Project description:Alternative polyadenylation (APA) is an important post-transcriptional regulatory mechanism and is involved in many diseases, but its function and mechanism in regulating pancreatic cancer (PC) pathogenesis remain unclear. In this study, we found that the 3' UTR shortening of MZT1 was the most prominent APA event in PC liver metastases. The short-3'UTR isoform exerted a stronger effect in promoting cell proliferation and migration both in vitro and in vivo. NUDT21, a core cleavage factor involved in APA, promoted the usage of proximal polyadenylation sites (PASs) on MZT1 mRNA by binding to the UGUA element located upstream of the proximal PAS. High percentage of distal polyA site usage index of MZT1 was significantly associated with a better prognosis. These findings demonstrate a crucial mechanism that NUDT21-mediated APA of MZT1 could promote the progression of PC. Our findings provided a better understanding of the connection between PC progression and APA machinery.

Project description:Cell fate transitions involve rapid gene expression changes and global chromatin remodeling, yet the underlying regulatory pathways remain incompletely understood. Here, we identified the RNA-processing factor Nudt21 as a novel regulator of cell fate change using transcription-factor-induced reprogramming as a screening assay. Suppression of Nudt21 enhanced the generation of induced pluripotent stem cells, facilitated transdifferentiation into trophoblast stem cells, and impaired differentiation of myeloid precursors and embryonic stem cells, suggesting a broader role for Nudt21 in cell fate change. We show that Nudt21 directs differential polyadenylation of over 1,500 transcripts in cells acquiring pluripotency, although only a fraction changed protein levels. Remarkably, these proteins were strongly enriched for chromatin regulators, and their suppression neutralized the effect of Nudt21 during reprogramming. Collectively, our data uncover Nudt21 as a novel post-transcriptional regulator of cell fate and establish a direct, previously unappreciated link between alternative polyadenylation and chromatin signaling.

Project description:Purpose: Nudix Hydrolase 21 (NUDT21) is a crucial mediator involved in alternative polyadenylation (APA), and this molecule has been reported to be a tumor suppressor in human cancers. However, neither the role NUDT21 plays in bladder cancer (BC) nor the mechanisms which are involved have been investigated. Methods: Expression levels of NUDT21 in BC were evaluated with real-time PCR, western blotting, and immunohistochemistry (IHC). In vitro and in vivo assays were performed to investigate the function of NUDT21 in tumorigenesis in bladder cancer cells. The TOP/FOP flash reporter assay, western blot, and global APA site profiling analysis were used to identify the pathway which mediates the biologic roles of NUDT21 in BC. Results: NUDT21 expression is reduced in BC tissue and cells, and BC patients with lower NUDT21 expression have shorter overall and recurrent-free survival than patients with higher NUDT21 expression. NUDT21 ectopic expression or knockdown respectively profoundly inhibited or promoted the capacity of BC cells for proliferation, migration and invasion. We also identified a number of genes with shortened 3'UTRs through modulation of NUDT21 expression, and further characterized the NUDT21-regulated genes ANXA2 and LIMK2. We found NUDT21 modulates the expression of ANXA2 and LIMK2 in the Wnt/β-catenin and NF-κB signaling pathways. Conclusions: These findings show NUDT21 plays a crucial role in BC progression, at least in part through ANXA2 and LIMK2 which act by alternative polyadenylation. NUDT21 may thus have potential as a diagnostic and therapeutic target in treatment of BC.

Project description:Alternative polyadenylation (APA) has emerged as a prevalent feature associated with cancer development and progression. The advantage of APA to tumor progression is to induce oncogenes through 3'-UTR shortening, and to inactivate tumor suppressor genes via the re-routing of microRNA competition. We previously identified the Mammalian Cleavage Factor I-25 (CFIm25) (encoded by Nudt21 gene) as a master APA regulator whose expression levels directly impact the tumorigenicity of glioblastoma (GBM) in vitro and in vivo. Despite its importance, the role of Nudt21 in GBM development is not known and the genes subject to Nudt21 APA regulation that contribute to GBM progression have not been identified. Here, we find that Nudt21 is reduced in low grade glioma (LGG) and all four subtypes of high grade glioma (GBM). Reduced expression of Nudt21 associates with worse survival in TCGA LGG cohorts and two TCGA GBM cohorts. Moreover, although CFIm25 was initially identified as biochemically associated with both CFIm59 and CFIm68, we observed three CFIm distinct subcomplexes exist and CFIm59 protein level is dependent on Nudt21 expression in GBM cells, but CFIm68 is not, and that only CFIm59 predicts prognosis of GBM patients similar to Nudt21. Through the use of Poly(A)-Click-Seq to characterize APA, we define the mRNAs subject to 3'-UTR shortening upon Nudt21 depletion in GBM cells and observed enrichment in genes important in the Ras signaling pathway, including Pak1. Remarkably, we find that Pak1 expression is regulated by Nudt21 through its 3'-UTR APA, and the combination of Pak1 and Nudt21 expression generates an even stronger prognostic indicator of GBM survival versus either value used alone. Collectively, our data uncover Nudt21 and its downstream target Pak1 as a potential "combination biomarker" for predicting prognosis of GBM patients.

Project description:We identified LAMC1 as a critical NUDT21 target involved in several core glioma-driving signaling pathways. qRT-PCR analysis confirmed that NUDT21-knockdown in GBM cells resulted in the preferred usage of the proximal C/PAS of LAMC1. Furthermore, functional studies revealed that NUDT21-knockdown-induced 3’UTR shortening of LAMC1 was sufficient to induce translational gain, as LAMC1 was upregulated in these cells compared to their respective controls. Additionally, we demonstrated that primary glial cells recapitulated this phenomenon. We also further dissected the miRNA-mediated mechanism by which LAMC1 expression was regulated by showing that NUDT21 knockdown in glioma cells directed the 3’UTR shortening of LAMC1, removing binding sites for miR-124/506 and consequently inducing LAMC1 expression. Remarkably, we reported that the knockdown of NUDT21 significantly promoted GBM cell migration and that co-depletion of LAMC1 and NUDT21 abrogated this effect. Lastly, we observed that LAMC1 3’UTR shortening predicted poor prognosis of low- and high-grade glioma patients from The Cancer Genome Atlas.

Project description:Cell fate transitions involve rapid changes of gene expression patterns and global chromatin remodeling, yet the underlying regulatory pathways remain incompletely understood. Here, we used transcription-factor induced reprogramming of somatic cells into pluripotent cells to screen for novel regulators of cell fate change. We identified the RNA processing factor Nudt21, a component of the pre-mRNA cleavage and polyadenylation complex, as a potent barrier to reprogramming. Importantly, suppression of Nudt21 not only enhanced the generation of induced pluripotent stem cells but also facilitated the conversion of fibroblasts into trophoblast stem cells and delayed the differentiation of myeloid precursor cells into macrophages, suggesting a broader role for Nudt21 in restricting cell fate change. Polyadenylation site sequencing (PAS-seq) revealed that Nudt21 directs differential polyadenylation of over 1,500 transcripts in cells acquiring pluripotency. While only a fraction of these transcripts changed expression at the protein level, this fraction was strongly enriched for chromatin regulators, including components of the PAF, polycomb, and trithorax complexes. Co-suppression analysis further suggests that these chromatin factors are largely responsible for Nudt21’s effect on reprogramming, providing a mechanistic basis for our observations. Collectively, our data uncover Nudt21 as a novel post-transcriptional regulator of mammalian cell fate and establish a direct, previously unappreciated link between alternative polyadenylation and chromatin signaling.

Project description:Cigarette smoking induces a profound transcriptomic and systemic inflammatory response. Previous studies have focused on gene level differential expression of smoking, but the genome-wide effects of smoking on alternative isoform regulation have not yet been described. We conducted RNA sequencing in whole-blood samples of 454 current and 767 former smokers in the COPDGene Study, and we analyzed the effects of smoking on differential usage of isoforms and exons. At 10% FDR, we detected 3167 differentially expressed genes, 945 differentially used isoforms and 160 differentially used exons. Isoform switch analysis revealed widespread 3' UTR lengthening associated with cigarette smoking. The lengthening of these 3' UTRs was consistent with alternative usage of distal polyadenylation sites, and these extended 3' UTR regions were significantly enriched with functional sequence elements including microRNA and RNA-protein binding sites. These findings warrant further studies on alternative polyadenylation events as potential biomarkers and novel therapeutic targets for smoking-related diseases.

Project description:Cell fate transitions involve rapid changes of gene expression patterns and global chromatin remodeling, yet the underlying regulatory pathways remain incompletely understood. Here, we used transcription-factor induced reprogramming of somatic cells into pluripotent cells to screen for novel regulators of cell fate change. We identified the RNA processing factor Nudt21, a component of the pre-mRNA cleavage and polyadenylation complex, as a potent barrier to reprogramming. Importantly, suppression of Nudt21 not only enhanced the generation of induced pluripotent stem cells but also facilitated the conversion of fibroblasts into trophoblast stem cells and delayed the differentiation of myeloid precursor cells into macrophages, suggesting a broader role for Nudt21 in controlling cell fate change. Polyadenylation site sequencing (PAS-seq) revealed that Nudt21 directs differential polyadenylation of over 1,500 transcripts in cells acquiring pluripotency. While only a fraction of these transcripts changed expression at the protein level, this fraction was strongly enriched for chromatin regulators, including components of the PAF, Polycomb, and Trithorax complexes. Co-suppression analysis further suggests that these chromatin factors are potent mediators of reprogramming, providing a mechanistic basis for our observations. Collectively, our data uncover Nudt21 as a novel post-transcriptional regulator of mammalian cell fate and establish a direct, previously unappreciated link between alternative polyadenylation and chromatin signaling.

Project description:Cell fate transitions involve rapid changes of gene expression patterns and global chromatin remodeling, yet the underlying regulatory pathways remain incompletely understood. Here, we used transcription-factor induced reprogramming of somatic cells into pluripotent cells to screen for novel regulators of cell fate change. We identified the RNA processing factor Nudt21, a component of the pre-mRNA cleavage and polyadenylation complex, as a potent barrier to reprogramming. Importantly, suppression of Nudt21 not only enhanced the generation of induced pluripotent stem cells but also facilitated the conversion of fibroblasts into trophoblast stem cells and delayed the differentiation of myeloid precursor cells into macrophages, suggesting a broader role for Nudt21 in restricting cell fate change. Polyadenylation site sequencing (PAS-seq) revealed that Nudt21 directs differential polyadenylation of over 1,500 transcripts in cells acquiring pluripotency. While only a fraction of these transcripts changed expression at the protein level, this fraction was strongly enriched for chromatin regulators, including components of the PAF, polycomb, and trithorax complexes. Co-suppression analysis further suggests that these chromatin factors are largely responsible for Nudt21’s effect on reprogramming, providing a mechanistic basis for our observations. Collectively, our data uncover Nudt21 as a novel post-transcriptional regulator of mammalian cell fate and establish a direct, previously unappreciated link between alternative polyadenylation and chromatin signaling.

Project description:Alternative polyadenylation (APA) creates distinct transcripts from the same gene by cleaving the pre-mRNA at poly(A) sites that can lie within the 3' untranslated region (3'UTR), introns, or exons. Most studies focus on APA within the 3'UTR; however, here, we show that CPSF6 insufficiency alters protein levels and causes a developmental syndrome by deregulating APA throughout the transcript. In neonatal humans and zebrafish larvae, CPSF6 insufficiency shifts poly(A) site usage between the 3'UTR and internal sites in a pathway-specific manner. Genes associated with neuronal function undergo mostly intronic APA, reducing their expression, while genes associated with heart and skeletal function mostly undergo 3'UTR APA and are up-regulated. This suggests that, under healthy conditions, cells toggle between internal and 3'UTR APA to modulate protein expression.