Alternative splicing of the Drosophila Dscam pre-mRNA is both temporally and spatially regulated

The Drosophila melanogaster Down syndrome cell adhesion molecule (Dscam) gene encodes an axon guidance receptor that can express 38,016 different mRNAs by virtue of alternative splicing. The Dscam gene contains 95 alternative exons that are organized into four clusters of 12, 48, 33, and 2 exons each. Although numerous Dscam mRNA isoforms can be synthesized, it remains to be determined whether different Dscam isoforms are synthesized at different times in development or in different tissues. We have investigated the alternative splicing of the Dscam exon 4 cluster, which contains 12 mutually exclusive alternative exons, and found that Dscam exon 4 alternative splicing is developmentally regulated. The most highly regulated exon, 4.2, is infrequently used in early embryos but is the predominant exon 4 variant used in adults. Moreover, the developmental regulation of exon 4.2 alternative splicing is conserved in D. yakuba. In addition, different adult tissues express distinct collections of Dscam mRNA isoforms. Given the role of Dscam in neural development, these results suggest that the regulation of alternative splicing plays an important role in determining the specificity of neuronal wiring. In addition, this work provides a framework to determine the mechanisms by which complex alternative splicing events are regulated.     

Alternative splicing in ascomycetes

Alternative splicing is a complex and regulated process, which results in mRNA with different coding capacities from a single gene. Extend and types of alternative splicing vary greatly among eukaryotes. In this review, I focus on alternative splicing in ascomycetes, which in general have significant lower extend of alternative splicing than mammals. Yeast-like species have low numbers of introns and consequently alternative splicing is lower compared to filamentous fungi. Several examples from single studies as well as from genomic scale analysis are presented, including a survey of alternative splicing in Neurospora crassa. Another focus is regulation by riboswitch RNA and alternative splicing in a heterologous system, along with putative protein factors involved in regulation.     

植物基因选择性剪接:断舍离合,达权知变

选择性剪接是基因转录后的mRNA通过不同的剪接方式产生多样性成熟转录本的过程,是真核生物细胞中一种重要的转录后调控方式。植物基因也常通过这种断舍离合的方式产生一专多能的转录本,达到调节多种生命活动的目的。相较于动物,植物中该领域的研究起步较晚,但近年来也取得了长足的进步。该文综述了植物基因选择性剪接的生物学意义、剪接方式和机制、研究方法以及在生长发育与环境胁迫适应性调节中的作用,并展望了未来的研究方向。     

A novel polypyrimidine tract-binding protein paralog expressed in smooth muscle cells

Polypyrimidine tract-binding protein (PTB) is an abundant widespread RNA-binding protein with roles in regulation of pre-mRNA alternative splicing and 3'-end processing, internal ribosomal entry site-driven translation, and mRNA localization. Tissue-restricted paralogs of PTB have previously been reported in neuronal and hematopoietic cells. These proteins are thought to replace many general functions of PTB, but to have some distinct activities, e.g. in the tissue-specific regulation of some alternative splicing events. We report the identification and characterization of a fourth rodent PTB paralog (smPTB) that is expressed at high levels in a number of smooth muscle tissues. Recombinant smPTB localized to the nucleus, bound to RNA, and was able to regulate alternative splicing. We suggest that replacement of PTB by smPTB might be important in controlling some pre-mRNA alternative splicing events.     

Alternative splicing in the testes

Germ-cell differentiation is an ideal process for studying the effects of alternative splicing and there are examples of alternative splicing of genes involved in gene regulation and signal transduction at every stage of the spermatogenic pathway. A network of testes-specific splicing factor interactions has been uncovered and combining our knowledge of these RNAs and proteins should lead to an understanding of the regulation of alternative splicing and male fertility.     

Pre-mRNA选择性剪接的调控及选择性剪接数据库

Pre-mRNA选择性剪接是真核生物转录组和蛋白质组多样性的主要来源,也是细胞分化、发育等过程中重要的基因表达调控方式。约95%的人类多外显子基因存在RNA选择性剪接|很多人类基因疾病的发生与RNA剪接错误相关。随着共转录现象的发现,RNA选择性剪接调控机制研究也取得了很大进展。本文分别从序列层面和核小体定位、组蛋白修饰、DNA甲基化及非编码RNA等表观遗传层面,系统地阐述了RNA选择性剪接的调控机制。为便于搜索,本文介绍了近10年来RNA选择性剪接相关的数据库。     

转录辅调节因子在剪接过程中的作用

细胞通过基因表达调控来应对外界刺激,其中对基因转录起始和pre-mRNA剪接的调控是基因表达调控的重要环节。越来越多的实验显示基因转录和pre-mRNA剪接这两个过程在时空上密切相关。基因转录能调节剪接模式的选择性,反之剪接过程也影响基因转录。近年来研究发现转录辅调节因子在联系转录和剪接过程中扮演着重要角色。转录辅调节因子对基因表达的调控不仅在于影响转录产物的量,还可以调控pre-mRNA的选择性剪接并产生不同的剪接体,从而翻译出具有不同生物学功能的蛋白质。本文主要阐述了基因转录与剪接之间的关系以及它们之间相互作用的机制,有利于更深入理解基因表达调控的过程。     

Mammary epithelial-mesenchymal interaction regulates fibronectin alternative splicing via phosphatidylinositol 3-kinase

The way alternative splicing is regulated within tissues is not understood. A relevant model of this process is provided by fibronectin, an important extracellular matrix protein that plays a key role in cell adhesion and migration and contains three alternatively spliced regions known as EDI, EDII, and IIICS. We used a cell culture system to simulate mammary epithelial-stromal communication, a process that is crucial for patterning and function of the mammary gland, and studied the effects of extracellular signals on the regulation of fibronectin pre-mRNA alternative splicing. We found that soluble factors from a mammary mesenchymal cell-conditioned medium, as well as the growth factors HGF/SF (hepatocyte growth factor/scatter factor), KGF (keratinocyte growth factor), and aFGF (acidic fibroblast growth factor), stimulate EDI and IIICS but not EDII inclusion into fibronectin mRNA in the mammary epithelial cell line SCp2, favoring fibronectin isoforms associated with proliferation, migration, and tissue remodeling. We explored the signaling pathways involved in this regulation and found that the mammary mesenchymal cell-conditioned medium and HGF/SF act through a phosphatidylinositol 3-kinase-dependent cascade to alter fibronectin alternative splicing. This splicing regulation is independent from promoter structure and de novo protein synthesis but does require two exonic elements within EDI. These results shed light on how extracellular stimuli are converted into changes in splicing patterns.     

Heterogeneous ribonucleoprotein m is a splicing regulatory protein that can enhance or silence splicing of alternatively spliced exons

Splicing of fibroblast growth factor receptor 2 (FGFR2) alternative exons IIIb and IIIc is regulated by the auxiliary RNA cis-element ISE/ISS-3 that promotes splicing of exon IIIb and silencing of exon IIIc. Using RNA affinity chromatography, we have identified heterogeneous nuclear ribonucleoprotein M (hnRNP M) as a splicing regulatory factor that binds to ISE/ISS-3 in a sequence-specific manner. Overexpression of hnRNP M promoted exon IIIc skipping in a cell line that normally includes it, and association of hnRNP M with ISE/ISS-3 was shown to contribute to this splicing regulatory function. Thus hnRNP M, along with other members of the hnRNP family of RNA-binding proteins, plays a combinatorial role in regulation of FGFR2 alternative splicing. We also determined that hnRNP M can affect the splicing of several other alternatively spliced exons. This activity of hnRNP M included the ability not only to induce exon skipping but also to promote exon inclusion. This is the first report demonstrating a role for this abundant hnRNP family member in alternative splicing in mammals and suggests that this protein may broadly contribute to the fidelity of splice site recognition and alternative splicing regulation.