Roles of SETD2 in Leukemia—Transcription, DNA-Damage, and Beyond

Skucha, Anna; Ebner, Jessica; Grebien, Florian

doi:10.3390/ijms20051029

Cited by 57 publications

(41 citation statements)

References 64 publications

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“…16,23 Herein, the methylation status of histone H3K36me3 was measured in early embryo devoid of SETD2. 6,17 In this study, we explored the function of SETD2 in early embryos. As shown in Figure 5, H3K36me3 signals in the nucleus were dramatically reduced when SETD2 was depleted.…”

Section: Setd2-kd Results Lowered Trimethylation Level Of Histone Hmentioning

confidence: 99%

“…SETD2, SET domain-containing protein 2; γ-H2AX, phosphorylated histone H2AX SETD2, as the methyltransferase for histone H3K36, involves in chromatin architecture maintenance, transcriptional activation and elongation, and the regulation of DNA repair to ensure normal cell viability. 6,17 In this study, we explored the function of SETD2 in early embryos. Notably, SETD2 knockdown induces the increased DNA lesions in preimplantation embryos ( Figure 3).…”

Section: Setd2-kd Results Lowered Trimethylation Level Of Histone Hmentioning

confidence: 99%

“…5,6 Functions of SETD2, from yeast to humans, are highly conserved. [15][16][17] H3K36me3 also participates in promoting de novo DNA methylation. 10 Pathogenic mutations in SETD2 were detected in cancers, including renal cell carcinomas, lung cancer, acute lymphoblastic leukemia, and central nervous system tumors.…”

Section: Introductionmentioning

confidence: 99%

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SETD2 reduction adversely affects the development of mouse early embryos

Huang

2019

J of Cellular Biochemistry

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SET domain‐containing protein 2 (SETD2), the protein of regulating trimethylation status of histone H3 at lysine 36 (H3K36), participates in the maintenance of chromatin architecture, transcription elongation, genome stability, and other biological events. However, its function in preimplantation embryos is still obscure. In this study, specific small interfering RNA was employed to investigate the functions of SETD2. We find that deletion of SETD2 results in the developmental delay of mouse early embryos, indicative of the compromised developmental potential. Remarkably, SETD2 knockdown induces the accumulation of the DNA lesions and apoptotic blastomeres in early embryos. In addition, the methylation level of H3K36 is significantly reduced in two‐cell embryos depleted of SETD2. In summary, our data indicate that SETD2 maintains genome stability perhaps via regulating trimethylation status of H3K36, consequently controlling the embryo quality. These findings pave the avenue for understanding the cross‐talk between epigenome and SETD2 during early embryo development.

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Section: Setd2-kd Results Lowered Trimethylation Level Of Histone Hmentioning

confidence: 99%

Section: Setd2-kd Results Lowered Trimethylation Level Of Histone Hmentioning

confidence: 99%

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SETD2 reduction adversely affects the development of mouse early embryos

Huang

2019

J of Cellular Biochemistry

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“…Besides the role in DNA damage repair, SETD2 is also required to maintain high H3K79me2 levels in AML cells. Pharmacologic inhibition of DOT1L, the H3K79 methyltransferase, synergizes with SETD2 mutations to induce DNA damage, growth arrest, and apoptosis, indicating a cross-talk of H3K36me3 and H3K79me2 in AML cells [86,87].…”

Section: H3k36me3 Associated Ddr In Tumorigenesismentioning

confidence: 99%

H3K36me3, message from chromatin to DNA damage repair

et al. 2020

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Histone marks control many cellular processes including DNA damage repair. This review will focus primarily on the active histone mark H3K36me3 in the regulation of DNA damage repair and the maintenance of genomic stability after DNA damage. There are diverse clues showing H3K36me3 participates in DNA damage response by directly recruiting DNA repair machinery to set the chromatin at a "ready" status, leading to a quick response upon damage. Reduced H3K36me3 is associated with low DNA repair efficiency. This review will also place a main emphasis on the H3K36me3-mediated DNA damage repair in the tumorigenesis of the newly found oncohistone mutant tumors. Gaining an understanding of different aspects of H3K36me3 in DNA damage repair, especially in cancers, would share the knowledge of chromatin and DNA repair to serve to the drug discovery and patient care.

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“…For example, SMYD2 catalyzes p53 lysine 370 methylation to affect transcription [15]. The detail functions and mechanisms of KMTs and PRMTs can be found in pulished studies [27,28].…”

Section: The Function Of Hmtsmentioning

confidence: 99%

Histone methyltransferase and drug resistance in cancers

Yang

Zhang

et al. 2020

J Exp Clin Cancer Res

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A number of novel anticancer drugs have been developed in recent years. However, the mortality of cancer patients remains high because of the emergence of drug resistance. It was reported that drug resistance might involved in changes in gene expression without changing genotypes, which is similar to epigenetic modification. Some studies indicated that targeting histone methyltransferase can reverse drug resistance. Hence, the use of histone methyltransferase inhibitors or histone demethylase inhibitors opens new therapeutic approaches for cancer treatment. While the relationship between histone methyltransferase and tumor resistance has been determined, there is a lack of updated review on the association between them. In this review, we summarized the mechanisms of histone methyltransferases in cancer drug resistance and the therapeutic strategies of targeting histone methyltransferase to reverse drug resistance.

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Roles of SETD2 in Leukemia—Transcription, DNA-Damage, and Beyond

Cited by 57 publications

References 64 publications

SETD2 reduction adversely affects the development of mouse early embryos

SETD2 reduction adversely affects the development of mouse early embryos

H3K36me3, message from chromatin to DNA damage repair

Histone methyltransferase and drug resistance in cancers

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