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  • Title: Improved dialysis removal of protein-bound uremic toxins by salvianolic acids.
    Author: Li J, Wang Y, Xu X, Cao W, Shen Z, Wang N, Leng J, Zou N, Shang E, Zhu Z, Guo J, Duan J.
    Journal: Phytomedicine; 2019 Apr; 57():166-173. PubMed ID: 30772752.
    Abstract:
    BACKGROUND: Indoxyl sulfate (IS) and p-cresyl sulfate (pCS) are two key protein-bound uremic toxins that accumulate in patients with end-stage renal disease. IS and pCS cannot be efficiently removed by conventional hemodialysis because they are highly bound to proteins. One promising means to optimize the removal of protein-bound uremic toxins involves using binding competitors to liberate uremic toxins from protein-binding partners. PURPOSE: In this study, we try to identify potential binding competitors that can enhance the dialysis removal of IS and pCS in natural compounds of phytomedicine. METHODS: We employed microdialysis to evaluate whether Danhong injection (DHI) and its salvianolic acids can increase the free fractions of IS and pCS and thus improve their dialysis efficiency in vitro. Furthermore, we confirmed the positive effects of DHI and salvianolic acids in vivo on chronic kidney disease model rats in which IS and pCS had heavily accumulated. RESULTS: DHI significantly increased the dialysis efficiency of IS and pCS by 99.13% and 142.00% in vitro (10-fold dilution), respectively, and by 135.61% and 272.13% in vivo (4.16 ml/kg). Salvianolic acids including lithospermic acid (LA), salvianolic acid A (SaA), tanshinol (DSS), caffeic acid (CA), salvianolic acid B (SaB), protocatechuic aldehyde (PA) and rosmarinic acid (RA) significantly enhanced the dialysis removal of IS and pCS in a concentration-dependent manner. LA, the best competitor of the tested salvianolic acids, increased dialysis efficiency levels of IS and pCS by 197.23% and 198.31% in vitro (400 μM), respectively, and by 119.55% and 127.56% in vivo (24.69 mg/kg). CONCLUSION: The removal of protein-bound uremic toxins IS and pCS using DHI or salvianolic acids as protein-bound competitors is superior to previously reported strategies and drugs and may contribute to clinical hemodialysis therapeutic practice.
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