Satellite DNA spatial localization and transcriptional activity in mouse embryonic E-14 and IOUD2 stem cells.

The formation of heterochromatin begins in the differentiating cells. The aim of this work was to study changes of satellite DNA distribution, transcriptional activity and interaction with certain proteins in mouse embryonic stem cells after induction with retinoic acid. We found that pericentromeric satellites entered chromocenters only some days after induction of E-14 and IOUD2 mouse embryonic stem cells. The redistribution was accompanied by association with HP1a and transcription from pericentromeric (but not centromeric) satellite DNA. RNA was polyadenylated and transcribed from the forward chain. Probes made from the cDNA hybridized to all chromosomes. In differentiating cells, the transcript was found exclusively in chromocenters while in differentiated cultured L929 cells it formed 1-2 large clusters outside chromocenters. Using ChIP and immunostaining, we demonstrated that in induced cells pericentromeric DNA interacted with RNA-helicase p68 that was previously shown to be involved in transcription regulation and to be involved in differentiation processes.

Human chromosome 1 satellite 3 DNA is decondensed, demethylated and transcribed in senescent cells and in A431 epithelial carcinoma cells.

Constitutive heterochromatin mainly consists of different classes of satellite DNAs and is defined as a transcriptionally inactive chromatin that remains compact throughout the cell cycle. The aim of this work was to investigate the level of condensation, methylation and transcriptional status of centromeric (alphoid DNA) and pericentromeric satellites (human satellite 3, HS3) in tissues (lymphocytes, placenta cells) and in cultured primary (MRC5, VH-10, AT2Sp) and malignant (A431) cells. We found that alphoid DNA remained condensed and heavily methylated in all the cell types. The HS3 of chromosome 1 (HS3-1) but not of chromosome 9 (HS3-9) was strongly decondensed and demethylated in A431 cells. The same observation was made for aged embryonic lung (MRC5) and juvenile foreskin (VH-10) fibroblasts obtained at late passages (32(nd) and 23(rd), respectively). Decondensation was also found in ataxia telangiectasia AT2Sp fibroblasts at the 16(th) passage. One of the manifestations of the disease is premature aging. The level of HS3-1 decondensation was higher in aged primary fibroblasts as compared to A431. The HS3-1 extended into the territory of neighbouring chromosomes. An RT-PCR product was detected in A431 and senescent MRC5 fibroblasts using primers specific for HS3-1. The RNA was polyadenylated and transcribed from the reverse chain. Our results demonstrate the involvement of satellite DNA in associations between human chromosomes and intermingling of chromosome territories. The invading satellite DNA can undergo decondensation to a certain level. This process is accompanied by demethylation and transcription.