Regulation of SRp20 exon 4 splicing

SR proteins are essential splicing factors involved in the use of both constitutive and alternative exons. We previously showed that the SR proteins SRp20 and ASF/SF2 have antagonistic activities on SRp20 pre-mRNA splicing. SRp20 activates exon 4 recognition in its pre-mRNA, whereas ASF/SF2 inhibits this recognition. In experiments aimed at testing the specificity of SRp20 and ASF/SF2 for exon 4 splicing regulation, we show here that this specificity lies in the RNA binding domains of SRp20 and ASF/SF2 and not in the RS domains. Surprisingly, a deletion of 14 amino acids at the end of ASF/SF2-RBD2 converts ASF/SF2 from an inhibitor to an activator of exon 4 splicing. We found that ASF3 also inhibits exon 4 recognition, thus acting similarly to ASF/SF2, while SC35 activates a cryptic 5' splice site downstream of exon 3 and, in doing so, represses exon 4 use. In contrast, Tra2 and the SR proteins 9G8 and SRp40 do not appear to affect exon 4 splicing.     

Molecular Mechanisms for CFIm-Mediated Regulation of mRNA Alternative Polyadenylation

1. Download high-res image (211KB)
2. Download full-size image

     

Protein-RNA interactions in 20S U5 snRNPs.

The interaction of the U5-specific polypeptides with U5 snRNA was investigated by comparison of the differential accessibility towards nucleases and dimethylsulfate of defined regions of U5 snRNA in purified 20S and 10S U5 snRNPs. While 20S U5 snRNPs contain eight U5-specific proteins in addition to the common proteins, the 10S U5 snRNPs contain only the latter proteins. The results indicate that only the central part of stem/loop I of U5 snRNA including internal loops IL2 and IL2', contains binding sites for U5-specific proteins, suggesting that several U5-specific proteins may be bound to U5 snRNP via protein-protein interactions. Moreover, they show that the core polypeptides do not interact with stem/loop I.     

In vitro assembly of U1 snRNPs.

An efficient system for the in vitro assembly of U1 snRNPs is described. RNA-protein interactions in a series of U1 snRNA mutants assembled both in vivo and in vitro were studied in order to verify the accuracy of the system. Two discrete protein binding sites are defined by immunoprecipitation with antibodies against different protein components of the U1 snRNP and a newly developed protein sequestering assay. The U1 snRNP-specific proteins 70K and A require only the 5'-most stem-loop structure of U1 snRNA for binding, the common U snRNP proteins require the conserved Sm binding site (AUnG). Interactions between these two groups of proteins are detected. These results are combined to derive a model of the U1 snRNP structure. The potential use of the in vitro system in the functional analysis of U1 snRNP proteins is discussed.     

A monoclonal antibody specific for snRNPs U1 and U2

A monoclonal antibody (D-5) is described which selectively precipitates snRNPs U1 and U2. The antibody was derived from a mouse immunized with extracts from chick embryonic nuclei. By immunoblotting on either total proteins from purified snRNPs U1-U6, U2-U6 or U1 only, we could demonstrate that the monoclonal antibody cross-reacts with the U1 RNP specific polypeptide A and the U2 RNP specific polypeptide B", thereby establishing that the two snRNP proteins share at least one epitope. D-5 precipitates snRNPs U1 and U2 from a variety of species, including man, chicken, mouse, rat kangaroo and Xenopus laevis. It will thus be a useful tool for studying structure function relationships of the two snRNP species in different cell systems.     

Differential MicroRNA Regulation Correlates with Alternative Polyadenylation Pattern between Breast Cancer and Normal Cells

Alternative polyadenylation (APA) could result in mRNA isoforms with variable lengths of 3′ UTRs. Gain of microRNA target sites in the 3′ UTR of a long mRNA isoform may cause different regulation from the corresponding short isoform. It has been known that cancer cells globally exhibit a lower ratio of long and short isoforms (LSR); that is, they tend to express larger amounts of short isoforms. The objective of this study is to illustrate the relationship between microRNA differential regulation and LSR. We retrieved public APA annotations and isoform expression profiles of breast cancer and normal cells from a high-throughput sequencing method study specific for the mRNA 3′ end. Combining microRNA expression profiles, we performed statistical analysis to reveal and estimate microRNA regulation on APA patterns in a global scale. First, we found that the amount of microRNA target sites in the alternative UTR (aUTR), the region only present in long isoforms, could affect the LSR of the target genes. Second, we observed that the genes whose aUTRs were targeted by up-regulated microRNAs in cancer cells had an overall lower LSR. Furthermore, the target sites of up-regulated microRNAs tended to appear in aUTRs. Finally, we demonstrated that the amount of target sites for up-regulated microRNAs in aUTRs correlated with the LSR change between cancer and normal cells. The results indicate that up-regulation of microRNAs might cause lower LSRs of target genes in cancer cells through degradation of their long isoforms. Our findings provide evidence of how microRNAs might play a crucial role in APA pattern shifts from normal to cancerous or proliferative states.     

Regulation of OsmiR156h through Alternative Polyadenylation Improves Grain Yield in Rice

Substantial increases in grain yield of cereal crops are required to feed a growing human population. Here we show that a natural variant of SEMIDWARF AND HIGH-TILLERING (SDT) increases harvest index and grain productivity in rice. Gain-of-function sdt mutation has a shortened polyadenylation tail on the OsmiR156h microRNA precursor, which cause the up-regulation of OsmiR156h. The plants carrying the semidominant sdt allele exhibit reduced plant height, enhanced lodging resistance, increased tiller numbers per plant, and resulting in an increased grain yield. We also show that combining the sdt allele with the OsSPL14^WFP allele can be effective in simultaneously improving tillering capacity and panicle branching, thereby leading to higher harvest index and grain yield. Most importantly, pyramiding of the sdt allele and the green revolution gene sd1 enhances grain yield by about 20% in hybrid rice breeding. Our results suggest that the manipulation of the polyadenylation status of OsmiR156 represents a novel strategy for improving the yield potential of rice over what is currently achievable.     

前体mRNA的选择性多聚腺苷酸化与人类疾病

真核细胞的前体mRNA必须经过复杂的加工过程才能成熟,包括5’端加帽、剪接和3’端加工,其中3’加工包括3’端的切割和多聚腺苷酸化.该过程由前体mRNA上的顺式作用元件以及多个蛋白质因子控制.组成哺乳动物前体mRNA3’端加工机器的核心蛋白质复合体有切割和多聚腺苷酸化特异性因子、切割刺激因子、切割因子Ⅰ和切割因子Ⅱ.其他因子包括poly(A)聚合酶、poly(A)结合蛋白、偶对蛋白(symplekin)等.哺乳动物基因通常含有多个ploy(A)位点,选择性多聚腺苷酸化不仅可产生具有不同长度3’UTR的mRNA异构体,还可能改变基因的CDS区.作为真核生物基因表达调控的关键机制,选择性多聚腺苷酸化在细胞生长、增殖和分化中起着重要作用.本文综述了哺乳动物前体mRNA的3’端加工过程,3’端加工机器的组成及功能,探讨了选择性多聚腺苷酸化在多种人类疾病中的作用机制,以期为读者带来一些新的见解.     

In vitro reconstitution of U1 and U2 snRNPs from isolated proteins and snRNA

In this paper we describe a method for preparing native, RNA-free, proteins from anti-m₃G purified snRNPs (U1, U2, U4/U6 and U5) and the subsequent quantitative reconstitution of U1 and U2 snRNPs from purified proteins and snRNA. Reconstituted U1 and U2 snRNPs contained the full complement of core proteins, B, B, D1, D2, D3, E, F and G. Both the U1 and U2 reconstituted particles were stable in CsCl gradients and had the expected buoyant density of 1.4 g/cm³. Reconstituted RNP particle formation was not competited by a 50 fold molar excess of tRNA, as determined by gel retardation assays. However, U1 and U2 particle formation was reduced in the presence of an excess of cold U1 or U2 snRNA demonstrating a specific RNA-protein interaction. U1 and U2 snRNPs were also efficiently reconstituted in vitro, utilizing proteins prepared from mono Q purified U1 and U2 snRNPs. This suggests that for the assembly of snRNPs in vitro no auxiliary proteins other than bona fide snRNP proteins appear to be required. The potential of this reconstitution technique for investigating snRNP assembly and snRNA-protein interactions is discussed.Abbreviations PEG Polyethelene glycol - PMSF Phenylmethyl sulfonylfluoride - TP total proteins - mAb monoclonal antibody     

Crosslinking of hnRNP proteins to pre-mRNA requires U1 and U2 snRNPs.

Proteins interacting with pre-mRNAs during early stages of spliceosome formation in a HeLa nuclear extract were investigated by photochemical RNA-protein crosslinking. The level of protein crosslinking to a beta-globin pre-mRNA was positively correlated with the presence of an intron. Proteins of 110,000, 59,000 and 39,000 mol. wt. were crosslinked to the beta-globin pre-mRNA, the latter of which was identified as the A1 hnRNP protein. Comparable experiments with an adenovirus pre-mRNA revealed crosslinked proteins of 110,000, 56,000 and 45,000 mol. wt., with the latter identified as belonging to the C group hnRNP proteins. Crosslinking of hnRNP proteins to both the beta-globin and adenovirus pre-mRNAs was eliminated by oligodeoxynucleotide-directed RNase H excision of an internal region (nt 28-42) of U2 RNA, but was not affected by oligo/RNase H cleavage of the 5'-terminal 15 nucleotides of U2 RNA. Cleavage of the 5'-terminal 15 nucleotides of U1 RNA preferentially eliminated crosslinking of the hnRNP A1 protein to both pre-mRNAs. The requirement of intact U1 snRNP for A1 protein crosslinking was further demonstrated by the fact that although micrococcal nuclease-treated extracts did not support crosslinking of A1 hnRNP protein to beta-globin pre-mRNA, crosslinking was restored by addition of a U1 snRNP-enriched fraction.     

Pre-mRNA splicing by complementation with purified human U1, U2, U4/U6 and U5 snRNPs.

The four major nucleoplasmic small nuclear ribonucleoprotein particles U1, U2, U4/U6 and U5 can be extensively purified from HeLa cells by immunoaffinity chromatography using a monoclonal anti-trimethylguanosine antibody. The snRNP particles in active splicing extracts are selectively bound to the immunoaffinity matrix, and are then gently eluted by competition with an excess of free nucleoside. Biochemical complementation studies show that the purified snRNPs are active in pre-mRNA splicing, but only in the presence of additional non-snRNP protein factors. All the RNPs that are necessary for splicing can be purified in this manner. The active snRNPs are characterized with respect to their polypeptide composition, and shown to be distinct from several other activities implicated in splicing.     

TPA对Bcl-X前体mRNA在U251细胞中选择性剪接调控的初步研究

以含有部分Bcl-X序列的微小基因为研究模型,研究了TPA对Bcl-X前体mRNA选择性剪接在体内和体外的调控作用。通过RT-PCR和定点突变实验检测,结果表明PKC信号系统能调控Bcl-X前体mRNA选择性剪接,其机制可能是通过应答序列来调控Bcl-X前体mRNA5’上游和下游剪接位点的选择利用。     

Transcriptional Pause Sites Delineate Stable Nucleosome-Associated Premature Polyadenylation Suppressed by U1 snRNP

1. Download high-res image (216KB)
2. Download full-size image

     

SRp38基因在小鼠视网膜细胞中的表达以及对GluR-B小基因可变剪接的调控

SR蛋白在前体mRNA可变剪接调控中发挥重要作用.SRp38作为一种新近发现的具有神经及生殖组织特异性的SR蛋白,能够调控一些在神经组织中起重要作用的基因(如GluR-B,Trk-C,NCAML1等)的前体mRNA可变剪接,同时还可以在有丝分裂M期及热休克时抑制前体mRNA剪接的发生.利用Western blot以及免疫组织化学方法研究了SRp38蛋白在小鼠视网膜中的表达以及分布情况,结果显示,SRp38蛋白在视网膜中的表达具有区域特异性,在外网层、内核层、内网层以及节细胞层中均有表达,而在外核层无表达.对分离培养的小鼠视网膜细胞进行免疫双标记分析的结果表明,SRp38蛋白在视杆-双极细胞的胞体、轴突、树突中表达.通过瞬时共转染以及RT_PCR分析,发现在R28细胞中,SRp38过表达可以促进GluR-B小基囚Flip亚型的剪接.结果提示SRp38蛋白可能通过调控小鼠视网膜内前体mRNA可变剪接、进而在小鼠视网膜功能中发挥重要作用.