Temporal and spatial changes of histone 3 K4 dimethylation at the IFN-gamma gene during Th1 and Th2 cell differentiation

Covalent modification of nucleosomal histones is an important mechanism for cytokine gene regulation in Th1 and Th2 cells. In this study, we analyzed the kinetics of histone H3 K4 dimethylation (H3K4me2) of the IFN-gamma gene. Minimal levels of H3K4me2 were found in naive CD4 T cells. After 5 days of differentiation, H3K4me2 levels were elevated in both Th1 and Th2 cells at the -5.3 kb, the promoter, the intronic DNase I hypersensitive sites, and 3' distal sites including the +9.5 kb and +16 kb sites. Th1 cells maintained high levels of H3K4me2 after longer time of culture. However, in Th2 cells after 14 days, high levels of H3K4me2 were detected only at the -5.3 kb and the promoter, whereas H3K4me2 was lost at the 3' distal sites and greatly diminished at the DNase I hypersensitive sites. After 28 days, Th2 cells lose H3K4me2 at all sites. Unlike the long-term primary Th2 cells, the Th2 clone D10 showed strong H3K4me2 at the IFN-gamma gene with distinctly high levels at the 3' distal sites. CD4 T cells transgenic for Hlx or infected with T-bet-expressing retrovirus produced IFN-gamma and retained high levels of H3K4me2 even after differentiated under Th2 polarizing conditions, suggesting positive roles of these two factors in maintaining high levels of H3K4me2 at the IFN-gamma gene.     

Arsenic alters global histone modifications in lymphocytes in vitro and in vivo

Arsenic, an established carcinogen and toxicant, occurs in drinking water and food and affects millions of people worldwide. Arsenic appears to interfere with gene expression through epigenetic processes, such as DNA methylation and post-translational histone modifications. We investigated the effects of arsenic on histone residues in vivo as well as in vitro. Analysis of H3K9Ac and H3K9me3 in CD4+ and CD8+ sorted blood cells from individuals exposed to arsenic through drinking water in the Argentinean Andes showed a significant decrease in global H3K9me3 in CD4+ cells, but not CD8+ cells, with increasing arsenic exposure. In vitro studies of inorganic arsenic-treated T lymphocytes (Jurkat and CCRF-CEM, 0.1, 1, and 100 μg/L) showed arsenic-related modifications of H3K9Ac and changes in the levels of the histone deacetylating enzyme HDAC2 at very low arsenic concentrations. Further, in vitro exposure of kidney HEK293 cells to arsenic (1 and 5 μM) altered the protein levels of PCNA and DNMT1, parts of a gene expression repressor complex, as well as MAML1. MAML1 co-localized and interacted with components of this complex in HEK293 cells, and in silico studies indicated that MAML1 expression correlate with HDAC2 and DNMT1 expression in kidney cells. In conclusion, our data suggest that arsenic exposure may lead to changes in the global levels of H3K9me3 and H3K9Ac in lymphocytes. Also, we show that arsenic exposure affects the expression of PCNA and DNMT1—proteins that are part of a gene expression silencing complex.     

组蛋白修饰对胚胎干细胞分化过程[]的调控机制

选用人类胚胎干细胞系和由人类胚胎干细胞系分化来的神经干细胞系为研究对象,分析组蛋白修饰对胚胎干细胞分化过程的调控作用。得到了两种细胞系差异表达基因转录起始位点侧翼区域内八种组蛋白修饰的分布模式,以及组蛋白修饰功能簇。研究表明在两类细胞系中,八种组蛋白修饰谱分布模式一致,且呈现两种分布类型; H3K27ac,H3K4me3和H3K9ac组成的功能簇是保守的;H3K27me3,H3K36me3和H3K79me1组成的功能簇以及H3K9me3和H3K27me3组成的功能簇在胚胎干细胞向神经干细胞分化的过程中消失。结果揭示了组蛋白修饰对胚胎干细胞系向神经干细胞系分化过程的部分调控机制,为该分化过程分子调控机制的研究提供部分重要的理论基础。     

Discovering common combinatorial histone modification patterns in the human genome

Histone modifications play a crucial role in regulating gene expression and cell lineage determination and maintenance at the epigenetic level. To systematically investigate this phenomenon, this paper presented a statistical hybrid clustering algorithm to identify common combinatorial histone modification patterns. We applied the algorithm to 39 histone modification marks in human CD4 + T cells and detected 854 common combinatorial histone modification patterns. Our results could cover 211 (76.17%) patterns among 277 patterns identified by the tandem mass spectrometry experiments. Based on the frequency statistical analysis, it was found that the co-occurrence frequencies of 20 backbone modifications are greater than or close to 0.2 in the 854 patterns. we also found that 15 modifications (H2BK120ac, H4K91ac, H2BK20ac, etc.), three histone acetylations (H2AK9ac, H4K16ac, and H4K12ac) and five histone methylations (H3K79me1, H3K79me2, 3K79me3, H4K20me1, and H2BK5me1) were most likely prone to coexist respectively in these patterns. In addition, we found that DNA methylation tends to combine with histone acetylation rather than histone methylation.     

小鼠不同细胞间组蛋白修饰变化对MafA基因转录表达的影响

目的通过比较不同细胞类型之间MafA基因转录起始区的组蛋白修饰差异,探讨组蛋白修饰对MafA基因转录表达的作用。方法采用染色质免疫共沉淀-实时定量PCR法检测小鼠胰岛素瘤β细胞（NIT-1）、NIH小鼠成纤维细胞（NIH3T3）及小鼠胚胎干细胞（mES）三者中的MafA和MLH1基因转录起始区组蛋白修饰（H3K4m3、H3K9m3和H3乙酰化）的状况。同时采用实时定量RT-PCR检测上述三种细胞各基因mRNA表达水平。分析基因的H3K4m3、H3K9m3和H3乙酰化修饰与基因表达之间的相互关系。结果 （1）以mES细胞为参照,NIT-1细胞MafA基因的转录起始区的H3K4m3修饰水平明显增高（P〈0.05）,H3K9m3修饰水平明显降低（P〈0.05）;NIH 3T3细胞MafA基因的转录起始区的H3K9m3修饰水平明显增高（P〈0.05）,H3K4m3修饰水平明显降低（P〈0.05）;（2）MafA基因的仅在NIT-1细胞表达,其表达与H3K4m3修饰存在直线相关（相关系数0.995）;与H3K9m3修饰存在直线负相关（相关系数-0.751）;（3）管家基因MLH1的表达与所检测组蛋白修饰无相关性。结论 H3K9m3与H3K4m3修饰能相互协调,共同调控MafA基因的表达,对胚胎干细胞向β细胞分化具有重要的意义。