RNA-binding protein BC1 in RNA stability and stress granule formation
Date Issued
2005
Date
2005
Author(s)
Weng, Jui-Hsia
DOI
en-US
Abstract
細胞中透過不同的調節機制以期達到基因表現的控制,而部分調
控機制所影響的層面即在核醣核酸的後轉錄時期。此類調控對於半生
期短、易分解的核醣核酸尤為重要,例如:原癌基因、細胞素等。而
在相關研究中發現,此種易分解的核醣核酸之3 端非轉譯區中具有特
定的排列分子重複出現,其稱之為AU-rich element 簡稱ARE; ARE
透過其鍵結蛋白的調控,而達穩定或加速分解之效。
當細胞遭遇環境變化或藥物刺激,例如熱休克或氧化性藥物影響
時,細胞將啟動防禦機制,一方面調控熱休克性蛋白等之表現另一方
面爲降低細胞損傷而暫時終止一般蛋白的轉錄,將訊息核醣核酸存放
於壓力小體中 (stress granules),待環境危機解除才釋出訊息核醣
核酸回復其原有表現。
在本篇報告中,針對BC1 (Brain Co-regulater 1) 蛋白在細胞
遭遇環境變異前後所擔負的不同功能角色提出實驗探討。初步結果顯
示,BC1 透過其C 端區域而具有與ARE 鍵結的能力,但此鍵結的現象
並未對該核醣核酸的半生期並無顯著影響,而具有增強其轉譯的傾
向。此外,當使細胞受到氧化性藥物刺激時,透過免疫染色法證實
BC1 參與在壓力小體中。未來爲進一步釐清BC1 在形成壓力小體或對
其內核醣核酸所占調控角色,則仍須更進一步實驗。
AU-rich element (ARE) is found in the 3’UTR of many short-lived mRNAs
such as cytokines, and oncogenes. Many RNA-binding proteins that selectively
recognize and bind to this ARE sequence are called AU-rich binding protein
(AUBP) and can modulate stability and/or translation of ARE-containing
mRNAs. Eukaryotic cells shut down protein synthesis and reprogram their
translational machinery in response to environmental stress for conserving
anabolic energy to repair of the stress-induced damage. In stressed-cells,
mRNA is in a dynamic equilibrium between polysomes and stress granules
(SGs). SGs are cytoplasmic foci at which stalled translation initiation
complexes accumulate. Many RNA-binding protein such as TIA-1,TIAR, and
HuR localized at stress granules and it has been proposed the carboxyl terminus
of TIA1, the prion-related domain PRD, mediates the formation of SGs.
In this study, we investigated the binding ability of BC1 to
homo-polynucleotides. Our data demonstrated that BC1 is an RNA-binding
protein and possesses strong binding activity toword the distinct sequence. The
YTH domain of BC1, a putative RNA-binding domain, harbors ARE-binding
activity by using the electrophoretic mobility shift assay (EMSA). RT-PCR and
Northern blot analysis showed that BC1 does not alter the stability of its
binding target RNAs, but we also prove that BC1 have tendency to promote
gene expression at translational level. When cells encounter stress, BC1 is
colocalized with TIA-1 and HuR in SGs. We also found that BC1 interacts with
TIA-1 under stress in GST-pull down experiment. In deletion analysis, we
found that the PRD domain of TIA-1 and the Extensin-like domain of BC1 are
responsible for SG formation.
Collectively, we report a novel RNA-binding protein BC1 which may exert
its role in promoting translation of ARE-containing mRNAs and is involved in
formation of SGs.
Subjects
壓力小體
RNA穩定性
BC1
ARE
stress granules
Type
other
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