Dong‐Liang Mo scite author profile

Dong‐Liang Mo

3Publications

175Citation Statements Received

108Citation Statements Given

How they've been cited

188

168

How they cite others

169

Affiliations

Guangxi Normal University, University of Illinois at Chicago, Chinese Academy of Sciences

Publications

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Human Helicase RECQL4 Drives Cisplatin Resistance in Gastric Cancer by Activating an AKT–YB1–MDR1 Signaling Pathway

Fang

Niu

et al. 2016

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Elevation of the DNA-unwinding helicase RECQL4, which participates in various DNA repair pathways, has been suggested to contribute to the pathogenicity of various human cancers, including gastric cancer. In this study, we addressed the prognostic and chemotherapeutic significance of RECQL4 in human gastric cancer, which has yet to be determined. We observed significant increases in RECQL4 mRNA or protein in >70% of three independent sets of human gastric cancer specimens examined, relative to normal gastric tissues. Strikingly, high RECQL4 expression in primary tumors correlated well with poor survival and gastric cancer lines with high RECQL4 expression displayed increased resistance to cisplatin treatment. Mechanistic investigations revealed a novel role for RECQL4 in transcriptional regulation of the multidrug resistance gene MDR1, through a physical interaction with the transcription factor YB1. Notably, ectopic expression of RECQL4 in cisplatin-sensitive gastric cancer cells with low endogenous RECQL4 was sufficient to render them resistant to cisplatin, in a manner associated with YB1 elevation and MDR1 activation. Conversely, RECQL4 silencing in cisplatinresistant gastric cancer cells with high endogenous RECQL4 suppressed YB1 phosphorylation, reduced MDR1 expression, and resensitized cells to cisplatin. In establishing RECQL4 as a critical mediator of cisplatin resistance in gastric cancer cells, our findings provide a therapeutic rationale to target RECQL4 or the downstream AKT-YB1-MDR1 axis to improve gastric cancer treatment.

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Human RecQL4 helicase plays multifaceted roles in the genomic stability of normal and cancer cells

Zhao

Balajee

2018

Cancer Letters

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XPD localizes in mitochondria and protects the mitochondrial genome from oxidative DNA damage

Liu

Fang

Chi

et al. 2015

Nucleic Acids Research

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Xeroderma pigmentosum group D (XPD/ERCC2) encodes an ATP-dependent helicase that plays essential roles in both transcription and nucleotide excision repair of nuclear DNA, however, whether or not XPD exerts similar functions in mitochondria remains elusive. In this study, we provide the first evidence that XPD is localized in the inner membrane of mitochondria, and cells under oxidative stress showed an enhanced recruitment of XPD into mitochondrial compartment. Furthermore, mitochondrial reactive oxygen species production and levels of oxidative stress-induced mitochondrial DNA (mtDNA) common deletion were significantly elevated, whereas capacity for oxidative damage repair of mtDNA was markedly reduced in both XPD-suppressed human osteosarcoma (U2OS) cells and XPD-deficient human fibroblasts. Immunoprecipitation-mass spectrometry analysis was used to identify interacting factor(s) with XPD and TUFM, a mitochondrial Tu translation elongation factor was detected to be physically interacted with XPD. Similar to the findings in XPD-deficient cells, mitochondrial common deletion and oxidative damage repair capacity in U2OS cells were found to be significantly altered after TUFM knock-down. Our findings clearly demonstrate that XPD plays crucial role(s) in protecting mitochondrial genome stability by facilitating an efficient repair of oxidative DNA damage in mitochondria.

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Dong‐Liang Mo

Human Helicase RECQL4 Drives Cisplatin Resistance in Gastric Cancer by Activating an AKT–YB1–MDR1 Signaling Pathway

Human RecQL4 helicase plays multifaceted roles in the genomic stability of normal and cancer cells

XPD localizes in mitochondria and protects the mitochondrial genome from oxidative DNA damage

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