心脏移植等待名单上患者核质转运的分子改变及其与心力衰竭严重程度和病因的相关性。
Molecular Alterations of Nucleocytoplasmic Transport in Patients on the Heart Transplantation Waiting List and Its Correlation With the Severity and Etiology of Heart Failure.
作者信息
Ezzitouny M, Sánchez-Lázaro I, Rivera M, Portolés-Sanz M, Roselló-Lletí E, Gil-Cayuela C, Almenar-Bonet L, López-Vilella R, Ferré-Vallverdú M, Sanz-Sánchez J, Cerveró-Rubio A, Jiménez-Aguilella J J, Pérez-Roselló V, Donoso-Trenado V, Arenas-Martín P, Lozano-Edo S, Jover-Pastor P, Martínez-Dolz L
机构信息
Cardiology Service, La Fe University and Polytechnic Hospital, Valencia, Spain.
Heart Failure and Transplant Unit, La Fe University and Polytechnic Hospital, Valencia, Spain.
出版信息
Transplant Proc. 2019 Mar;51(2):369-371. doi: 10.1016/j.transproceed.2018.12.013. Epub 2018 Dec 12.
OBJECTIVES
To evaluate whether the levels of some molecules implicated in nucleocytoplasmic transport in human cardiomyocytes are related to the severity of heart failure (HF) in patients on the heart transplantation (HT) waiting list, and to determine whether there is a differential pattern of molecular alteration between ischemic cardiomyopathy (ICM) and non-ischemic dilated cardiomyopathy (DCM).
METHODS
Sixty-three blood samples collected before HT were analyzed to identify the levels of IMPORTIN5 (IMP5); IMPORTINalpha2; ATPaseCaTransp (ATPCa); NUCLEOPORIN153kDa (Nup153); NUCLEOPORIN160kDa (Nup160); RANGTPaseAP1 (RanGAP1) and EXPORTIN4 (EXP4). These data were then compared between patients with advanced HF with or without the need for ventricular support with extracorporeal membrane oxygenation (ECMO) as a bridge for HT, as well as between patients with non-ischemic DCM and patients with ICM.
RESULTS
Thirty-three patients had ICM, 26 had non-ischemic DCM, and 4 had heart disease. Seventeen patients required ventricular assistance as a bridge to HT. The levels of ATPCa, RanGAP1, and IMP5 were significantly higher in patients with ECMO, while EXP4 was significantly higher in patients without ECMO. Patients with DCM showed higher levels of IMP5, RanGAP1, and Nup153 than those with ICM.
CONCLUSION
Patients with advanced HF in critical condition (with ECMO as a bridge for HT) presented with significantly higher levels of ATPCa, RanGAP1, and IMP5, while patients with DCM had significantly higher levels of RanGAP1, IMP5, and Nup153. It remains to be clarified whether the determination of these molecules would facilitate the early identification of this group or if their alteration occurs as consequence of circulatory support with ECMO.
目的
评估人类心肌细胞中参与核质运输的某些分子水平是否与心脏移植(HT)等待名单上患者的心力衰竭(HF)严重程度相关,并确定缺血性心肌病(ICM)和非缺血性扩张型心肌病(DCM)之间是否存在分子改变的差异模式。
方法
分析HT前采集的63份血液样本,以确定输入蛋白5(IMP5)、输入蛋白α2、ATP酶钙转运体(ATPCa)、核孔蛋白153kDa(Nup153)、核孔蛋白160kDa(Nup160)、RANGTP酶激活蛋白1(RanGAP1)和输出蛋白4(EXP4)水平。然后将这些数据在有或没有作为HT桥梁接受体外膜肺氧合(ECMO)心室支持的心衰晚期患者之间进行比较,以及在非缺血性DCM患者和ICM患者之间进行比较。
结果
33例患者患有ICM,26例患有非缺血性DCM,4例患有其他心脏病。17例患者需要心室辅助作为HT的桥梁。接受ECMO治疗的患者中,ATPCa、RanGAP1和IMP5水平显著更高;而未接受ECMO治疗患者中的EXP4水平显著更高。DCM患者的IMP5、RanGAP1和Nup153水平高于ICM患者水平。
结论
处于危急状态(以ECMO作为HT桥梁)的心衰晚期患者中,ATPCa、RanGAP1和IMP5水平显著更高;而DCM患者中,RanGAP1、IMP5和Nup153水平显著更高。这些分子的测定是否有助于早期识别该组患者,或者它们的改变是否是ECMO循环支持的结果,仍有待阐明
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