NF‐Y is critical for the proper growth of zebrafish embryonic heart and its cardiomyocyte proliferation

Summary The ubiquitous NF‐Y gene regulates the expression of different genes in various signaling pathways. However, the function of NF‐Y in zebrafish heart development is largely unknown. Previously we identified a same group of cell cycle related gene cluster (CCRG) was downregulated in the embryonic hearts with impeded growth due to various stresses. The promoter regions of these CCRG genes shared a most common motif for NF‐Y. Chromatin immunoprecipitation experiment demonstrated that the binding of NF‐Y to its motif was real on the CCRG candidate gene promoters. Knockdown of embryonic NF‐Y by morpholinos led to a small heart, mimicking the abnormal heart phenotype caused by other stresses. In parallel the expression of certain CCRG candidate genes was reduced in the NF‐Y A morphant hearts exposed to malignant environments. Absence of NF‐Y A also led to undermine cardiomyocyte proliferation and hence less total number of caridomyocytes per heart. Trans‐AM Elisa experiment also found that in the presence of the stresses such as TCDD and TNNT2 MO, the binding capacity of NF‐Y A subunit to its core motif was reduced. We conclude that NF‐Y sustains proper cardiomyocyte proliferation in the heart, thus it plays a positive role in promoting early zebrafish heart growth.