[HTML][HTML] Downregulation of MEIS1 mediated by ELFN1-AS1/EZH2/DNMT3a axis promotes tumorigenesis and oxaliplatin resistance in colorectal cancer
Y Li, Y Gan, J Liu, J Li, Z Zhou, R Tian, R Sun… - Signal transduction and …, 2022 - nature.com
Y Li, Y Gan, J Liu, J Li, Z Zhou, R Tian, R Sun, J Liu, Q Xiao, Y Li, P Lu, Y Peng, Y Peng…
Signal transduction and targeted therapy, 2022•nature.comOxaliplatin is widely used in the frontline treatment of colorectal cancer (CRC), but an
estimated 50% of patients will eventually stop responding to treatment due to acquired
resistance. This study revealed that diminished MEIS1 expression was detected in CRC and
harmed the survival of CRC patients. MEIS1 impaired CRC cell viabilities and tumor growth
in mice and enhanced CRC cell sensitivity to oxaliplatin by preventing DNA damage repair.
Mechanistically, oxaliplatin resistance following MEIS1 suppression was critically dependent …
estimated 50% of patients will eventually stop responding to treatment due to acquired
resistance. This study revealed that diminished MEIS1 expression was detected in CRC and
harmed the survival of CRC patients. MEIS1 impaired CRC cell viabilities and tumor growth
in mice and enhanced CRC cell sensitivity to oxaliplatin by preventing DNA damage repair.
Mechanistically, oxaliplatin resistance following MEIS1 suppression was critically dependent …
Abstract
Oxaliplatin is widely used in the frontline treatment of colorectal cancer (CRC), but an estimated 50% of patients will eventually stop responding to treatment due to acquired resistance. This study revealed that diminished MEIS1 expression was detected in CRC and harmed the survival of CRC patients. MEIS1 impaired CRC cell viabilities and tumor growth in mice and enhanced CRC cell sensitivity to oxaliplatin by preventing DNA damage repair. Mechanistically, oxaliplatin resistance following MEIS1 suppression was critically dependent on enhanced FEN1 expression. Subsequently, we confirmed that EZH2-DNMT3a was assisted by lncRNA ELFN1-AS1 in locating the promoter of MEIS1 to suppress MEIS1 transcription epigenetically. Based on the above, therapeutics targeting the role of MEIS1 in oxaliplatin resistance were developed and our results suggested that the combination of oxaliplatin with either ELFN1-AS1 ASO or EZH2 inhibitor GSK126 could largely suppress tumor growth and reverse oxaliplatin resistance. This study highlights the potential of therapeutics targeting ELFN1-AS1 and EZH2 in cell survival and oxaliplatin resistance, based on their controlling of MEIS1 expression, which deserve further verification as a prospective therapeutic strategy.
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