Physiological changes during embryonic development are associated with changes in the isoform expression of both myocyte sarcomeric proteins and of erythrocyte haemoglobins. Cell type-specific isoform expression of these genes also occurs. Although these changes appear to be coordinated, it is unclear how changes in these disparate cell types may be linked. The transcription factor Hic2 is required for normal cardiac development and the mutant is embryonic lethal. Hic2 embryos exhibit precocious expression of the definitive-lineage haemoglobin Hbb-bt in circulating primitive erythrocytes and of foetal isoforms of cardiomyocyte genes (creatine kinase, Ckm, and eukaryotic elongation factor Eef1a2) as well as ectopic cardiac expression of fast-twitch skeletal muscle troponin isoforms. We propose that HIC2 regulates a switching event within both the contractile machinery of cardiomyocytes and the oxygen carrying systems during the developmental period where demands on cardiac loading change rapidly.
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| http://dx.doi.org/10.1016/j.yjmcc.2017.10.007 | DOI Listing |
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let-7 miRNAs repress HIC2 to regulate BCL11A transcription and hemoglobin switching.
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- HIC2 expression is regulated by microRNAs (miRNAs), particularly the let-7 family, which decreases HIC2 levels in adult cells and thereby promotes BCL11A activity.
- The study reveals that this miRNA-mediated pathway (let-7 ⊣ HIC2 ⊣ BCL11A ⊣ HBG) is key in silencing fetal hemoglobin production as cells develop from fetal to adult stages.
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