Global Position Effects on the Epigenetics of Variegated Lentiviral Vector Expression in Embryonic Stem Cells

Khairandish, Arash

06 January 2011

Lentivirus efficiently transduce stem cells, however are notably silenced in embryonic stem cells (ESC). Provirus can be silent, expressing, or variegated when clonal single copy ESCs spawn daughters that revert expression despite containing identical integration sites (IS) indicating epigenetic regulation. In the silent state, variegated provirus are bound by H1 and MeCP2, where H1 compensates for MeCP2 binding in DNA methylation null ESCs, consistent with a model of heterochromatin formation dependent on concentrations of its constituent components. ESC Variegation was hypothesized to result from spreading of nearby heterochromatin. Global IS analysis indicates Variegated IS favour gene deserts, repeat clusters, and LINEs while Expressers prefer gene density with stable modest expression and SINEs. Chromatin data does not support a role for the spread of heterochromatin possibly a consequence of the dynamic/dispersed nature of ESC heterochromatin. Variegation thus may depend on stochastic chromatin regulation by pluripotency factors at proximal genome organizing repeats.

Epigenetics

Retrovirus

Embryonic Stem Cells

Variegation

Viral Expression

Chromatin Structure

Lentivirus

Integration Site

Gene Therapy

Bioinformatics

0369

0307

0720

0379

Global Position Effects on the Epigenetics of Variegated Lentiviral Vector Expression in Embryonic Stem Cells

Khairandish, Arash

06 January 2011

Lentivirus efficiently transduce stem cells, however are notably silenced in embryonic stem cells (ESC). Provirus can be silent, expressing, or variegated when clonal single copy ESCs spawn daughters that revert expression despite containing identical integration sites (IS) indicating epigenetic regulation. In the silent state, variegated provirus are bound by H1 and MeCP2, where H1 compensates for MeCP2 binding in DNA methylation null ESCs, consistent with a model of heterochromatin formation dependent on concentrations of its constituent components. ESC Variegation was hypothesized to result from spreading of nearby heterochromatin. Global IS analysis indicates Variegated IS favour gene deserts, repeat clusters, and LINEs while Expressers prefer gene density with stable modest expression and SINEs. Chromatin data does not support a role for the spread of heterochromatin possibly a consequence of the dynamic/dispersed nature of ESC heterochromatin. Variegation thus may depend on stochastic chromatin regulation by pluripotency factors at proximal genome organizing repeats.

Epigenetics

Retrovirus

Embryonic Stem Cells

Variegation

Viral Expression

Chromatin Structure

Lentivirus

Integration Site

Gene Therapy

Bioinformatics

0369

0307

0720

0379