Abstract 311: Opposing Roles TCF7/LEF1 and TCF7L2 in Wnt/β-Catenin and BMP Signaling During Late Heart Development

Abstract

T-cell factor (TCF) and lymphoid enhancer factor (LEF) family transcriptional factors are important nuclear mediators of Wnt/β-catenin signaling. Their roles in cardiac development and diseases remain to be determined. We found that these TCF/LEF family members, including LEF1, TCF7, TCF7L1, and TCF7L2 had unique expression pattern during mouse heart development. At embryonic day (E) 13.5, LEF1 was one of the most abundant TCF/LEF members at mRNA level in the murine heart. By immunohistochemical staining, mesenchymal cells in valvular regions had much stronger intensity of LEF1 than cardiomyocytes in ventricles. Cardiomyocytes with weak to moderate nuclear staining for LEF1 were scattered in compact and trabecular layers. At E17.5, LEF1 mRNA levels dropped dramatically and its protein was no longer detected in cardiomyocytes. TCF7L1 mRNA levels also decreased from E13.5 to E17.5. Weak cytoplasmic, but not nuclear TCF7L1 signal was detected in cardiomyocytes at E13.5 by immunochemistry. TCF7 mRNA was the lowest among all four TCF/LEF members at E13.5 and it further decreased at E17.5. TCF7 protein was only detected by immunohistochemistry in mesothelial and endothelial cells, but not in cardiomyocytes or mesenchymal cells. TCF7L2 mRNA became the most abundant TCF/LEFs at E17.5. Immunolocalization revealed that TCF7L2 formed an intensity gradient with the highest levels at the inner trabecular layer, opposite to the distribution of β-catenin. Wnt signaling activation by cardiac deletion of adenomatosis polyposis coli ( Apc ), a negative Wnt regulator, led to a dramatic increase in cyclin D2, Bmp4, LEF1, and TCF7. BMP mediators, SMAD1/5/8, were increasingly phosphorylated. Chromatin immunoprecipitation revealed that TCF7L2 was removed from and replaced by LEF1 and TCF7 in the promoter of cyclin D2 and Bmp4 to promote β-catenin recruitment. Furthermore, there was co-occupancy of TCF/LEF and SMAD in the adjacent TCF/LEF and SMAD binding sites of Wnt target genes. Finally, we proved that TCF7L2 was a transcriptional suppressor of cyclin D2 and Bmp 4 in a cardiac cell line by overexpression and knockdown experiments. Our results indicate that TCF7L2 is transcriptional repressor of Wnt/β-Catenin pathway in the heart.