We have been studying for some years the compound insulator at the 5 end of the chicken beta globin locus. We showed that in addition to its ability to prevent enhancer-promoter interactions, mediated by CTCF, it is also able to block the hetrochromatinization of a reporter gene. This property is independent of CTCF, but we have shown that it does depend on the binding of two other proteins, USF1 and BGP1. We have studied the role of USF1 extensively and shown that as part of its insulator function it recruits a wide variety of histone modifying enzymes, which serve to maintain nearby histones in an active state, and prevent other, repressive, histone modifications from being introduced. Our results show that USF1 interacts in vivo with the vertebrate Set1 complex, which methylates histone H3 at lysine 4, as well as PRMT1, which methylates histone H4 at arginine 3. These are present in two separate, multicomponent complexes which appear to be localized to the insulator element through specific binding of CTCF.? We have also investigated the properties of BGP1, which binds to separate sites in the insulator. We find that the mouse homolog of BGP1 in mouse ES cells plays an important role in DNA methylation; in its absence methylation levels at critical sites genome-wide are depressed. We have evidence that this is the result of an effect of BGP1 on levels of DNA methylating enzymes.
| Huang, Suming; Li, Xingguo; Yusufzai, Timur M et al. (2007) USF1 recruits histone modification complexes and is critical for maintenance of a chromatin barrier. Mol Cell Biol 27:7991-8002 |
| Gaszner, Miklos; Felsenfeld, Gary (2006) Insulators: exploiting transcriptional and epigenetic mechanisms. Nat Rev Genet 7:703-13 |
