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Zhi-feng Wei Qi Lv Ying Xia Meng-fan Yue Can Shi Yu-feng Xia Gui-xin Chou Zheng-tao Wang Yue Dai 《International journal of biological sciences》2015,11(9):1113-1126
Norisoboldine (NOR), the primary isoquinoline alkaloid constituent of the root of Lindera aggregata, has previously been demonstrated to attenuate osteoclast (OC) differentiation. Accumulative evidence has shown that aryl hydrocarbon receptor (AhR) plays an important role in regulating the differentiation of various cells, and multiple isoquinoline alkaloids can modulate AhR. In the present study, we explored the role of NOR in the AhR signaling pathway. These data showed that the combination of AhR antagonist resveratrol (Res) or α-naphthoflavone (α-NF) nearly reversed the inhibition of OC differentiation through NOR. NOR could stably bind to AhR, up-regulate the nuclear translocation of AhR, and enhance the accumulation of the AhR-ARNT complex, AhR-mediated reporter gene activity and CYP1A1 expression in RAW 264.7 cells, suggesting that NOR might be an agonist of AhR. Moreover, NOR inhibited the nuclear translocation of NF-κB-p65, resulting in the evident accumulation of the AhR-NF-κB-p65 complex, which could be markedly inhibited through either Res or α-NF. Although NOR only slightly affected the expression of HIF-1α, NOR markedly reduced VEGF mRNA expression and ARNT-HIF-1α complex accumulation. In vivo studies indicated that NOR decreased the number of OCs and ameliorated the bone erosion in the joints of rats with collagen-induced arthritis, accompanied by the up-regulation of CYP1A1 and the down-regulation of VEGF mRNA expression in the synovium of rats. A combination of α-NF nearly completely reversed the effects of NOR. In conclusion, NOR attenuated OC differentiation and bone erosion through the activation of AhR and the subsequent inhibition of both NF-κB and HIF pathways. 相似文献
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Derivative of plant phenolic compound inhibits the type III secretion system of Dickeya dadantii via HrpX/HrpY two‐component signal transduction and Rsm systems 下载免费PDF全文
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Tissue‐specific and pathogen‐inducible expression of a fusion protein containing a Fusarium‐specific antibody and a fungal chitinase protects wheat against Fusarium pathogens and mycotoxins 下载免费PDF全文
Wei Cheng He‐Ping Li Jing‐Bo Zhang Hong‐Jie Du Qi‐Yong Wei Tao Huang Peng Yang Xian‐Wei Kong Yu‐Cai Liao 《Plant biotechnology journal》2015,13(5):664-674
Fusarium head blight (FHB) in wheat and other small grain cereals is a globally devastating disease caused by toxigenic Fusarium pathogens. Controlling FHB is a challenge because germplasm that is naturally resistant against these pathogens is inadequate. Current control measures rely on fungicides. Here, an antibody fusion comprised of the Fusarium spp.‐specific recombinant antibody gene CWP2 derived from chicken, and the endochitinase gene Ech42 from the biocontrol fungus Trichoderma atroviride was introduced into the elite wheat cultivar Zhengmai9023 by particle bombardment. Expression of this fusion gene was regulated by the lemma/palea‐specific promoter Lem2 derived from barley; its expression was confirmed as lemma/palea‐specific in transgenic wheat. Single‐floret inoculation of independent transgenic wheat lines of the T3 to T6 generations revealed significant resistance (type II) to fungal spreading, and natural infection assays in the field showed significant resistance (type I) to initial infection. Gas chromatography–mass spectrometry analysis revealed marked reduction of mycotoxins in the grains of the transgenic wheat lines. Progenies of crosses between the transgenic lines and the FHB‐susceptible cultivar Huamai13 also showed significantly enhanced FHB resistance. Quantitative real‐time PCR analysis revealed that the tissue‐specific expression of the antibody fusion was induced by salicylic acid drenching and induced to a greater extent by F. graminearum infection. Histochemical analysis showed substantial restriction of mycelial growth in the lemma tissues of the transgenic plants. Thus, the combined tissue‐specific and pathogen‐inducible expression of this Fusarium‐specific antibody fusion can effectively protect wheat against Fusarium pathogens and reduce mycotoxin content in grain. 相似文献
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