A Rice Transmembrane bZIP Transcription Factor, OsbZIP39, Regulates the Endoplasmic Reticulum Stress Response

内质网 未折叠蛋白反应 细胞生物学 ER保留 转录因子 生物 跨膜蛋白 亮氨酸拉链 信号转导 bZIP域 亚细胞定位 激活转录因子 绿色荧光蛋白 细胞质 高尔基体 生物化学 基因 突变体 受体
作者
Hideyuki Takahashi,Taiji Kawakatsu,Yuhya Wakasa,Shimpei Hayashi,Fumio Takaiwa
出处
期刊:Plant and Cell Physiology [Oxford University Press]
卷期号:53 (1): 144-153 被引量:89
标识
DOI:10.1093/pcp/pcr157
摘要

The endoplasmic reticulum (ER) responds to the accumulation of unfolded proteins in its lumen (ER stress) by activating intracellular signal transduction pathways. These pathways are known as the ER stress response or the unfolded protein response. In this study, three rice basic leucine zipper (bZIP) transcription factors (OsbZIP39, OsbZIP50 and OsbZIP60) containing putative transmembrane domains (TMDs) in their C-terminal regions were identified as candidates of the ER stress sensor transducer. One of these proteins, OsbZIP39, was characterized in this study. OsbZIP39 was shown to associate with microsomes as a membrane-integrated protein using the subcellular fractionation method. When the full length and a truncated form of OsbZIP39 without the TMD (OsbZIP39ΔC) was fused to green fluorescent protein (GFP) and transfected into rice protoplasts, the proteins were identified in the cytoplasm and nucleus, respectively. This suggests that OsbZIP39 may be converted into a soluble truncated form by proteolytic cleavage and subsequently translocated to the nucleus. Expression of OsbZIP39ΔC clearly activated the binding protein 1 (BiP1) promoter in a rice protoplast transient assay. Overexpression of OsbZIP39ΔC in stable transgenic rice also led to the up-regulation of several ER stress response genes including BiP1 and OsbZIP50 in the absence of ER stress. However, in the OsbZIP39ΔC-overexpressing line, OsbZIP50 mRNA did not undergo IRE1 (inositol-requiring protein 1)-mediated cytoplasmic splicing that is required for its activation. These data indicate that OsbZIP39 may be directly involved in the regulation of several ER stress response genes.
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