Division of Molecular and Life Sciences, Pohang University of Science and Technology, Pohang, 790-784, Korea.
Plant Cell. 2009 Dec;21(12):3984-4001. doi: 10.1105/tpc.109.071548. Epub 2009 Dec 22.
Plastid-targeted proteins pass through the cytosol as unfolded precursors. If proteins accumulate in the cytosol, they can form nonspecific aggregates that cause severe cellular damage. Here, we demonstrate that high levels of plastid precursors are degraded through the ubiquitin-proteasome system (UPS) in Arabidopsis thaliana cells. The cytosolic heat shock protein cognate 70-4 (Hsc70-4) and E3 ligase carboxy terminus of Hsc70-interacting protein (CHIP) were highly induced in plastid protein import2 plants, which had a T-DNA insertion at Toc159 and showed an albino phenotype and a severe defect in protein import into chloroplasts. Hsc70-4 and CHIP together mediated plastid precursor degradation when import-defective chloroplast-targeted reporter proteins were transiently expressed in protoplasts. Hsc70-4 recognized specific sequence motifs in transit peptides and thereby led to precursor degradation through the UPS. CHIP, which interacted with Hsc70-4, functioned as an E3 ligase in the Hsc70-4-mediated protein degradation. The physiological role of Hsc70-4 was confirmed by analyzing Hsc70-4 RNA interference plants in an hsc70-1 mutant background. Plants with lower Hsc70 levels exhibited abnormal embryogenesis, resulting in defective seedlings that displayed high levels of reactive oxygen species and monoubiquitinated Lhcb4 precursors. We propose that Hsc70-4 and CHIP mediate plastid-destined precursor degradation to prevent cytosolic precursor accumulation and thereby play a critical role in embryogenesis.
质体靶向蛋白作为未折叠前体穿过细胞质。如果蛋白质在细胞质中积累,它们可能会形成非特异性聚集体,从而导致严重的细胞损伤。在这里,我们证明拟南芥细胞中高水平的质体前体通过泛素-蛋白酶体系统 (UPS) 降解。细胞质热休克蛋白同源物 70-4 (Hsc70-4) 和 E3 连接酶羧基末端的 Hsc70 相互作用蛋白 (CHIP) 在质体蛋白导入 2 型植物中高度诱导,该植物在 Toc159 处有 T-DNA 插入,表现出白化表型和质体蛋白导入严重缺陷。当导入缺陷的质体靶向报告蛋白在原生质体中瞬时表达时,Hsc70-4 和 CHIP 共同介导质体前体降解。Hsc70-4 识别转运肽中的特定序列基序,从而通过 UPS 导致前体降解。与 Hsc70-4 相互作用的 CHIP 在 Hsc70-4 介导的蛋白质降解中作为 E3 连接酶发挥作用。在 hsc70-1 突变体背景下分析 Hsc70-4 RNA 干扰植物,证实了 Hsc70-4 的生理作用。Hsc70 水平较低的植物表现出异常胚胎发生,导致幼苗出现缺陷,表现出高水平的活性氧和单泛素化的 Lhcb4 前体。我们提出 Hsc70-4 和 CHIP 介导质体定向前体降解,以防止细胞质前体积累,从而在胚胎发生中发挥关键作用。