Project description:The SMA disease results from deletions or mutations in the “survival of motor neuron” (SMN1) gene. The SMN protein plays an essential role in the biogenesis of spliceosomal snRNPs but the link between a defect in this process and specific splicing inhibition is not known. Here, we report the construction of a temperature degron (td) allele of the S. pombe SMN protein and show that its depletion at 37°C affects snRNPs stability and splicing. In addition, the function of the tdSMN allele in snRNPs assembly is affected already at 25°C suggesting a deleterious effect of the tag at this temperature. Remarkably, using S. pombe tiling arrays and RT-PCR validation tests, we report that splicing is altered differentially in the tdSMN cells at permissive temperature. Our results suggest that the defects observed in tdSMN fission yeast cells mimic splicing deficits observed in SMN-deficient metazoan cells.

Project description:Our study identified an atypical form of muscular dystrophy in patients with a germline deficiency of SNURPORTIN-1 (SPN1), a key adaptor protein for the nuclear import of spliceosomal small nuclear ribonucleoproteins (snRNPs). Through transcriptomic analysis of primary dermal fibroblast mutants compared to control lines, we discovered dysregulation in splicing and mRNA expression, providing valuable insights into the molecular mechanisms underlying the pathogenesis of SPN1.

Project description:Spinal muscular atrophy (SMA) genes SMN1/SMN2 produce multiplecircular RNAs (circRNAs), including C2A-2B-3-4that encompassesearly exons 2A, 2B, 3 and 4. Here we report the transcriptome-and proteome-wide effects of overexpression of C2A-2B-3-4 in inducible HEK293 cells. Our RNA-Seq analysisrevealedaltered expression of ~15% genes (4,172 genes) by C2A-2B-3-4. About half of the affected genes by C2A-2B-3-4 remained unaffected by L2A-2B-3-4, a linear transcript encompassing exons 2A, 2B, 3 and 4 of SMN1/SMN2.These findings underscore theuniquerole of the structural context of C2A-2B-3-4 in gene regulation. A surprisingly high numberof upregulated genes by C2A-2B-3-4 were located on chromosomes 4 and 7, whereas many of the downregulated genes were located on chromosomes 10 and X. Supporting a cross-regulation of SMN1/SMN2transcripts, C2A-2B-3-4 and L2A-2B-3-4upregulated and downregulatedSMN1/SMN2mRNAs, respectively. Proteome analysis revealed 61 upregulated and 57 downregulated proteins by C2A-2B-3-4 with very limited overlap with those affected by L2A-2B-3-4. Independent validations confirmed the effect ofC2A-2B-3-4on expression ofgenesassociated with chromatin remodeling, transcription, spliceosome function, ribosome biogenesis, lipid metabolism, cytoskeletal formation, cell proliferationand neuromuscular junction formation. Our findings reveal a broad role of C2A-2B-3-4, a universally expressed circRNA produced by SMN1/SMN2.

Project description:Alternative splicing (AS) can produce multiple transcripts with different exon-intron structures from a single pre-mRNA. Pre-mRNA splicing is catalyzed by a dynamic macromolecular ribonucleoprotein (RNP) complex termed the spliceosome. The spliceosome consists of several small nuclear ribonucleoproteins (snRNPs) that bind uridine-rich small nuclear RNA (snRNA). In U1, U2, U4 and U5 snRNPs, snRNA interacts with the conserved Smith antigen (Sm) proteins via a bipartite Sm sequence motif. In eukaryotes, seven Sm proteins (B, D1/2/3, E, F and G) form a heptameric ring-shaped complex surrounding the snRNA. Here, we performed a tandem affinity purification using SMEB as a bait in Arabidopsis cell suspension cultures. At least 45 known/hypothesized and potential novel spliceosome components were identified in Arabidopsis.

Project description:The neurodegenerative disease spinal muscular atrophy (SMA) is a leading genetic cause of infant death caused by deficiency in the survival motor neuron (SMN) protein. Currently approved SMA treatments aim to restore SMN, but the potential for expression of SMN beyond physiological levels is a unique feature of AAV9-SMN gene therapy. Here, we show that long-term AAV9-mediated SMN overexpression in mouse models induces dose-dependent, late-onset motor dysfunction associated with loss of proprioceptive synapses and neurodegeneration. Mechanistically, aggregation of overexpressed SMN in the cytoplasm of motor circuit neurons sequesters components of small nuclear ribonucleoproteins (snRNPs), leading to splicing dysregulation and widespread transcriptome abnormalities with prominent signatures of neuroinflammation and innate immune response. Thus, long-term SMN overexpression can interfere with its normal activity in RNA regulation and trigger SMA-like pathogenic events through toxic gain of function mechanisms. These unanticipated, SMN-dependent and neuron-specific liabilities of AAV9-SMN warrant further evaluation of the long-term safety of gene therapy in SMA.

Project description:Spinal muscular atrophy (SMA) genes, SMN1 and SMN2, produce multiple circular RNAs (circRNAs), including C2A-2B-3-4 that encompasses early exons 2A, 2B, 3 and 4. Here we report the transcriptome- and proteome-wide effects of overexpression of C2A-2B-3-4 in inducible HEK293 cells. Our RNA-Seq analysis revealed altered expression of ~15% genes (4,172 genes) by C2A-2B-3-4. About half of the affected genes by C2A-2B-3-4 remained unaffected by L2A-2B-3-4, a linear transcript encompassing exons 2A, 2B, 3 and 4 of SMN1/SMN2. These findings underscore the unique role of the structural context of C2A-2B-3-4 in gene regulation. A surprisingly high number of upregulated genes by C2A-2B-3-4 were located on chromosomes 4 and 7, whereas many of the downregulated genes were located on chromosomes 10 and X. Supporting a cross-regulation of SMN1/SMN2 transcripts, C2A-2B-3-4 and L2A-2B-3-4 upregulated and downregulated SMN1/SMN2 mRNAs, respectively. Proteome analysis revealed 61 upregulated and 57 downregulated proteins by C2A-2B-3-4 with very limited overlap with those affected by L2A-2B-3-4. Independent validations confirmed the effect of C2A-2B-3-4 on expression of genes associated with chromatin remodeling, transcription, spliceosome function, ribosome biogenesis, lipid metabolism, cytoskeletal formation, cell proliferation and neuromuscular junction formation. Our findings reveal a broad role of C2A-2B-3-4, a universally expressed circRNA produced by SMN1/SMN2.

Project description:To further study the transcriptome of Caco-2 human colon epithelial-like cells after exposure to S-nitrosoglutathione (GSNO, 1.4 μM), or Eudragit RL PO polymeric nanoparticles (NP-ERL, 50 μg/mL) or GSNO loaded nanoparticles (NP-GSNO, 50 μg/mL corresponding to (1.4 μM GSNO) we investigate whole genome microarray to identify genes regulates by exposure or not to GSNO (1.4 μM) or Eudragit RL PO polymeric nanoparticles (NP-ERL, 50 μg/mL) or GSNO loaded nanoparticles (NP-GSNO, 50 μg/mL corresponding to (1.4 μM GSNO). Changes in gene expression in Caco-2 cells incubated without (control) or with GSNO or nanoparticles for 4 h, were measured. Four biological replicates were performed as controls: S46_1_4 ; S46_1_3 ; S35_1_4 ; S35_1_3. Four biological replicates were performed for each conditions : wtih GSNO (1.4 µM) exposed cells (S46_2_2 ; S46_2_1 ; S35_2_2 ; S35_2_1), with NP-ERL (50 μg/mL) exposed cells (S46_1_2 ; S46_1_1 ; S35_1_2 ; S35_1_1) with NP-GSNO (50 μg/mL corresponding to 1.4 µM GSNO) exposed cells (S46_2_4 ; S46_2_3 ; S35_2_4 ; S35_2_3)

Project description:DEDD regulates cell cycle related genes

Project description:U4/U6 di-snRNPs were disrupted and singular U4 and U6 snRNPs accumulated in egy mutant embryos, establishing the recycling function of p110 in vivo. Based on microarray analyses, a subset of spliceosome components and splicing-related factors was coordinately upregulated in the egy mutant. This revealed an extensive network of coregulated components of the spliceosome cycle, compensating – albeit inefficiently – for the recycling defect. In contrast, another set of genes, many of them eye- and pancreas-specific, was downregulated in the egy mutant embryos. Keywords: mut / wt comparison

Project description:Nocardioform placentitis (NP) continues to result in episodic outbreaks of abortion and preterm birth in mares and remains a poorly understood disease. The objective of this study was to characterize the transcriptome of the chorioallantois (CA) of mares with NP. Term CA were collected from mares with gross lesions consistent with NP, and NP was subsequently confirmed in four CA based upon pathology and PCR for Amycolatopsis spp. CA samples were collected from the margin of the NP lesion (NPL, n=4) and grossly normal region (NPN, n=4). Additionally, CA samples were collected from normal postpartum mares (Control; CRL, n=4). Transcriptome analysis identified 2,892 DEGs in CRL vs. NPL and 2,450 DEGs in NPN vs. NPL. Functional genomics analysis elucidated that inflammatory signaling, toll-like receptor signaling, inflammasome activation, chemotaxis, and apoptosis pathways dominate NP. The increased leukocytic infiltration in NPL was associated with the upregulation of matrix metalloproteinase (MMP1, MMP3, and MMP8) and apoptosis-related genes, such as caspases (CASP3 and CASP7), which could explain placental separation associated with NP. Also, NP was associated with downregulation of several placenta-regulatory genes (ABCG2, GCM1, EPAS1, and NR3C1), angiogenesis-related genes (VEGFA, FLT1, KDR, and ANGPT2), and glucose transporter coding genes (GLUT1, GLUT10, and GLUT12), as well as upregulation of hypoxia-related genes (HIF1A and EGLN3), which could elucidate placental insufficiency accompanying NP. In conclusion, our findings revealed for the first time, the key regulators and mechanisms underlying placental inflammation, separation, and insufficiency during NP.