Background: A high level of circulating PCSK9 binds to the LDL receptor, reduces its cell's surface density and leads to hypercholesterolemia. The aim of this study was to examine the circulating PCSK9 level in patients with kidney disease. Methods: Out of the patients treated in our Departments we selected: (a) 44 patients with CKD stage 3 and 4 (b) 29 patients with CKD stage 5 on maintenance hemodialysis treatment; and (c) 20 patients after successful renal transplantation. Thirty-four subjects, without CKD formed the control group. Serum biochemical parameters' concentrations were assayed by a certified laboratory. Serum PCSK9 concentration was estimated by a commercially available ELISA kit. Results: The mean serum concentration of PCSK9 in patients with kidney disease was higher than in the control group (238.7 ± 64.5 vs. 536.7 ± 190.4; p < 0.001). A strong negative correlation between serum PCSK9 concentration and eGFR was found (r = -0.66; p < 0.001), as well as between serum concentrations of PCSK9 and total- (r = 0.482; p < 0.05) or LDL-cholesterol (r = 0.533; p < 0.05), but exclusively in patients not receiving statins. The elevated serum concentration of PCSK9 in patients before hemodialysis session declined afterwards, reaching the values observed in patients after kidney transplantation and in the control group. Conclusion: The circulating PCSK9 concentration is increased in patients with CKD; however, this is not accompanied by hypercholesterolemia. The positive correlations between PCSK9/TCh and PCSK9/LDL-Ch have been found only in patients not treated with statins. The elevated circulating PCSK9 level is corrected by maintenance hemodialysis treatment and normalized by a successful kidney transplantation.
Chemerin is an adipokine modulating inflammatory response and affecting glucose and lipid metabolism. These disturbances are common in CKD. The aim of the study was: (a) to evaluate circulating chemerin level at different stages of CKD; (b) to measure subcutaneous adipose tissue chemerin gene expression; (c) to estimate the efficiency of renal replacement therapy in serum chemerin removal. 187 patients were included into the study: a) 58 patients with CKD; (b) 29 patients on hemodialysis; (c) 20 patients after kidney transplantation. 80 subjects constituted control group. Serum chemerin concentration was estimated by ELISA. The adipose tissue chemerin mRNA level was measured by RT-qPCR. The mean serum chemerin concentration in CKD patients was 70% higher than in the control group (122.9 ± 33.7 vs. 72.6 ± 20.7 ng/mL; p < 0.001) and it negatively correlated with eGFR (r = -0.71, p < 0.001). The equally high plasma chemerin level was found in HD patients and a HD session decreased it markedly (115.7 ± 17.6 vs. 101.5 ± 16.4 ng/mL; p < 0.001). Only successful kidney transplantation allowed it to get down to the values noted in controls (74.8 ± 16.0 vs. 72.6 ± 20.7 ng/mL; n.s.). The level of subcutaneous adipose tissue chemerin mRNA in CKD patients was not different than in patients of the control group. The study demonstrates that elevated serum chemerin concentration in CKD patients: (a) is related to kidney function, but not to increased chemerin production by subcutaneous adipose tissue, and (b) it can be efficiently corrected by hemodialysis treatment and normalized by kidney transplantation.
Impaired immunological response in hemodialysis (HD) patients, which leads to inappropriate cytokine production, is partially caused by the hyperstimulation of both T lymphocytes and monocytes/macrophages. Recent data suggest that human recombinant erythropoietin (rhEPO) may have an immunological action. The goal of our study was to estimate the influence of rhEPO treatment on the production of the inflammatory cytokine tumor necrosis factor alpha (TNFalpha) and antiinflammatory cytokin interleukin-10 (IL-10) in 10 HD patients receiving rhEPO for 6 months. The levels of cytokines were measured in the in vitro cultures of whole blood. The level of IL-10 increased in all treated patients during the therapy, and it was accompanied by a transitory decrease of TNFalpha. The results of our studies suggest that rhEPO may reduce the inflammatory process by decreasing production of TNFalpha and increasing production of IL-10.
Renin-angiotensin-aldosterone system (RAAS) blockade is currently the best-documented treatment strategy to delay the progression of chronic proteinuric nephropathies. Several large randomized controlled trials have shown the renoprotective potential of angiotensin-converting enzyme inhibitors (ACEIs) and angiotensin II receptor blockers (ARBs) in nephropathies of almost any etiology. Mineralocorticoid receptor antagonists and the direct renin inhibitor aliskiren as add-on treatments to standard therapy including the optimal dose of ACEIs or ARBs reduce albuminuria or proteinuria and retard development of renal dysfunction more than placebo. No clinical evidence is available, however, about whether these strategies may influence long-term kidney disease outcomes. Combined RAAS blockade may be offered only to patients with proteinuric chronic nephropathies who do not achieve full and persistent remission of proteinuria with ACEI or ARB alone. They need to be carefully monitored for hyperkalemia and worsening of kidney function. This article reviews an evidence-based approach to use of RAAS-inhibiting agents in kidney diseases, considers combination RAAS blockade treatment strategies and discusses some perspectives related to the implementation of RAAS blockade in renal protection.
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