The Lupus autoantigen La is an RNA-binding protein that stabilizes RNA polymerase III (Pol III) transcripts and supports RNA folding and has in addition been implicated in the mammalian microRNA (miRNA) pathway. Here, we have analyzed effects of La depletion on Argonaute (Ago)-bound small RNAs in human cells. We find that in the absence of La, distinct tRNA fragments are loaded into Ago proteins. Thus, La functions as gatekeeper ensuring correct tRNA maturation and protecting the miRNA pathway from potentially functional tRNA fragments. However, one specific isoleucin pre-tRNA produces both a functional tRNA and a miRNA even when La is present. We demonstrate that the fully complementary 5' leader and 3' trailer of the pre-tRNA-Ile form a double-stranded RNA molecule that has low affinity to La. Instead, Exportin-5 (Xpo5) recognizes it as miRNA precursor and transports it into the cytoplasm for Dicer processing and Ago loading.
Age-related macular degeneration (AMD) is the leading cause of severe vision impairment in Western populations over 55 years. A growing number of gene variants have been identified which are strongly associated with an altered risk to develop AMD. Nevertheless, gene-based biomarkers which could be dysregulated at defined stages of AMD may point toward key processes in disease mechanism and thus may support efforts to design novel treatment regimens for this blinding disorder. Circulating microRNAs (cmiRNAs) which are carried by nanosized exosomes or microvesicles in blood plasma or serum, have been recognized as valuable indicators for various age-related diseases. We therefore aimed to elucidate the role of cmiRNAs in AMD by genome-wide miRNA expression profiling and replication analyses in 147 controls and 129 neovascular AMD patients. We identified three microRNAs differentially secreted in neovascular (NV) AMD (hsa-mir-301-3p, pcorrected = 5.6*10−5, hsa-mir-361-5p, pcorrected = 8.0*10−4 and hsa-mir-424-5p, pcorrected = 9.6*10−3). A combined profile of the three miRNAs revealed an area under the curve (AUC) value of 0.727 and was highly associated with NV AMD (p = 1.2*10−8). To evaluate subtype-specificity, an additional 59 AMD cases with pure unilateral or bilateral geographic atrophy (GA) were analyzed for microRNAs hsa-mir-301-3p, hsa-mir-361-5p, and hsa-mir-424-5p. While we found no significant differences between GA AMD and controls neither individually nor for a combined microRNAs profile, hsa-mir-424-5p levels remained significantly higher in GA AMD when compared to NV (pcorrected<0.005). Pathway enrichment analysis on genes predicted to be regulated by microRNAs hsa-mir-301-3p, hsa-mir-361-5p, and hsa-mir-424-5p, suggests canonical TGFβ, mTOR and related pathways to be involved in NV AMD. In addition, knockdown of hsa-mir-361-5p resulted in increased neovascularization in an in vitro angiogenesis assay.
Highlights d LARP7 interacts simultaneously with the U6 snRNA and U6specific C/D box snoRNAs d Depletion of LARP7 results in reduced 2 0 -O-methylation of the U6 snRNA d Changes in alternative splicing are observed in the absence of LARP7 d A LARP7 mutation causes splicing alterations in Alazami syndrome patients
Highlights d LARP7 is required for 2 0 -O-methylation of U6 snRNA in mouse male germ cells d LARP7 promotes U6 2 0 -O-methylation by box C/D snoRNP via facilitating U6 loading d LARP7-primed U6 2 0 -O-methylation is critical for the fidelity of pre-mRNA splicing d LARP7-primed U6 2 0 -O-methylation is critical for mouse male germ cell development
Edited by Wilhelm JustAlthough RNA are synthesized as single-stranded molecules, most of them are characterized by extensive secondary structures. Two RNA that require distinct folding for biogenesis and function are miRNA and tRNA. While miRNA are processed from hairpin-containing precursors, tRNA are folded into characteristic L-shaped structures. In addition, tRNA and their precursors are a rich source of RNA fragments. Recent findings suggest that their production might be determined by structural characteristics of the tRNA substrates. Importantly, correct folding of pre-tRNA is assisted by the Lupus autoantigen La, an RNA chaperone. In this context, La interacts with pre-tRNA to prevent alternative foldings leading to mis-channeling into the miRNA pathway. Thus, RNA chaperones also function as gatekeepers for correct RNA pathway selection.Keywords: Lupus autoantigen La; miRNA; RNA chaperone; tRNA fragments RNA molecules are characterized by secondary structures that are important for their individual functions. Such structures can be restricted to short sequence stretches or can involve distant regions of large RNA molecules as known for the complex folding of rRNA, for example [1]. Shorter RNA, such as tRNA, small nuclear RNA (snRNA), or small nucleolar RNA (snoRNA), often adopt specific structures providing RNA-or protein-binding platforms or scaffolds for ribonucleoprotein particle (RNP) formation. Other RNA including miRNA or short interfering RNA (siRNA) use distinct folding strategies of precursor molecules, which allow efficient processing to their mature and functional forms [2]. Therefore, adopting the correct structure is vital for any RNA molecule and processes have evolved that support RNA folding and the stability of RNA structures [3]. Biogenesis of tRNAOne class of RNA that requires a very specific folding to fulfill its functions is tRNA. In addition, tRNA are highly modified at various nucleotides and these alterations can also dramatically affect the secondary structure (reviewed in [4]). In eukaryotes, tRNA are transcribed by RNA polymerase III (pol III) as precursor molecules that contain a 5 0 extension and a 3 0 trailer terminating with a stretch of U residues. The 5 0 extension (often referred to as 5 0 leader) is removed by RNase P. The human RNase P is a RNP complex composed of 10 protein subunits and the noncoding RNA H1 (or RPPH1) [5], which is transcribed by pol III as well. RNA H1 is the catalytic subunit and therefore RNase P was among the first ribozymes that has been discovered [6].The canonical processing of the 3 0 end of pre-tRNA requires the endonucleolytic cleavage activity of a Abbreviations ANG, angiogenin; LARP, La-related protein; RBP, RNA-binding protein; RISC, RNA-induced silencing complex; RNP, ribonucleoprotein particle; siRNA, short interfering RNA; snoRNA, small nucleolar RNA; snRNA, small nuclear RNA; tRF, tRNA fragment; TSEN, tRNA-splicing endonuclease.
Inhibition of host cell apoptosis is crucial for survival and replication of several intracellular bacterial pathogens. To interfere with apoptotic pathways, some pathogens use specialized secretion systems to inject bacterial effector proteins into the host cell cytosol. One of these pathogens is the obligate intracellular bacterium Coxiella burnetii, the etiological agent of the zoonotic disease Q fever. In this study, we analyzed the molecular activity of the anti-apoptotic T4SS effector protein AnkG (CBU0781) to understand how C. burnetii manipulates host cell viability. We demonstrate by co- and RNA-immunoprecipitation that AnkG binds to the host cell DExD box RNA helicase 21 (DDX21) as well as to the host cell 7SK small nuclear ribonucleoprotein (7SK snRNP) complex, an important regulator of the positive transcription elongation factor b (P-TEFb). The co-immunoprecipitation of AnkG with DDX21 is probably mediated by salt bridges and is independent of AnkG-7SK snRNP binding, and vice versa. It is known that DDX21 facilitates the release of P-TEFb from the 7SK snRNP complex. Consistent with the documented function of released P-TEFb in RNA Pol II pause release, RNA sequencing experiments confirmed AnkG-mediated transcriptional reprogramming and showed that expression of genes involved in apoptosis, trafficking, and transcription are influenced by AnkG. Importantly, DDX21 and P-TEFb are both essential for AnkG-mediated inhibition of host cell apoptosis, emphasizing the significance of the interaction of AnkG with both, the DDX21 protein and the 7SK RNA. In line with a critical function of AnkG in pathogenesis, the AnkG deletion C. burnetii strain was severely affected in its ability to inhibit host cell apoptosis and to generate a replicative C. burnetii-containing vacuole. In conclusion, the interference with the activity of regulatory host cell RNAs mediated by a bacterial effector protein represent a novel mechanism through which C. burnetii modulates host cell transcription, thereby enhancing permissiveness to bacterial infection.
The oncogenic Epstein-Barr virus (EBV) expresses 44 mature microRNAs and two non-coding EBER RNAs of 167 (EBER1) and 172 (EBER2) nt length. MiRNA profiling of NK/T cell lines and primary cells and Northern blotting of EBV-infected cell lines and primary tumors revealed processing of EBER1 to short 5′-derived RNAs of approximately 23, 52 and 70 nt (EBER123, EBER152, and EBER170) and of EBER2 to 3′ fragments. The biogenesis of these species is independent of Dicer, and EBER123 does not act like a miRNA to target its complementary sequence. EBER1, EBER2 and EBER123 were bound by the lupus antigen (La), a nuclear and cytoplasmic protein that facilitates RNAi. Consistent with this, the EBERs affect regulation of interleukin 1alpha (IL1α) and RAC1 reporters harboring miR target sequences, targets of miR-142-3p. However, the EBERs have no effect upon another target of miR-142-3p, ADCY9, nor on TOMM22, a target of ebv-miR-BART16, indicative of selective modulation of gene expression by the EBERs.
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