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Activating transcription factor 4 protects mice against sepsis-induced intestinal injury by regulating gut-resident macrophages differentiation 被引量:3
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作者 Zhenliang Wen Xi Xiong +10 位作者 Dechang Chen Lujing Shao Xiaomeng Tang Xuan Shen Sheng Zhang Sisi Huang Lidi Zhang Yizhu Chen Yucai Zhang Chunxia Wang Jiao Liu 《Chinese Medical Journal》 SCIE CAS CSCD 2022年第21期2585-2595,共11页
Background: Gut-resident macrophages (gMacs) supplemented by monocytes-to-gMacs differentiation play a critical role in maintaining intestinal homeostasis. Activating transcription factor 4 (ATF4) is involved in immun... Background: Gut-resident macrophages (gMacs) supplemented by monocytes-to-gMacs differentiation play a critical role in maintaining intestinal homeostasis. Activating transcription factor 4 (ATF4) is involved in immune cell differentiation. We therefore set out to investigate the role of ATF4-regulated monocytes-to-gMacs differentiation in sepsis-induced intestinal injury.Methods: Sepsis was induced in C57BL/6 wild type (WT) mice andAtf4-knockdown (Atf4+/-) mice by cecal ligation and puncture or administration of lipopolysaccharide (LPS). Colon, peripheral blood mononuclear cells, sera, lung, liver, and mesenteric lymph nodes were collected for flow cytometry, hematoxylin and eosin staining, immunohistochemistry, quantitative reverse transcription polymerase chain reaction, and enzyme-linked immunosorbent assay, respectively.Results: CD64, CD11b, Ly6C, major histocompatibility complex-II (MHC-II), CX3CR1, Ly6G, and SSC were identified as optimal primary markers for detecting the process of monocytes-to-gMacs differentiation in the colon of WT mice. Monocytes-to-gMacs differentiation was impaired in the colon during sepsis and was associated with decreased expression of ATF4 in P1 (Ly6Chi monocytes), the precursor cells of gMacs.Atf4 knockdown exacerbated the impairment of monocytes-to-gMacs differentiation in response to LPS, resulting in a significant reduction of gMacs in the colon. Furthermore, compared with WT mice,Atf4+/- mice exhibited higher pathology scores, increased expression of inflammatory factor genes (TNF-α, IL-1β), suppressed expression of CD31 and vascular endothelial-cadherin in the colon, and increased translocation of intestinal bacteria to lymph nodes and lungs following exposure to LPS. However, the aggravation of sepsis-induced intestinal injury resulting fromAtf4 knockdown was not caused by the enhanced inflammatory effect of Ly6Chi monocytes and gMacs.Conclusion: ATF4, as a novel regulator of monocytes-to-gMacs differentiation, plays a critical role in protecting mice against sepsis-induced intestinal injury, suggesting that ATF4 might be a potential therapeutic target for sepsis treatment. 展开更多
关键词 activating transcription factor 4 Mice LIPOPOLYSACCHARIDES MONOCYTES Leukocytes mononuclear Cell differentiation MACROPHAGES Sepsis Homeostasis gMacs Intestinal injury
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Edaravone protects against oxygen-glucose-serum deprivation/restoration-induced apoptosis in spinal cord astrocytes by inhibiting integrated stress response 被引量:2
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作者 Bin Dai Ting Yan +7 位作者 Yi-xing Shen You-jia Xu Hai-bin Shen Dong Chen Jin-rong Wang Shuang-hua He Qi-rong Dong Ai-liang Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第2期283-289,共7页
We previously found that oxygen-glucose-serum deprivation/restoration(OGSD/R) induces apoptosis of spinal cord astrocytes, possibly via caspase-12 and the integrated stress response, which involves protein kinase R-... We previously found that oxygen-glucose-serum deprivation/restoration(OGSD/R) induces apoptosis of spinal cord astrocytes, possibly via caspase-12 and the integrated stress response, which involves protein kinase R-like endoplasmic reticulum kinase(PERK), eukaryotic initiation factor 2-alpha(eIF2α) and activating transcription factor 4(ATF4). We hypothesized that edaravone, a low molecular weight, lipophilic free radical scavenger, would reduce OGSD/R-induced apoptosis of spinal cord astrocytes. To test this, we established primary cultures of rat astrocytes, and exposed them to 8 hours/6 hours of OGSD/R with or without edaravone(0.1, 1, 10, 100 μM) treatment. We found that 100 μM of edaravone significantly suppressed astrocyte apoptosis and inhibited the release of reactive oxygen species. It also inhibited the activation of caspase-12 and caspase-3, and reduced the expression of homologous CCAAT/enhancer binding protein, phosphorylated(p)-PERK, p-eIF2α, and ATF4. These results point to a new use of an established drug in the prevention of OGSD/R-mediated spinal cord astrocyte apoptosis via the integrated stress response. 展开更多
关键词 nerve regeneration edaravone apoptosis astrocytes integrated stress response reactive oxygen species PERK eIF2α activating transcription factor 4 CCAAT/enhancer binding protein homologous protein caspase-3 caspase-12 neural regeneration
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UPF1 increases amino acid levels and promotes cell proliferation in lung adenocarcinoma via the eIF2α-ATF4 axis 被引量:2
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作者 Lei FANG Huan QI +5 位作者 Peng WANG Shiqing WANG Tianjiao LI Tian XIA Hailong PIAO Chundong GU 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2022年第10期863-875,共13页
Up-frameshift 1(UPF1),as the most critical factor in nonsense-mediated messenger RNA(mRNA)decay(NMD),regulates tumor-associated molecular pathways in many cancers.However,the role of UPF1 in lung adenocarcinoma(LUAD)a... Up-frameshift 1(UPF1),as the most critical factor in nonsense-mediated messenger RNA(mRNA)decay(NMD),regulates tumor-associated molecular pathways in many cancers.However,the role of UPF1 in lung adenocarcinoma(LUAD)amino acid metabolism remains largely unknown.In this study,we found that UPF1 was significantly correlated with a portion of amino acid metabolic pathways in LUAD by integrating bioinformatics and metabolomics.We further confirmed that UPF1 knockdown inhibited activating transcription factor 4(ATF4)and Ser51 phosphorylation of eukaryotic translation initiation factor 2α(eIF2α),the core proteins in amino acid metabolism reprogramming.In addition,UPF1 promotes cell proliferation by increasing the amino-acid levels of LUAD cells,which depends on the function of ATF4.Clinically,UPF1 mRNA expression is abnormal in LUAD tissues,and higher expression of UPF1 and ATF4 was significantly correlated with poor overall survival(OS)in LUAD patients.Our findings reveal that UPF1 is a potential regulator of tumor-associated amino acid metabolism and may be a therapeutic target for LUAD. 展开更多
关键词 Up-frameshift 1(UPF1) activating transcription factor 4(ATF4) Amino acid metabolism Lung adenocarcinoma
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Homeostatic responses to amino acid insufficiency
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作者 Tracy G.Anthony 《Animal Nutrition》 SCIE 2015年第3期135-137,共3页
This article provides a brief overview describing how two key signaling pathways, namely the integrated stress response and the mammalian target of rapamycin complex 1, work together to facilitate cellular adaptation ... This article provides a brief overview describing how two key signaling pathways, namely the integrated stress response and the mammalian target of rapamycin complex 1, work together to facilitate cellular adaptation to dietary amino acid insufficiency. A deeper understanding of these mechanisms is leading to identification of novel targets which aid in disease treatments, improve stress recovery and increase health span through slowed aging and enhanced metabolic fitness. 展开更多
关键词 MTOR GCN2 Integrated stress response ASPARAGINASE Eukaryotic initiation factor 2 activating transcription factor 4
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