Markéta Kazderová scite author profile

Background. The receptor for advanced glycation end products (RAGE) is involved in the pathogenesis of vascular and inflammatory diseases. The pathological effects mediated via RAGE are physiologically inhibited by soluble RAGE (sRAGE). Our aim was to study sRAGE and RAGE gene polymorphisms in haemodialysis (HD) patients. Methods. A total of 261 stable HD patients were enrolled in the study and prospectively followed up for 30 months. At the begining of the study, sRAGE inflammatory and nutritional parameters were determined. RAGE polymorphisms were determined in a subgroup of 214 HD patients. A group of 100 healthy controls was used for comparison. Results. In HD patients, sRAGE is elevated in comparison with healthy controls (3427 AE 1508 vs 1758 AE 637 pg/ml, P < 0.001). It correlates negatively with residual diuresis (r ¼ À0.193, P < 0.05), with the acute phase reactants fibrinogen (r ¼ À0.174, P < 0.05) and orosomucoid (r ¼ À0.135, P < 0.05) and with the leucocyte count (r ¼ À0.158, P < 0.05). On the other hand, it is not related to the presence of diabetes mellitus, cardiovascular disease, nutritional status and mortality. The highest sRAGE levels are found in À429 CC and 2184 GG polymorphisms of the RAGE gene. The same results as for sRAGE were obtained for endogenous secretory RAGE (esRAGE), which correlated significantly with sRAGE (r ¼ 0.88, P < 0.001). Conclusion. We conclude that in HD patients, sRAGE is increased due to decreased renal function, which is a very strong determinant of sRAGE levels, and is inversely related to inflammation. The highest sRAGE levels are influenced genetically.In our study, sRAGE levels were not related to mortality of HD patients.

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Culture Methods of Glomerular Podocytes

Krtil¹,

Plátenı́k²,

Kazderová

et al. 2007

Kidney Blood Press Res

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Podocytes (glomerular visceral epithelial cells) cover the exterior surface of the glomerular capillaries and contribute to the glomerular filtration membrane. Failure of podocyte function is involved in the progression of chronic glomerular disease; accordingly, research interest into podocyte biology is driven by the need for better protection and perhaps recovery of these cells in renal diseases. This review aims at summarizing available techniques for podocyte cell cultures from both the past and present, with special attention to the currently used methods. The establishment of classical primary cultures is based on isolation of glomeruli by differential sieving. Plating of glomeruli onto a collagen surface is followed by an outgrowth of cobblestone-like cells that, after replating, differentiate into arborized, mature podocytes. Currently, the majority of research studies use immortalized podocytic cell lines most often derived from transgenic mice bearing a conditional immortalizing gene. The podocytes can also be collected and cultured from healthy or diseased animal or patient urine. The urinary podocytes obtained from subjects with active glomerulopathies display higher proliferation potential and viability in vitro, perhaps due to disease-induced transdifferentiation. Finally, a list of phenotypic markers useful for identification and characterization of the cultured podocytic elements is provided.

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Mycophenolate Mofetil in Low Doses Stabilizes and Improves Antineutrophil Cytoplasmic Antibody-associated Vasculitis and Lupus Nephritis

Kazderová

Jančová

Ryšavá

et al. 2008

Archives of Medical Research

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