Effect of dhfr gene overexpression on ethanol-induced abnormal cardiovascular development in zebrafish embryos.
- Author:
Shu-Na SUN
1
;
Qiu JIANG
;
Ding LU
;
Yong-Hao GUI
Author Information
1. Department of Cardiology, Children's Hospital, Fudan University, Shanghai 201102, China. yhgui@shmu.edu.cn.
- Publication Type:Journal Article
- MeSH:
Animals;
Ethanol;
Gene Expression Regulation, Developmental;
Heart;
Heart Ventricles;
Zebrafish;
Zebrafish Proteins
- From:
Chinese Journal of Contemporary Pediatrics
2020;22(8):916-922
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To study the effect of dhfr gene overexpression on ethanol-induced abnormal cardiac and vascular development in zebrafish embryos and underlying mechanisms.
METHODS:dhfr mRNA was transcribed in vitro and microinjected into zebrafish fertilized eggs to induce the overexpression of dhfr gene, and the efficiency of overexpression was verified. Wild-type zebrafish were divided into a control group, an ethanol group, and an ethanol+dhfr overexpression group (microinjection of 6 nL dhfr mRNA). The embryonic development was observed for each group. The transgenic zebrafish Tg (cmlc2:mcherry) with heart-specific red fluorescence was used to observe atrial and ventricular development. Fluorescence microscopy was performed to observe the development of cardiac outflow tract and blood vessels. Heart rate and ventricular shortening fraction were used to assess cardiac function. Gene probes were constructed, and embryo in situ hybridization and real-time PCR were used to measure the expression of nkx2.5, tbx1, and flk-1 in the embryo.
RESULTS:Compared with the ethanol group, the ethanol+dhfr overexpression group had a significant reduction in the percentage of abnormal embryonic development and a significant increase in the percentage of embryonic survival (P<0.05), with significant improvements in the abnormalities of the atrium, ventricle, outflow tract, and blood vessels and cardiac function. Compared with the control group, the ethanol group had significant reductions in the expression of nkx2.5, tbx1, and flk-1 (P<0.05), and compared with the ethanol group, the ethanol+dhfr overexpression group had significant increases in the expression of nkx2.5, tbx1, and flk-1 (P<0.05), which were still lower than their expression in the control group.
CONCLUSIONS:The overexpression of the dhfr gene can partially improve the abnormal development of embryonic heart and blood vessels induced by ethanol, possibly by upregulating the decreased expression of nkx2.5, tbx1, and flk-1 caused by ethanol.
