclerosis. The aim of this study was to assess whether primary lipid correction diminishes glomerulosclerosis and to characterize the mechanisms involved.<br/>Methods. Obese Zucker rats were used as a model of early diabetic nephropathy. Histological (desmin, chemokines, ED1, Ki67), biochemical and molecular analysis (TGF-b1 and PDGF-B) were performed to characterize the glomerular lesions. The high-tissue affinity ACE inhibitor quinapril was selected as a positive control of treatment<br/>Results. Multivariate regression analysis showed that lesions in OZR may have been produced mainly by cholesterol. The lesions showed positive desmin staining in podocytes and weak cytokine expression. ACE inhibition normalized proteinuria, glomerular lesions and desmin staining in podocytes. HMG-CoA inhibition with atorvastatin ameliorated renal damage and proteinuria, and was independently associated with high cholesterol levels. <br/>Conclusions. Renal lesions in OZR were correlated with high blood cholesterol levels, proteinuria and glomerular damage. Atorvastatin decreased proteinuria and preserved podocyte injury, probably due to the improvement on blood lipids as well as to its non-lipid effects. As expected, quinapril exerted a more marked beneficial effect on those parameters. Treatment with ACE inhibitors and statins could be relevant for the treatment of diabetic nephropathy in humans.<br/>Key words: cholesterol, atorvastatin, podocyte, Zucker obese, quinapril.
8468817260
http://www.tdx.cat/TDX-1104102-182105
http://hdl.handle.net/10803/4391
B-14037-2003
Glomerulosclerosis
Células podocitarias
Zucker obese
Glomerulosclerosis segmentaria y focal en el modelo de la rata Zucker Obese. ¿Es un modelo experimental de causa plurimetabólica? Importancia de las células podocitarias