Conclusion
GATA6 regulate the anti-angiogenic properties of cardiac fibroblasts by modulating LYPD1 expression.
Methods
To identify the LYPD1-modulating transcription factor, motif enrichment analysis and differential expressed gene analysis using microarray data were performed. Quantitative real-time PCR was used to evaluate gene expression. Gene silencing were performed by transfection of siRNA. Western blot analyzed protein expression in NHCF-a. To assess the effect of GATA6 on the regulation of LYPD1 gene expression, dual-luciferase reporter assay was performed. Co-culture and rescue experiments were performed to evaluate endothelial network formation.
Results
Motif enrichment analysis and differential expressed gene analysis using microarray data and quantitative real-time PCR revealed that CUX1, GATA6, and MAFK were candidate transcription factors. Of these, the inhibition of GATA6 expression using siRNA decreased LYPD1 gene expression and co-expression of GATA6 with a reporter vector containing the upstream sequence of the LYPD1 gene resulted in increased reporter activity. Endothelial cell network formation was attenuated when co-cultured with cardiac fibroblasts, but it was significantly restored when co-cultured with cardiac fibroblasts wherein the expression of GATA6 was knocked down with siRNA.