Loss of 5-Hydroxymethylcytosine Is an Epigenetic Hallmark of Melanoma | Zendy

Christine G. Lian | Zendy; Yufei Xu | Zendy; Craig J. Ceol | Zendy; Feizhen Wu | Zendy; Allison R. Larson | Zendy; Karen Dresser | Zendy; Wenqi Xu | Zendy; Li Tan | Zendy; Yeguang Hu | Zendy; Qian Zhan | Zendy; Chung-wei Lee | Zendy; Di Hu | Zendy; Sonja Kleffel | Zendy; Yijun Yang | Zendy; James Neiswender | Zendy; Abraham J. Khorasani | Zendy; Rui Fang | Zendy; Cecilia Lezcano | Zendy; Lyn M. Duncan | Zendy; Richard A. Scolyer | Zendy; John F. Thompson | Zendy; Hojabr Kakavand | Zendy; Yariv Houvras | Zendy; Leonard I. Zon | Zendy; Martín C. Mihm | Zendy; Ursula B. Kaiser | Zendy; Tobias Schatton | Zendy; Bruce A. Woda | Zendy; Gëorge F. Murphy | Zendy; Yujiang Geno Shi | Zendy

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Loss of 5-Hydroxymethylcytosine Is an Epigenetic Hallmark of Melanoma

Author(s) -

Christine G. Lian,

Yufei Xu,

Craig J. Ceol,

Feizhen Wu,

Allison R. Larson,

Karen Dresser,

Wenqi Xu,

Li Tan,

Yeguang Hu,

Qian Zhan,

Chung-wei Lee,

Di Hu,

Sonja Kleffel,

Yijun Yang,

James Neiswender,

Abraham J. Khorasani,

Rui Fang,

Cecilia Lezcano,

Lyn M. Duncan,

Richard A. Scolyer,

John F. Thompson,

Hojabr Kakavand,

Yariv Houvras,

Leonard I. Zon,

Martín C. Mihm,

Ursula B. Kaiser,

Tobias Schatton,

Bruce A. Woda,

Gëorge F. Murphy,

Yujiang Geno Shi

Publication year - 2012

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2012.07.033

Subject(s) - 5 hydroxymethylcytosine , biology , epigenetics , epigenesis , melanoma , genetics , dna methylation , computational biology , gene , gene expression

DNA methylation at the 5 position of cytosine (5-mC) is a key epigenetic mark that is critical for various biological and pathological processes. 5-mC can be converted to 5-hydroxymethylcytosine (5-hmC) by the ten-eleven translocation (TET) family of DNA hydroxylases. Here, we report that "loss of 5-hmC" is an epigenetic hallmark of melanoma, with diagnostic and prognostic implications. Genome-wide mapping of 5-hmC reveals loss of the 5-hmC landscape in the melanoma epigenome. We show that downregulation of isocitrate dehydrogenase 2 (IDH2) and TET family enzymes is likely one of the mechanisms underlying 5-hmC loss in melanoma. Rebuilding the 5-hmC landscape in melanoma cells by reintroducing active TET2 or IDH2 suppresses melanoma growth and increases tumor-free survival in animal models. Thus, our study reveals a critical function of 5-hmC in melanoma development and directly links the IDH and TET activity-dependent epigenetic pathway to 5-hmC-mediated suppression of melanoma progression, suggesting a new strategy for epigenetic cancer therapy.

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