Project description:The nuclear phase of the gene expression pathway culminates in the export of mature mRNAs to the cytoplasm through nuclear pore complexes (NPCs). GANP (Germinal-centre Associated Nuclear Protein) promotes the transfer to NPCs of mRNAs bound to the transport factor NXF1. Here, we demonstrate that GANP, subunit of the TREX-2 mRNA export complex, promotes selective nuclear export of a specific subset of mRNAs whose transport depends on NXF1. Genome-wide gene expression profiling showed that half of the transcripts whose nuclear export was impaired following NXF1 depletion also showed reduced export when GANP was depleted. GANP-dependent transcripts were highly expressed, yet short-lived, and were highly enriched in those encoding central components of the gene expression machinery such as RNA synthesis and processing factors. After injection into Xenopus oocyte nuclei, representative GANP-dependent transcripts showed faster nuclear export kinetics than representative transcripts that were not influenced by GANP depletion. We propose that GANP promotes the nuclear export of specific classes of mRNAs that may facilitate rapid changes in gene expression. We used gene expression profiling to compare the abundance of cytoplasmic RNAs after GANP or NXF1 depletion

Project description:The nuclear phase of the gene expression pathway culminates in the export of mature mRNAs to the cytoplasm through nuclear pore complexes (NPCs). GANP (Germinal-centre Associated Nuclear Protein) promotes the transfer to NPCs of mRNAs bound to the transport factor NXF1. Here, we demonstrate that GANP, subunit of the TREX-2 mRNA export complex, promotes selective nuclear export of a specific subset of mRNAs whose transport depends on NXF1. Genome-wide gene expression profiling showed that half of the transcripts whose nuclear export was impaired following NXF1 depletion also showed reduced export when GANP was depleted. GANP-dependent transcripts were highly expressed, yet short-lived, and were highly enriched in those encoding central components of the gene expression machinery such as RNA synthesis and processing factors. After injection into Xenopus oocyte nuclei, representative GANP-dependent transcripts showed faster nuclear export kinetics than representative transcripts that were not influenced by GANP depletion. We propose that GANP promotes the nuclear export of specific classes of mRNAs that may facilitate rapid changes in gene expression.

Project description:The conserved THO/TREX complex is critical for pre-mRNA processing and mRNA nuclear export. In Metazoa, TREX is loaded on nascent RNA transcribed by RNA polymerase II in a splicing-dependent fashion; however, how TREX functions is poorly understood. Here we show that Thoc5 and other TREX components are essential for the biogenesis of piRNA, a distinct class of small non-coding RNAs that control expression of transposable elements (TE) in the Drosophila germline. Mutations in TREX lead to defects in piRNA biogenesis resulting in derepression of multiple TE families, gametogenesis defects, and sterility. TREX components are enriched on piRNA precursors transcribed from dual-strand piRNA clusters and co-localize in distinct nuclear foci that overlap with sites of piRNA transcription. The localization of TREX in nuclear foci and its loading on piRNA precursor transcripts depends on Cutoff, a protein associated with chromatin of piRNA clusters. Finally, we show that TREX is required for accumulation of nascent piRNA precursors. Our study reveals a novel splicing-independent mechanism for TREX loading on nascent RNA and its importance in piRNA biogenesis.

Project description:Alternative polyadenylation (APA) produces mRNA isoforms with different 3’UTR lengths. Previous studied indicated that 3’ end processing and mRNA nuclear export are intertwined in gene regulation. Here, we show that mRNA export factors generally facilitate usage of distal cleavage and polyadenylation sites (PASs), leading to expression of long 3’UTR isoforms. By focusing on the export receptor NXF1, which exhibits the most potent effect on APA in this study, we reveal a number of gene features that impact NXF1-dependent APA, including 3’UTR size, gene size and AT content. Surprisingly, downregulation of NXF1 results in accumulation of RNAP II at the 3’ end of genes, correlating with its role in APA regulation. Moreover, we show that NXF1 cooperates with CFI-68 to facilitate nuclear export of long 3’UTR isoform with UGUA motifs. Together, our work reveals several important roles of NXF1 in coordinating RNAPII distribution, 3’ end processing, and mRNA export of long 3’UTR transcripts, implicating NXF1 as the nexus of gene expression regulation.

Project description:Unlike in metazoans, the stepwise biogenesis of microRNAs (miRNAs) occurs within the nucleus in plants. Whether or how the major steps in miRNA biogenesis are coordinated is largely unknown. Here, we show that the plant TREX-2 complex promotes multiple steps in miRNA biogenesis, including transcription, processing and nuclear export. Core subunits of TREX-2, THP1 and SAC3A, interact and co-localize with RNA Polymerase II to promote the transcription of MIR genes in the nucleoplasm. TREX-2 interacts with the microprocessor component SERRATE and promotes the formation of Dicing bodies in the nucleoplasm. THP1 also interacts and co-localizes with a nucleoporin protein NUP1 at the nuclear envelope. NUP1 and THP1 promote the nuclear export of miRNAs and AGO1. These results suggest that TREX-2 coordinates the transcription, processing and export steps in miRNA biogenesis to ensure efficient miRNA production.

Project description:Unlike in metazoans, the stepwise biogenesis of microRNAs (miRNAs) occurs within the nucleus in plants. Whether or how the major steps in miRNA biogenesis are coordinated is largely unknown. Here, we show that the plant TREX-2 complex promotes multiple steps in miRNA biogenesis, including transcription, processing and nuclear export. Core subunits of TREX-2, THP1 and SAC3A, interact and co-localize with RNA Polymerase II to promote the transcription of MIR genes in the nucleoplasm. TREX-2 interacts with the microprocessor component SERRATE and promotes the formation of Dicing bodies in the nucleoplasm. THP1 also interacts and co-localizes with a nucleoporin protein NUP1 at the nuclear envelope. NUP1 and THP1 promote the nuclear export of miRNAs and AGO1. These results suggest that TREX-2 coordinates the transcription, processing and export steps in miRNA biogenesis to ensure efficient miRNA production.

Project description:Through deep RNA-seq of human monocyte-derived macrophages, we identified RP11-184M15.1, a human macrophage-specific lincRNA, to be highly induced in the cytoplasm of IL-4-stimulated macrophage. Preliminary data showed that treatment of IL-4-stimulated THP1 human macrophages with RP11-184M15.1 small interfering RNA (siRNA) repressed apoptosis of resolving macrophages, as shown by decreased Annexin V+ macrophages, and reduced protein expression of cleaved PARP. Biotinylated RP11-184M15.1 pulldown coupled with mass spectrometry indicated an interaction between RP11-184M15.1 and zinc finger RNA-binding protein (ZFR). RIP corroborated the proposed interaction between RP11-184M15.1 and ZFR. RNAInter revealed mRNAs predicted to interact with ZFR, and some of those genes (e.g., ALYREF, CCNYL1) were also differentially expressed in RNA-seq data of control versus RP11-184M15.1 knockdown in IL-4-stimulated THP1 macrophages. qPCR validated that ALYREF and CCNYL1 expression are reduced with RP11-184M15.1 knockdown. In contrast, with ZFR siRNA, ALYREF and CCNYL1 mRNA expressions were elevated. Thus, a hypothesis to be further tested is that RP11-184M15.1 interacts with ZFR to regulate mRNA stability in IL-4-stimulated macrophages. Nuclear RNA export factor 1 (NXF1) was also validated by RIP to interact with RP11-184M15.1. NXF1 is a known interacting partner of ALYREF in the transcription-export (TREX) complex. With RP11-184M15.1 knockdown, the protein level of ALYREF decreased, and Ingenuity Pathway Analysis (IPA) of RNA-seq data of control versus RP11-184M15.1 knockdown revealed that THO complex subunit 5 homolog (THOC5), another component of the TREX complex, may be an upstream regulator. In addition, past studies have revealed that ALYREF and NXF1 are involved in nuclear export of inflammatory mRNAs and proinflammatory macrophage phenotype, respectively. With RP11-184M15.1 knockdown, there was decreased expression of inflammatory macrophage-associated genes. It may be possible that RP11-184M15.1 functions in mRNA export, along with NXF1 and ALYREF.

Project description:The conserved mRNA nuclear export receptor NXF1 (Mex67 in yeast) assembles with messenger ribonucleoproteins (mRNP) in the nucleus and guides them through the nuclear pore complex (NPC) into the cytoplasm. The DEAD-box RNA helicase Dbp5 is essential for nuclear export of mRNA and is thought to dissociate Mex67 from mRNP upon translocation, thereby generating directional passage. However, the molecular mechanism by which Dbp5 recognizes Mex67-containing mRNP is not clear. Here we report that the human NXF1-binding protein RBM15 binds to DBP5 specifically and enables its direct contact with mRNA. We found that RBM15 is enriched at the nuclear envelope and colocalizes with DBP5 at the NPC. Knockout of RBM15’s orthologue in mouse (Ott1) leads to global changes in mRNA expression and excessive mRNA accumulation in the cytoplasm, indicating an essential role of RBM15 in mRNA export regulation. We propose that RBM15 acts locally at the NPC, by transiently bridging the NXF1-mRNP complexes to DBP5, thereby contributing to the substrate specificity of mRNA export.

Project description:Mutations in Matrin 3 have recently been linked to ALS, though the mechanism of disease in these patients is still unknown. To define the protein interactome of wild-type and ALS-linked MATR3 mutations, we performed immunoprecipitation followed by mass spectrometry experiments in NSC-34 cells expressing human wild-type or mutant Matrin 3. Gene ontology analysis identified a novel role for Matrin in mRNA transport centered around proteins in the TRanscription and EXport (TREX) complex, known to function in mRNA biogenesis and nuclear export. ALS-linked mutations in Matrin 3 led to its re-distribution within the nucleus, decreased co-localization with endogenous Matrin 3 and increased co-localization with TREX components. Expression of disease-causing Matrin 3 mutations led to nuclear mRNA export defects of both global mRNA and the mRNA of ALS linked proteins TDP-43 and FUS. Our findings demonstrate the first pathogenic mechanism attributable to MATR3 mutations and further link cellular transport defects to ALS.

Project description:PIWI-interacting RNAs (piRNAs) guide transposon silencing in animals. The 22-30nt piRNAs are processed in the cytoplasm from long non-coding RNAs. How piRNA precursors, which often lack RNA processing hallmarks of export-competent transcripts, achieve nuclear export is unknown. Here, we uncover the RNA export pathway specific for piRNA precursors in the Drosophila germline. This pathway requires Nxf3-Nxt1, a variant of the hetero-dimeric mRNA export receptor Nxf1-Nxt1. Nxf3 interacts with UAP56, a nuclear RNA helicase essential for mRNA export, and CG13741/Bootlegger, which recruits Nxf3-Nxt1 and UAP56 to heterochromatic piRNA source loci. Upon RNA cargo binding, Nxf3 achieves nuclear export via the exportin Crm1, and accumulates together with Bootlegger in peri-nuclear nuage, suggesting that after export, Nxf3-Bootlegger delivers precursor transcripts to the piRNA processing sites. Our findings indicate that the piRNA pathway bypasses nuclear RNA surveillance systems to achieve export of heterochromatic, unprocessed transcripts to the cytoplasm, a strategy also exploited by retroviruses.