Nonspecific and specific interactions of Y-box-binding protein 1 (YB-1) with mRNA and posttranscriptional regulation of protein synthesis in animal cells

Y-box-binding protein 1 (YB-1) is an animal multifunctional DNA/RNA-binding protein that is involved in reproduction, storing, and expression of genetic information. YB-1 accompanies mRNA throughout its life, from synthesis to degradation, and has a high specific and nonspecific affinity for RNA. In the nucleus YB-1 regulates mRNA processing. In the cytoplasm YB-1 is responsible for global and selective regulation of protein synthesis, as well as the mRNA life. This review focuses on the role of YB-1 in regulating translation. The possible mechanisms of the positive and negative effects of YB-1 on this process are considered. The recent original data are described, supporting the role of YB-1 as a major structural component of mRNP. Data about specific interactions of YB-1 with RNA are summarized for the first time.     

YB-1 Synthesis Is Regulated by mTOR Signaling Pathway

YB-1 is a eukaryotic protein with numerous intra- and extracellular functions based on its ability to interact with RNA, DNA, and many proteins. In spite of achievements in studying its functions, regulation of YB-1 synthesis in the cell remains poorly understood. In the current study Western and Northern blotting were used to determine the amounts of YB-1 and YB-1 mRNA in rabbit organs and several cell lines. As found, in the majority of studied eukaryotic cells a considerable proportion of YB-1 mRNA was stored in free mRNPs, i.e., was poorly translated. Also, we demonstrated that YB-1 synthesis depended on conditions that determined the rate of cell division. Specific suppression of YB-1 synthesis resulted from inhibition of the mTOR signaling pathway with inhibitor PP242, but not rapamycin. Experiments on reporter constructs showed that dependence of YB-1 mRNA translation on activity of the mTOR signaling pathway was dictated by 5′ untranslated regions of this mRNA, irrelatively of the TOP-like sequences at the beginning of 5′ UTR.     

Role of YB-1 Protein in Inflammation

Biochemistry (Moscow) - This review discusses the role of the multifunctional DNA/RNA-binding protein YB-1 in inflammation. YB-1 performs multiple functions in the cell depending on its location:...     

Y-box结合蛋白功能及对肿瘤发生的影响

Y-box结合蛋白家族成员是一类高度保守的顺式作用元件, 广泛存在于原核及真核生物细胞中。它是一种多功能蛋白, 与转录调节、翻译调控、mRNA选择性剪接、DNA的修复、细胞增殖和再生等有关。Y-box结合蛋白的氨基酸序列包含3个结构域: 氨基酸N末端, 亲水结构域C末端, 冷休克结构域(cold shock domain CSD), 保守的冷休克结构域决定了Y-box结合蛋白的大部分功能。最近研究发现, 定位于细胞核中的YB-1蛋白在局部晚期非小细胞肺癌的预防上可作为新的靶位点, YB-1蛋白还可通过对抑癌基因p53启动子抑制起负调控作用, 此外, YB-1蛋白在PI3K/Akt信号通路中也起到重要的作用, 这些研究都为肿瘤的治疗提供了新的线索和启示。文章就Y-box结合蛋白功能及其对肿瘤发生的影响等方面进行概述。     

Structural organization of mRNA complexes with major core mRNP protein YB-1

YB-1 is a universal major protein of cytoplasmic mRNPs, a member of the family of multifunctional cold shock domain proteins (CSD proteins). Depending on its amount on mRNA, YB-1 stimulates or inhibits mRNA translation. In this study, we have analyzed complexes formed in vitro at various YB-1 to mRNA ratios, including those typical for polysomal (translatable) and free (untranslatable) mRNPs. We have shown that at mRNA saturation with YB-1, this protein alone is sufficient to form mRNPs with the protein/RNA ratio and the sedimentation coefficient typical for natural mRNPs. These complexes are dynamic structures in which the protein can easily migrate from one mRNA molecule to another. Biochemical studies combined with atomic force microscopy and electron microscopy showed that mRNA–YB-1 complexes with a low YB-1/mRNA ratio typical for polysomal mRNPs are incompact; there, YB-1 binds to mRNA as a monomer with its both RNA-binding domains. At a high YB-1/mRNA ratio typical for untranslatable mRNPs, mRNA-bound YB-1 forms multimeric protein complexes where YB-1 binds to mRNA predominantly with its N-terminal part. A multimeric YB-1 comprises about twenty monomeric subunits; its molecular mass is about 700 kDa, and it packs a 600–700 nt mRNA segment on its surface.