Post-translational modification of the histone proteins in chromatin plays a central role in epigenetic control of DNA-templated processes in eukaryotic cells. Developing methods that enable the structure of histones to be manipulated is therefore essential to understand the biochemical mechanisms underlying genomic regulation. Here we present a synthetic biology method to engineer histones bearing site-specific modifications on cellular chromatin using protein trans-splicing. We genetically fused the N-terminal fragment of ultrafast split-intein to the C-terminus of histone H2B, which upon reaction with a complementary synthetic C-intein, generated labeled histone. Using this approach, we incorporated various non-native chemical modifications to chromatin in vivo with temporal control. Furthermore, the time and concentration dependence of protein trans-splicing performed in nucleo enabled us to examine differences in the accessibility of the euchromatin and heterochromatin regions of the epigenome. Finally, we used protein trans-splicing to semi-synthesize a native histone modification, H2BK120 ubiquitination, in isolated nuclei, and show that this can trigger downstream epigenetic cross-talk of H3K79 methylation.
The goal of cellular cardiomyoplasty is to replace damaged myocardium by healthy myocardium achieved by host myocardial regeneration and/or transplantation of donor cardiomyocytes (CMs). In the case of CM transplantation, studies suggest that immature CMs may be the optimal cell type to survive and functionally integrate into damaged myocardium. In the present study, we tested the hypothesis that active proliferation of immature CMs contributes graft survival and functional recovery of recipient myocardium. We constructed engineered cardiac tissue from gestational day 14 rat fetal cardiac cells (EFCT) or day 3 neonatal cardiac cells (ENCT). Culture day 7 EFCTs or ENCTs were implanted onto the postinfarct adult left ventricle (LV). CM proliferation rate of EFCT was significantly higher than that of ENCT at 3 days and 8 weeks after the graft implantation, whereas CM apoptosis rate remained the same in both groups. Echocardiogram showed that ENCT implantation sustained LV contraction, whereas EFCT implantation significantly increased the LV contraction at 8 weeks versus sham group (p < 0.05, analysis of variance). These results suggest that active CM proliferation may play a critical role in immature donor CM survival and the functional recovery of damaged recipient myocardium.
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