ICP27 interacts with SRPK1 to mediate HSV splicing inhibition by altering SR protein phosphorylation

Infection with some viruses can alter cellular mRNA processing to favor viral gene expression. We present evidence that herpes simplex virus 1 (HSV-1) protein ICP27, which contributes to host shut-off by inhibiting pre-mRNA splicing, interacts with essential splicing factors termed SR proteins and affects their phosphorylation. During HSV-1 infection, phosphorylation of several SR proteins was reduced and this correlated with a subnuclear redistribution. Exogenous SR proteins restored splicing in ICP27-inhibited nuclear extracts and SR proteins isolated from HSV-1-infected cells activated splicing in uninfected S100 extracts, indicating that inhibition occurs by a reversible mechanism. Spliceosome assembly was blocked at the pre-spliceosomal complex A stage. Furthermore, we show that ICP27 interacts with SRPK1 and relocalizes it to the nucleus; moreover, SRPK1 activity was altered in the presence of ICP27 in vitro. We propose that ICP27 modifies SRPK1 activity resulting in hypophosphorylation of SR proteins impairing their ability to function in spliceosome assembly.     

Genetic depletion reveals an essential role for an SR protein splicing factor in vertebrate cells

SR proteins are essential for the splicing of messenger RNA precursors in vitro, where they also alter splice site selection in a concentration-dependent manner. Although experiments involving overexpression or dominant mutations have confirmed that these proteins can influence RNA processing decisions in vivo, similar results with loss-of-function mutations have been lacking. Now, a system for genetic depletion of the chicken B cell line DT40 has revealed that the SR protein ASF/SF2 (alternative splicing factor/splicing factor 2) is essential for viability in these cells⁽¹⁾. This study opens the way for a complete functional dissection of this protein, and other SR proteins, in vivo.     

Concerted regulation of nuclear and cytoplasmic activities of SR proteins by AKT

Serine/arginine-rich (SR) proteins are important regulators of mRNA splicing. Several postsplicing activities have been described for a subset of shuttling SR proteins, including regulation of mRNA export and translation. Using the fibronectin gene to study the links between signal-transduction pathways and SR protein activity, we show that growth factors not only modify the alternative splicing pattern of the fibronectin gene but also alter translation of reporter messenger RNAs in an SR protein-dependent fashion, providing two coregulated levels of isoform-specific amplification. These effects are inhibited by specific small interfering RNAs against SR proteins and are mediated by the AKT kinase, which elicits opposite effects to those evoked by overexpressing SR protein kinases Clk and SRPK. These results show how SR protein activity is modified in response to extracellular stimulation, leading to a concerted regulation of splicing and translation.     

The ethylene-inducible PK12 kinase mediates the phosphorylation of SR splicing factors

The tobacco PK12 is induced by the plant hormone ethylene and is a member of the LAMMER family of protein kinases. Members of this family contain in their C-terminus a unique 'EHLAMMERI/VLGPLP' motif of unknown function, and are related to cyclin- and mitogen-activated protein (MAP)-dependent kinases. The animal members of this class play a role in differentiation. They phosphorylate and physically interact with serine/arginine-rich (SR) splicing factors in vivo to alter their activity and the splicing of target mRNAs. SR proteins have been recently described in plants. The capability of PK12 LAMMER kinase to bind and phosphorylate SR proteins was tested in vitro by kinase and binding assays. The tobacco PK12 phosphorylated both animal and plant SR proteins and specifically interacted with the plant splicing factor atSRp34/SR1. In addition, by site-directed mutagenesis, the LAMMER motif was found to be required for PK12 kinase activity but was not necessary for substrate binding. Consistent with a role in phosphorylation of splicing factors, PK12 was found to localize to the nucleus when transiently over-expressed in suspension cells.     

SRp30a (ASF/SF2) regulates the alternative splicing of caspase-9 pre-mRNA and is required for ceramide-responsiveness

Two splice variants are derived from the caspase-9 gene, proapoptotic caspase-9a and antiapoptotic caspase-9b, by either the inclusion or exclusion of an exon 3, 4, 5, and 6 cassette. Previous studies from our laboratory have shown that the alternative splicing of caspase-9 and the phosphorylation status of SR proteins, a conserved family of splicing factors, are regulated by chemotherapy and ceramide via the action of protein phosphatase-1. In this study, a link between ceramide, SR proteins, and the alternative splicing of caspase-9 was established. The downregulation of SRp30a in A549 cells by RNA interference technology resulted in an increase in the caspase-9b splice variant, with a concomitant decrease in the caspase-9a splice variant, thereby significantly decreasing the caspase-9a/9b ratio from 1.67 +/- 0.11 to 0.56 +/- 0.08 (P < 0.005). The specific downregulation of SRp30a also inhibited the ability of exogenous ceramide treatment to induce the inclusion of the exon 3, 4, 5, and 6 cassette. Therefore, we have identified SRp30a as an RNA trans-acting factor that functions as a major regulator of caspase-9 pre-mRNA processing and is required for ceramide to mediate the alternative splicing of caspase-9.     

水稻NBS-LRR基因选择性剪接的全基因组检测及分析

选择性剪接是促进基因组复杂性和蛋白质组多样性的一种主要机制,但是对水稻NBS-LRR序列选择性剪接的全基因组分析却未见报道。通过隐马尔柯夫模型搜索,从TIGR数据库里得到了855条编码NBS-LRR基序的序列。利用这些序列在KOME、TIGR基因索引及UniProt三个数据库中进行同源搜索,获得同源的完整cDNA序列、假设一致性序列和蛋白质序列。再利用Spidey和SIM4程序把完整cDNA序列和假设一致性序列联配到相应的BAC序列上来预测选择性剪接。蛋白质序列和基因组序列之间的联配使用tBLASTn。在这875个NBS-LRR基因中,119个基因具有选择性剪接现象,其中包括71内含子保留,20个外显子跳跃,25个选择性起始,16个选择性终止,12个5′端的选择性剪接和16个3′端选择性剪接。大多数选择性剪接都为两个和多个转录本所支持。可以通过访问http://www.bioinfor.org查询这些数据。进而通过生物信息学分析剪接边界发现外显子跳跃和内含子保留的‘GT…AG’的规则不如组成型的保守。这暗示了它们是通过不同的调控机制来指导剪接变构体的形成。通过分析内含子保留对蛋白质的影响,发现选择性剪接的蛋白更倾向于改变其C端氨基酸序列。最后对选择性剪接的组织分布和蛋白质定位进行分析,结果表明选择性剪接的最大类的组织分布是根和愈伤组织。超过1/3剪接变构体的蛋白质定位是质膜和细胞质。这些选择性剪接蛋白可能在抗病信号转导中起到重要作用。     

Functional inactivation of the SR family of splicing factors during a vaccinia virus infection

SR proteins are essential splicing factors required for constitutive splicing and function as key regulators of alternative RNA splicing. We have shown that SR proteins purified from late adenovirus-infected cells (SR-Ad) are functionally inactivated as splicing enhancer or splicing repressor proteins by a virus-induced partial de-phosphorylation. Here, we show that SR proteins purified from late vaccinia-virus-infected cells (SR-VV) are also hypo-phosphorylated and functionally inactivated as splicing regulatory proteins. We further show that incubating SR-Ad proteins under conditions that restore the phospho-epitopes to the SR proteins results in the restoration of their activity as splicing enhancer and splicing repressor proteins. Interestingly, re-phosphorylation of SR-VV proteins only partially restored the splicing enhancer or splicing repressor phenotype to the SR proteins. Collectively, our results suggest that viral control of SR protein activity may be a common strategy used by DNA viruses to take control of the host cell RNA splicing machinery.     

小鼠肝脏RNA编辑酶ADAR1 4种剪切体：克隆、表达及功能分析

RNA编辑是DNA转录为RNA后遗传信息发生改变的一种方式.A-to-IRNA编辑酶ADAR1(adenosinedeaminasethatactsonRNA1)具有将pre-mRNA中特定的腺嘌呤核苷转变为次黄嘌呤核苷的功能.通过RT-PCR技术从小鼠肝脏组织中克隆了小鼠A-to-IRNA编辑酶ADAR1的4种剪切体,采用荧光示踪技术研究其在细胞内定位,利用Bac-to-Bac杆状病毒表达系统构建了ADAR1重组杆状病毒并在sf9昆虫细胞内将其进行了表达,最后对表达产物进行了活性鉴定.结果发现,小鼠ADAR1在小鼠肝脏组织中主要以4种剪切方式存在,分别命名为ADAR1-La\Lb和ADAR1-Sa\Sb.这4种ADAR1剪切体在细胞内分布有着明显的区别,ADAR1-La\Lb主要分布于胞浆,而ADAR1-Sa\Sb主要分布于细胞核及核仁.Bac-to-Bac杆状病毒表达系统表达的4种ADAR1剪切体蛋白的双链RNA编辑活性明显不同,提示各个ADAR1剪切体的底物识别和特异性RNA编辑功能可能有所不同.ADAR1剪切体的克隆和表达以及它们在细胞内定位和编辑活性的差异的发现为进一步研究其结构和功能的关系及寻找它们的新底物奠定了基础.     

Exonic splicing enhancer-dependent selection of the bovine papillomavirus type 1 nucleotide 3225 3' splice site can be rescued in a cell lacking splicing factor ASF/SF2 through activation of the phosphatidylinositol 3-kinase/Akt pathway

Bovine papillomavirus type 1 (BPV-1) late pre-mRNAs are spliced in keratinocytes in a differentiation-specific manner: the late leader 5' splice site alternatively splices to a proximal 3' splice site (at nucleotide 3225) to express L2 or to a distal 3' splice site (at nucleotide 3605) to express L1. Two exonic splicing enhancers, each containing two ASF/SF2 (alternative splicing factor/splicing factor 2) binding sites, are located between the two 3' splice sites and have been identified as regulating alternative 3' splice site usage. The present report demonstrates for the first time that ASF/SF2 is required under physiological conditions for the expression of BPV-1 late RNAs and for selection of the proximal 3' splice site for BPV-1 RNA splicing in DT40-ASF cells, a genetically engineered chicken B-cell line that expresses only human ASF/SF2 controlled by a tetracycline-repressible promoter. Depletion of ASF/SF2 from the cells by tetracycline greatly decreased viral RNA expression and RNA splicing at the proximal 3' splice site while increasing use of the distal 3' splice site in the remaining viral RNAs. Activation of cells lacking ASF/SF2 through anti-immunoglobulin M-B-cell receptor cross-linking rescued viral RNA expression and splicing at the proximal 3' splice site and enhanced Akt phosphorylation and expression of the phosphorylated serine/arginine-rich (SR) proteins SRp30s (especially SC35) and SRp40. Treatment with wortmannin, a specific phosphatidylinositol 3-kinase/Akt kinase inhibitor, completely blocked the activation-induced activities. ASF/SF2 thus plays an important role in viral RNA expression and splicing at the proximal 3' splice site, but activation-rescued viral RNA expression and splicing in ASF/SF2-depleted cells is mediated through the phosphatidylinositol 3-kinase/Akt pathway and is associated with the enhanced expression of other SR proteins.