Reassembly of nucleosomes at the MLH1 promoter initiates resilencing following decitabine exposure

Luke B. Hesson; Vibha Patil; Mathew A. Sloane; Andrea C. Nunez; Jia Liu; John E. Pimanda; Robyn L. Ward

doi:10.1371/journal.pgen.1003636

Reassembly of nucleosomes at the MLH1 promoter initiates resilencing following decitabine exposure

Luke B. Hesson, Vibha Patil, Mathew A. Sloane, Andrea C. Nunez, Jia Liu, John E. Pimanda, Robyn L. Ward

Research output: Contribution to journal › Article › Research › peer-review

18 Citations (Scopus)

Abstract

Hypomethylating agents reactivate tumor suppressor genes that are epigenetically silenced in cancer. Inevitably these genes are resilenced, leading to drug resistance. Using the MLH1 tumor suppressor gene as a model, we showed that decitabine-induced re-expression was dependent upon demethylation and eviction of promoter nucleosomes. Following decitabine withdrawal, MLH1 was rapidly resilenced despite persistent promoter demethylation. Single molecule analysis at multiple time points showed that gene resilencing was initiated by nucleosome reassembly on demethylated DNA and only then was followed by remethylation and stable silencing. Taken together, these data establish the importance of nucleosome positioning in mediating resilencing of drug-induced gene reactivation and suggest a role for therapeutic targeting of nucleosome assembly as a mechanism to overcome drug resistance.

Original language	English
Article number	e1003636
Journal	PLoS Genetics
Volume	9
Issue number	7
DOIs	https://doi.org/10.1371/journal.pgen.1003636
Publication status	Published - Jul 2013
Externally published	Yes

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title = "Reassembly of nucleosomes at the MLH1 promoter initiates resilencing following decitabine exposure",

abstract = "Hypomethylating agents reactivate tumor suppressor genes that are epigenetically silenced in cancer. Inevitably these genes are resilenced, leading to drug resistance. Using the MLH1 tumor suppressor gene as a model, we showed that decitabine-induced re-expression was dependent upon demethylation and eviction of promoter nucleosomes. Following decitabine withdrawal, MLH1 was rapidly resilenced despite persistent promoter demethylation. Single molecule analysis at multiple time points showed that gene resilencing was initiated by nucleosome reassembly on demethylated DNA and only then was followed by remethylation and stable silencing. Taken together, these data establish the importance of nucleosome positioning in mediating resilencing of drug-induced gene reactivation and suggest a role for therapeutic targeting of nucleosome assembly as a mechanism to overcome drug resistance.",

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T1 - Reassembly of nucleosomes at the MLH1 promoter initiates resilencing following decitabine exposure

AU - Hesson, Luke B.

AU - Patil, Vibha

AU - Sloane, Mathew A.

AU - Nunez, Andrea C.

AU - Liu, Jia

AU - Pimanda, John E.

AU - Ward, Robyn L.

PY - 2013/7

Y1 - 2013/7

N2 - Hypomethylating agents reactivate tumor suppressor genes that are epigenetically silenced in cancer. Inevitably these genes are resilenced, leading to drug resistance. Using the MLH1 tumor suppressor gene as a model, we showed that decitabine-induced re-expression was dependent upon demethylation and eviction of promoter nucleosomes. Following decitabine withdrawal, MLH1 was rapidly resilenced despite persistent promoter demethylation. Single molecule analysis at multiple time points showed that gene resilencing was initiated by nucleosome reassembly on demethylated DNA and only then was followed by remethylation and stable silencing. Taken together, these data establish the importance of nucleosome positioning in mediating resilencing of drug-induced gene reactivation and suggest a role for therapeutic targeting of nucleosome assembly as a mechanism to overcome drug resistance.

AB - Hypomethylating agents reactivate tumor suppressor genes that are epigenetically silenced in cancer. Inevitably these genes are resilenced, leading to drug resistance. Using the MLH1 tumor suppressor gene as a model, we showed that decitabine-induced re-expression was dependent upon demethylation and eviction of promoter nucleosomes. Following decitabine withdrawal, MLH1 was rapidly resilenced despite persistent promoter demethylation. Single molecule analysis at multiple time points showed that gene resilencing was initiated by nucleosome reassembly on demethylated DNA and only then was followed by remethylation and stable silencing. Taken together, these data establish the importance of nucleosome positioning in mediating resilencing of drug-induced gene reactivation and suggest a role for therapeutic targeting of nucleosome assembly as a mechanism to overcome drug resistance.

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ER -

Reassembly of nucleosomes at the MLH1 promoter initiates resilencing following decitabine exposure

Abstract

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