ER stress response induced by the production of human IL-7 in rice endosperm cells

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• 作者：Kyoko Kudo (1)
  Masaru Ohta (1)
  Lijun Yang (1)
  Yuhya Wakasa (1)
  Sakiko Takahashi (1)
  Fumio Takaiwa (1)
  
• 关键词：Endoplasmic reticulum stress ; ERAD ; Human IL ; 7 ; Seed protein ; Transgenic rice
• 刊名：Plant Molecular Biology
• 出版年：2013
• 出版时间：5 - March 2013
• 年：2013
• 卷：81
• 期：4
• 页码：461-475
• 全文大小：859KB
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• 作者单位：Kyoko Kudo (1)
  Masaru Ohta (1)
  Lijun Yang (1)
  Yuhya Wakasa (1)
  Sakiko Takahashi (1)
  Fumio Takaiwa (1)
  
  1. Functional Transgenic Crops Research Unit, Genetically Modified Organism Research Center, National Institute of Agrobiological Sciences, Kannondai 2-1-2, Tsukuba, Ibaraki, 305-8602, Japan
  
• ISSN：1573-5028

文摘

Rice seed has been used as a production platform for high value recombinant proteins. When mature human interleukin 7 (hIL-7) was expressed as a secretory protein in rice endosperm by ligating the N terminal glutelin signal peptide and the C terminal KDEL endoplasmic reticulum (ER) retention signal to the hIL-7 cytokine to improve production yield, this protein accumulated at levels visible by Coomassie Brilliant Blue staining. However, the production of this protein led not only to a severe reduction of endogenous seed storage proteins but also to a deterioration in grain quality. The appearance of aberrant grain phenotypes (such as floury and shrunken) was attributed to ER stress induced by the retention of highly aggregated unfolded hIL-7 in the ER lumen, and the expression levels of chaperones such as BiPs and PDIs were enhanced in parallel with the increase in hIL-7 levels. The activation of this ER stress response was shown to be mainly mediated by the OsIRE1-OsbZIP50 signal cascade, based on the appearance of unconventional splicing of OsbZIP50 mRNA and the induction of OsBiP4&5. Interestingly, the ER stress response could be induced by lower concentrations of hIL-7 versus other types of cytokines such as IL-1b, IL-4, IL-10, and IL-18. Furthermore, several ubiquitin 26S proteasome-related genes implicated in ER-associated degradation were upregulated by hIL-7 production. These results suggest that severe detrimental effects on grain properties were caused by proteo-toxicity induced by unfolded hIL-7 aggregates in the ER, resulting in the triggering of ER stress.