Imprint control element-mediated secondary methylation imprints at the Igf2/H19 locus.

Understanding the molecular basis of monoallelic expression as observed at imprinted loci is helpful in understanding the mechanisms underlying epigenetic regulation. Genomic imprinting begins during gametogenesis with the establishment of epigenetic marks on the chromosomes such that paternal and maternal chromosomes are rendered distinct. During embryonic development, the primary imprint can lead to generation of secondary epigenetic modifications (secondary imprints) of the chromosomes. Eventually, either the primary imprints or the secondary imprints interfere with transcription, leading to parent-of-origin-dependent silencing of one of the two alleles. Here we investigated several aspects pertaining to the generation and functional necessity of secondary methylation imprints at the Igf2/H19 locus. At the H19 locus, these secondary imprints are, in fact, the signals mediating paternal chromosome-specific silencing of that gene. We first demonstrated that the H19 secondary methylation imprints are entirely stable through multiple cell divisions, even in the absence of the primary imprint. Second, we generated mouse mutations to determine which DNA sequences are important in mediating establishment and maintenance of the silent state of the paternal H19 allele. Finally, we analyzed the dependence of the methylation of Igf2DMR1 region on the primary methylation imprint about 90 kilobases away.