Formation of a large, complex domain of histone hyperacetylation at human 14q32.1 requires the serpin locus control region

The human serine protease inhibitor (serpin) gene cluster at 14q32.1 is a useful model system to study cell-type-specific gene expression and chromatin structure. Activation of the serpin locus can be induced in vitro by transferring human chromosome 14 from non-expressing to expressing cells. Serpin gene activation in expressing cells is correlated with locus-wide alterations in chromatin structure, including the de novo formation of 17 expression-associated DNase I-hypersensitive sites (DHSs). In this study, we investigated histone acetylation throughout the proximal serpin subcluster. We report that gene activation is correlated with high levels of histone H3 and H4 acetylation at serpin gene promoters and other regulatory regions. However, the locus is not uniformly hyperacetylated, as there are regions of hypoacetylation between genes. Furthermore, genetic tests indicate that locus-wide controls regulate both gene expression and chromatin structure. For example, deletion of a previously identified serpin locus control region (LCR) upstream of the proximal subcluster reduces both gene expression and histone acetylation throughout the ~130 kb region. A similar down regulation phenotype is displayed by transactivator-deficient cell variants, but this phenotype can be rescued by transfecting the cells with expression cassettes encoding hepatocyte nuclear factor-1α (HNF-1α) or HNF-4. Taken together, these results suggest that histone acetylation depends on interactions between the HNF-1α/HNF-4 signaling cascade and the serpin LCR.     

MRGBP promotes AR-mediated transactivation of KLK3 and TMPRSS2 via acetylation of histone H2A.Z in prostate cancer cells

The androgen receptor (AR) promotes growth of prostate cancer cells by controlling the expression of target genes. This study showed that MRG domain binding protein (MRGBP) accelerated AR-mediated transactivation. We first showed that MRGBP promoted growth of AR-positive prostate cancer cells. MRGBP increased the expression of certain AR target genes, including KLK3 and TMPRSS2, and it associated with AR binding regions of these genes during androgen treatment. Furthermore, MRGBP interacted with MRG15 and TIP60 in prostate cancer cells. Androgen-stimulated AR enhanced histone H3K4me1 or H3K4me3 levels at AR binding regions. MRGBP was recruited to active gene regions through its binding with H3K4me1/3 by MRG15. Then, MRGBP promoted recruitment of TIP60 and acetylation of histone variant H2A.Z at the location of AR binding. Accordingly, AR occupancy of the AR binding regions was increased by MRGBP. Together, these results suggest that MRGBP promotes activation of AR-associated enhancer and promoter regions through an epigenetic mechanism.