Abstract
Large amounts of seed storage proteins (SSPs) are produced in the maturing endosperm of rice seeds. Rice SSPs are synthesized as secretory proteins on the rough endoplasmic reticulum (ER), and are transported and deposited into protein complexes called protein bodies (PB-I and PB-II). Due to the high production of SSPs, unfolded SSPs may be generated during this process. However, it was previously unclear how such unfolded proteins are selected among synthesized products and removed from the ER to maintain protein quality in the endosperm. Since Hrd3/SEL1L recognizes unfolded proteins in yeast and mammalian protein quality control systems, the role of OsHrd3 in protein quality control in rice endosperm was investigated. Co-immunoprecipitation experiments demonstrated that OsHrd3 interacts with components of the Hrd1 ubiquitin ligase complex such as OsOS-9 and OsHrd1 in rice protoplasts. Endosperm-specific suppression of OsHrd3 in transgenic rice reduced the levels of polyubiquitinated proteins and resulted in unfolded protein responses (UPRs) in the endosperm, suggesting that OsHrd3-mediated polyubiquitination plays an important role in ER quality control. It was found that a cysteine-rich 13kDa prolamin, RM1, was polyubiquitinated in wild-type (WT) seeds but not in OsHrd3 knockdown (KD) seeds. RM1 formed aberrant aggregates that were deposited abnormally in OsHrd3 KD seeds, resulting in deformed PB-I. Therefore, the quality of protein bodies is maintained by polyubiquitination of unfolded SSPs through the Hrd1 ubiquitin ligase system in rice endosperm.
Highlights
Seed storage proteins (SSPs) are a source of the nitrogen, sulphur, and carbon required for the germination and growth of seedlings prior to photosynthesis
Endosperm-specific suppression of OsHrd3 in transgenic rice reduced the levels of polyubiquitinated proteins and resulted in unfolded protein responses (UPRs) in the endosperm, suggesting that OsHrd3-mediated polyubiquitination plays an important role in endoplasmic reticulum (ER) quality control
protein body (PB)-II is formed via the Golgi apparatus or by precursor-accumulating (PAC) vesicles from the ER, into which glutelins and globulin are deposited
Summary
Seed storage proteins (SSPs) are a source of the nitrogen, sulphur, and carbon required for the germination and growth of seedlings prior to photosynthesis. Rice SSPs are synthesized on the rough endoplasmic reticulum (rER) and translocated into the ER lumen, followed by deposition in two different types of protein bodies, PB-I and PB-II (Tanaka et al, 1980; Krishnan et al, 1986). PB-II is an irregularly shaped, 2–4 μm protein storage vacuole that has high electron density. PB-II is formed via the Golgi apparatus or by precursor-accumulating (PAC) vesicles from the ER, into which glutelins and globulin are deposited
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