Given the possible off target effects of inhibitor studies, the possibility remains that the effects of Adox may be through another methyltransferase.83 Another member of the PRMT family, PRMT1, has been associated with human ɣ-globin gene silencing through association with a protein named friend of PRMT1 (FoP).84 Knockdown of FoP protein resulted in increased ɣ-globin Afatinib mw gene expression in cultured primary human erythroid cells. Interestingly, PRMT1 has also been shown to facilitate a number of histone acetylation events including acetylation of Lys9/Lys14 and subsequent transcription
of the adult β-globin gene.85 This result suggests that the enzymatic activity of PRMT1 also may contribute to ɣ-globin gene silencing through increasing the β-globin gene’s ability to compete for the β-globin locus control region enhancer activity. Specific lysine demethylases are involved in ɣ-globin gene silencing in both murine and human adult erythroid cells. The lysine-specific this website demethylase 1 (LSD1) has been shown to associate with the transcription factor BCL11A through a complex containing the repressor element-1 silencing factor corepressor-1 (CoREST),86 and to mediate part of BCL11A’s strong ɣ-globin gene silencing activity. LSD1 also has been shown to associate with the TR2/TR4/DRED
complex, along with several other corepressor complexes.87 Inhibition of LSD1 by either RNA interference or the LSD1 enzymatic activity inhibitor, tranylcypromine, results in increased ɣ-globin gene expression in β-globin locus–bearing transgenic mice and cultured primary human erythroid cells.86 and 88 However, because LSD1 is required for normal erythroid maturation,
it has been suggested that its inhibition potentially might adversely affect that process.86 Studies in vertebrate model systems have demonstrated a close and often reinforcing relationship between DNA methylation and repressive histone modifications in gene silencing.89 and 90 In some instances, DNA methylation and associated methyl-binding domain proteins recruit corepressor complexes that contain SET domain proteins, which catalyze H3K9 methylation.91 Other studies have demonstrated that repressive histone marks such as H3K9 methylation may recruit DNMTs.92 Conversely, histone acetylation has been shown to prevent MG-132 in vivo extinction of gene expression and subsequent DNA methylation.41 and 93 The often self-reinforcing nature of these interactions is depicted in Fig 2. Frequently microRNA (miRNA) and small inhibitory RNA are included in the category of epigenetic regulatory mechanisms. These small RNAs are capable of well-characterized post-transcriptional gene silencing, but also have been shown to direct epigenetic modifications in plants and animals.94 Several miRNAs have been implicated in the regulation of ɣ-globin gene expression. LIN28B and the associated let-7 miRNA family are regulated during fetal to adult erythroid development.