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 transplant Show more
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). 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. 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. 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. Show less
The objectives of this study were to analyse the effect of heart failure (HF) on several proteins of nuclear pore complex (NPC) and their relationship with the human ventricular function. A total of 8 Show more
The objectives of this study were to analyse the effect of heart failure (HF) on several proteins of nuclear pore complex (NPC) and their relationship with the human ventricular function. A total of 88 human heart samples from ischemic (ICM, n = 52) and dilated (DCM, n = 36) patients undergoing heart transplant and control donors (CNT, n = 9) were analyzed by Western blot. Subcellular distribution of nucleoporins was analysed by fluorescence and immunocytochemistry. When we compared protein levels according to etiology, ICM showed significant higher levels of NDC1 (65%, p<0.0001), Nup160 (88%, p<0.0001) and Nup153 (137%, p = 0.004) than those of the CNT levels. Furthermore, DCM group showed significant differences for NDC1 (41%, p<0.0001), Nup160 (65%, p<0.0001), Nup153 (155%, p = 0.006) and Nup93 (88%, p<0.0001) compared with CNT. However, Nup155 and translocated promoter region (TPR) did not show significant differences in their levels in any etiology. Regarding the distribution of these proteins in cell nucleus, only NDC1 showed differences in HF. In addition, in the pathological group we obtained good relationship between the ventricular function parameters (LVEDD and LVESD) and Nup160 (r = -0382, p = 0.004; r = -0.290, p = 0.033; respectively). This study shows alterations in specific proteins (NDC1, Nup160, Nup153 and Nup93) that compose NPC in ischaemic and dilated human heart. These changes, related to ventricular function, could be accompanied by alterations in the nucleocytoplasmic transport. Therefore, our findings may be the basis for a new approach to HF management. Show less