一项体外研究表明,磷酸盐结合剂通过非预期的结合作用影响维生素K浓度。
Phosphate binders affect vitamin K concentration by undesired binding, an in vitro study.
作者信息
Neradova A, Schumacher S P, Hubeek I, Lux P, Schurgers L J, Vervloet M G
机构信息
Department of Nephrology, VU University Medical Center, De Boelelaan 1117, 1081 HV, Amsterdam, The Netherlands.
Department of cardiology, VU University Medical Center, Amsterdam, The Netherlands.
出版信息
BMC Nephrol. 2017 May 2;18(1):149. doi: 10.1186/s12882-017-0560-3.
BACKGROUND
Vascular calcification is a major contributing factor to mortality in end stage renal disease (ESRD). Despite the efficacy of phosphate binders to improve hyperphosphatemia, data on vascular calcification are less clear. There seems to be a difference in attenuation or delay in progression between different binders. In this in vitro experiment we tested whether phosphate binders could limit bioavailability of vitamin K2 by undesired binding. Vitamin K-deficiency limits activation of the vascular tissue mineralization inhibitor matrix γ-carboxyglutamate (Gla) protein (MGP) thereby exacerbating vascular calcification.
METHODS
In this experiment vitamin K2 (menaquinone-7; MK-7) binding was assessed by adding 1 mg of vitamin K2 to a medium with pH 6 containing 67 mg phosphate binder with either 7 mg of phosphate or no phosphate. Five different phosphate binders were tested. After five and a half hours vitamin K was analyzed by HPLC. All experiments were performed in triplicate.
RESULTS
Sucroferric-oxyhydroxide and sevelamer carbonate did not significantly bind vitamin K2, both in solution only containing vitamin K2 or in combination with phosphate. Calcium acetate/magnesium carbonate binds vitamin K2 strongly both in absence (p = 0.001) and presence of phosphate (p = 0.003). Lanthanum carbonate significantly binds vitamin K2 in solution containing only vitamin K2 (p = 0.005) whereas no significant binding of vitamin K2 was observed in the solution containing vitamin K2 and phosphate (p = 0.462). Calcium carbonate binds vitamin K2 significantly in a solution with vitamin K2 and phosphate (p = 0.009) whereas without phosphate no significant binding of vitamin K2 was observed (p = 0.123).
CONCLUSIONS
Sucroferric-oxyhydroxide and sevelamer carbonate were the only binders of the five binders studied that did not bind vitamin K2 in vitro. The presence or absence of phosphate significantly interferes with vitamin K2 binding so phosphate binders could potentially limit bioavailability vitamin K2.
背景
血管钙化是终末期肾病(ESRD)患者死亡的主要促成因素。尽管磷结合剂在改善高磷血症方面有效,但关于其对血管钙化影响的数据尚不清楚。不同的磷结合剂在减轻或延缓血管钙化进展方面似乎存在差异。在本体外实验中,我们测试了磷结合剂是否会通过非预期结合限制维生素K2的生物利用度。维生素K缺乏会限制血管组织矿化抑制剂基质γ-羧基谷氨酸(Gla)蛋白(MGP)的激活,从而加剧血管钙化。
方法
在本实验中,通过向pH值为6、含有67mg磷结合剂(含7mg磷或不含磷)的培养基中添加1mg维生素K2来评估维生素K2(甲萘醌-7;MK-7)的结合情况。测试了五种不同的磷结合剂。五个半小时后,通过高效液相色谱法分析维生素K。所有实验均重复三次。
结果
在仅含维生素K2的溶液中或与磷联合存在时,羟基氧化铁蔗糖和碳酸司维拉姆均未与维生素K2发生显著结合。醋酸钙/碳酸镁在不存在磷(p = 0.001)和存在磷(p = 0.003)的情况下均能强烈结合维生素K2。碳酸镧在仅含维生素K2的溶液中能显著结合维生素K2(p = 0.005),而在含维生素K2和磷的溶液中未观察到维生素K2的显著结合(p = 0.462)。碳酸钙在含维生素K2和磷的溶液中能显著结合维生素K2(p = 0.009),而在不含磷的情况下未观察到维生素K2的显著结合(p = 0.123)。
结论
羟基氧化铁蔗糖和碳酸司维拉姆是所研究的五种磷结合剂中仅有的两种在体外不与维生素K2结合的磷结合剂。磷的存在与否会显著干扰维生素K2的结合,因此磷结合剂可能会潜在地限制维生素K2的生物利用度。
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