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KISSThe acute response to hypoxia is mainly driven by hypoxiainducible factors, but their effects gradually subside with time. Hypoxia-specific histone modifications may be important for the stable maintenance of long-term adaptation to hypoxia. However, ...
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RISS 인기검색어
AURKB, in concert with REST, acts as an oxygen-sensitive epigenetic regulator of the hypoxic induction of MDM2 = AURKB, in concert with REST, acts as an oxygen-sensitive epigenetic regulator of the hypoxic induction of MDM2
한글로보기https://www.riss.kr/link?id=A108188545
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저자
( Iljin Kim ) (Inha University College of Medicine) ; ( Sanga Choi ) (Inha University College of Medicine) ; ( Seongkyeong Yoo ) (Inha University College of Medicine) ; ( Mingyu Lee ) (Brigham and Women’s Hospital, Harvard Medical School) ; ( Jong-wan Park ) (Seoul National University College of Medicine)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2022
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작성언어
-
-
주제어
AURKB ; Histone phosphorylation ; Hypoxia ; MDM2 ; REST
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KDC
400
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등재정보
SCIE,SCOPUS,KCI등재
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자료형태
학술저널
- 발행기관 URL
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수록면
287-292(6쪽)
- 제공처
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0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
The acute response to hypoxia is mainly driven by hypoxiainducible factors, but their effects gradually subside with time. Hypoxia-specific histone modifications may be important for the stable maintenance of long-term adaptation to hypoxia. However, little is known about the molecular mechanisms underlying the dynamic alterations of histones under hypoxic conditions. We found that the phosphorylation of histone H3 at Ser-10 (H3S10) was noticeably attenuated after hypoxic challenge, which was mediated by the inhibition of aurora kinase B (AURKB). To understand the role of AURKB in epigenetic regulation, DNA microarray and transcription factor binding site analyses combined with proteomics analysis were performed. Under normoxia, phosphorylated AURKB, in concert with the repressor element-1 silencing transcription factor (REST), phosphorylates H3S10, which allows the AURKB-REST complex to access the MDM2 proto-oncogene. REST then acts as a transcriptional repressor of MDM2 and downregulates its expression. Under hypoxia, AURKB is dephosphorylated and the AURKB-REST complex fails to access MDM2, leading to the upregulation of its expression. In this study, we present a case of hypoxia-specific epigenetic regulation of the oxygen-sensitive AURKB signaling pathway. To better understand the cellular adaptation to hypoxia, it is worthwhile to further investigate the epigenetic regulation of genes under hypoxic conditions. [BMB Reports 2022; 55(6): 287-292]
The acute response to hypoxia is mainly driven by hypoxiainducible factors, but their effects gradually subside with time. Hypoxia-specific histone modifications may be important for the stable maintenance of long-term adaptation to hypoxia. However, little is known about the molecular mechanisms underlying the dynamic alterations of histones under hypoxic conditions. We found that the phosphorylation of histone H3 at Ser-10 (H3S10) was noticeably attenuated after hypoxic challenge, which was mediated by the inhibition of aurora kinase B (AURKB). To understand the role of AURKB in epigenetic regulation, DNA microarray and transcription factor binding site analyses combined with proteomics analysis were performed. Under normoxia, phosphorylated AURKB, in concert with the repressor element-1 silencing transcription factor (REST), phosphorylates H3S10, which allows the AURKB-REST complex to access the MDM2 proto-oncogene. REST then acts as a transcriptional repressor of MDM2 and downregulates its expression. Under hypoxia, AURKB is dephosphorylated and the AURKB-REST complex fails to access MDM2, leading to the upregulation of its expression. In this study, we present a case of hypoxia-specific epigenetic regulation of the oxygen-sensitive AURKB signaling pathway. To better understand the cellular adaptation to hypoxia, it is worthwhile to further investigate the epigenetic regulation of genes under hypoxic conditions. [BMB Reports 2022; 55(6): 287-292]
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