Elena S. Philonenko scite author profile

Previously published online as a Cell Cycle E-publication: http://www.landesbioscience.com/journals/cc/abstract.php?id=2440 KEY WORDShESCs, pluripotency related genes, epigenetic background, methylation ACKNOWLEDGEMENTSWe are very grateful to Dr.Suzanne Kadereit for critical reading the manuscript and helpful discussions. Report Diverse Epigenetic Profile of Novel Human Embryonic Stem Cell Lines ABSTRACTHuman embryonic stem cells (hESCs) are a promising model for studying mechanisms of regulation of early development and differentiation. OCT4, NANOG, OCT4-related genes and some others were recently described to be important in pluripotency maintenance. Lesser is known about molecular mechanisms involved in their regulation. Apart from genetic regulation of gene expression epigenetic events, particularly methylation, play an important role in early development. Using RT-PCR we studied the expression of pluripotency-related genes OCT4, NANOG, DPPA3 and DPPA5 during hESCs differentiation to embryoid bodies. Analysis of methylation profiles of promoter or putative regulatory regions of the indicated genes demonstrated that expression of the pluripotency-maintaining genes correlated with their methylation status, whereas methylation of DPPA3 and DPPA5 varied between cell lines. We propose that DNA methylation underlies the developmental stage-specific mechanisms of pluripotency-related genes expression and reactivation and may have an impact on differentiation potential of hESC lines.

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Efficient differentiation of hESCs into endothelial cells in vitro is secured by epigenetic changes

Lagarkova¹,

Volchkov²,

Philonenko³

et al. 2008

Cell Cycle

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TMEM8 – a non-globin gene entrapped in the globin web

Philonenko

Klochkov

Borunova

et al. 2009

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For more than 30 years it was believed that globin gene domains included only genes encoding globin chains. Here we show that in chickens, the domain of α-globin genes also harbor the non-globin gene TMEM8. It was relocated to the vicinity of the α-globin cluster due to inversion of an ∼170-kb genomic fragment. Although in humans TMEM8 is preferentially expressed in resting T-lymphocytes, in chickens it acquired an erythroid-specific expression profile and is upregulated upon terminal differentiation of erythroblasts. This correlates with the presence of erythroid-specific regulatory elements in the body of chicken TMEM8, which interact with regulatory elements of the α-globin genes. Surprisingly, TMEM8 is not simply recruited to the α-globin gene domain active chromatin hub. An alternative chromatin hub is assembled, which includes some of the regulatory elements essential for the activation of globin gene expression. These regulatory elements should thus shuttle between two different chromatin hubs.

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Mapping of the nuclear matrix-bound chromatin hubs by a new M3C experimental procedure

Гаврилов

Zukher

Philonenko

et al. 2010

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We have developed an experimental procedure to analyze the spatial proximity of nuclear matrix-bound DNA fragments. This protocol, referred to as Matrix 3C (M3C), includes a high salt extraction of nuclei, the removal of distal parts of unfolded DNA loops using restriction enzyme treatment, ligation of the nuclear matrix-bound DNA fragments and a subsequent analysis of ligation frequencies. Using the M3C procedure, we have demonstrated that CpG islands of at least three housekeeping genes that surround the chicken α-globin gene domain are assembled into a complex (presumably, a transcription factory) that is stabilized by the nuclear matrix in both erythroid and non-erythroid cells. In erythroid cells, the regulatory elements of the α-globin genes are attracted to this complex to form a new assembly: an active chromatin hub that is linked to the pre-existing transcription factory. The erythroid-specific part of the assembly is removed by high salt extraction. Based on these observations, we propose that mixed transcription factories that mediate the transcription of both housekeeping and tissue-specific genes are composed of a permanent compartment containing integrated into the nuclear matrix promoters of housekeeping genes and a ‘guest’ compartment where promoters and regulatory elements of tissue-specific genes can be temporarily recruited.

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