Dongqing Guo scite author profile

Dongqing Guo

2Publications

22Citation Statements Received

129Citation Statements Given

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Affiliations

Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences, Shanghai Institutes for Biological Sciences

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Production of ACAT1 56-kDa isoform in human cells via trans-splicing involving the ampicillin resistance gene

Chen

Zhao

et al. 2013

Cell Res

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Trans-splicing, a process involving the cleavage and joining of two separate transcripts, can expand the transcriptome and proteome in eukaryotes. Chimeric RNAs generated by trans-splicing are increasingly described in literatures. The widespread presence of antibiotic resistance genes in natural environments and human intestines is becoming an important challenge for public health. Certain antibiotic resistance genes, such as ampicillin resistance gene (Ampr), are frequently used in recombinant plasmids. Until now, trans-splicing involving recombinant plasmid-derived exogenous transcripts and endogenous cellular RNAs has not been reported. Acyl-CoA:cholesterol acyltransferase 1 (ACAT1) is a key enzyme involved in cellular cholesterol homeostasis. The 4.3-kb human ACAT1 chimeric mRNA can produce 50-kDa and 56-kDa isoforms with different enzymatic activities. Here, we show that human ACAT1 56-kDa isoform is produced from an mRNA species generated through the trans-splicing of an exogenous transcript encoded by the antisense strand of Ampr (asAmp) present in common Ampr-plasmids and the 4.3-kb endogenous ACAT1 chimeric mRNA, which is presumably processed through a prior event of interchromosomal trans-splicing. Strikingly, DNA fragments containing the asAmp with an upstream recombined cryptic promoter and the corresponding exogenous asAmp transcripts have been detected in human cells. Our findings shed lights on the mechanism of human ACAT1 56-kDa isoform production, reveal an exogenous-endogenous trans-splicing system, in which recombinant plasmid-derived exogenous transcripts are linked with endogenous cellular RNAs in human cells, and suggest that exogenous DNA might affect human gene expression at both DNA and RNA levels.

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Excess TNF-α in the blood activates monocytes with the potential to directly form cholesteryl ester-laden cells

Zhu

Lei

Zhu

et al. 2015

ABBS

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The tumor necrosis factor-α (TNF-α) and monocytic cells play a critical role in the development of atherosclerosis, which is the major cause of coronary heart disease (CHD). In this work, we investigated the effect of excess TNF-α on monocytes in the blood and found that blood monocytes from the CHD patients had the potential to directly form cholesteryl ester (CE)-laden cells under the in vitro incubation with oxLDL. The plasma levels of proinflammatory cytokines, such as TNF-α, interleukin 6 (IL-6), and C reactive protein (CRP), in the CHD patients were significantly higher than those in the control healthy volunteers. However, only the plasma level of TNF-α, but not of IL-6 or CRP, is positively correlated with the potential of blood monocytes to directly form CE-laden cells. By using human blood monocytes and monocytic THP-1 cells, the activating effect of TNF-α on the formation of the CE-laden cells was demonstrated, which could be specifically blocked by the anti-TNF-α antibody. Furthermore, it was also revealed that TNF-α could boost adhesion and oxLDL uptake of the monocytes by enhancing the expression of the functional adhesion molecules and scavenger receptors, respectively. Finally, the results of in vivo and in vitro experiments with a mouse model confirmed that excess TNF-α in the blood activates monocytes with the potential to directly form CE-laden cells. These data demonstrate that excess TNF-α in the blood is the primary trigger for the development of atherosclerosis and CHD.

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Dongqing Guo

Production of ACAT1 56-kDa isoform in human cells via trans-splicing involving the ampicillin resistance gene

Excess TNF-α in the blood activates monocytes with the potential to directly form cholesteryl ester-laden cells

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Dongqing Guo

Production of ACAT1 56-kDa isoform in human cells via trans-splicing involving the ampicillin resistance gene

Excess TNF-&alpha; in the blood activates monocytes with the potential to directly form cholesteryl ester-laden cells

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Excess TNF-α in the blood activates monocytes with the potential to directly form cholesteryl ester-laden cells