Yingying Lian scite author profile

Related studies showed that the protein PSF represses protooncogene transcription, and VL30 -1 RNA, a mouse noncoding retroelement RNA, binds and releases PSF from a proto-oncogene, activating transcription. Here we show that this mechanism regulates tumorigenesis in human cells, with human RNAs replacing VL30 -1 RNA. A library of human RNA fragments was used to isolate, by affinity chromatography, 5 noncoding RNA fragments that bind to human PSF (hPSF), releasing hPSF from a protooncogene and activating transcription. T he protein PSF (1) contains a DNA-binding domain (DBD) that binds to the regulatory region of a proto-oncogene and represses transcription, and 2 RNA-binding domains (RBDs) that bind VL30-1 RNA, releasing PSF from a repressed protooncogene and activating transcription (2-5). Mouse and human genomes encode homologous PSF proteins with Ϸ95% sequence identity, whereas the VL30-1 gene belongs to a family of mouse noncoding retroelement genes (6) that is not present in the human genome (7). To determine whether the PSF/RNA regulatory mechanism functions in human cells, a library of RNA fragments was constructed from the nuclear RNA repertoire of a human tumor cell, and the library was screened by affinity chromatography for RNAs that bind to human PSF (hPSF). The screen identified 5 hPSF-binding noncoding RNA fragments that release hPSF from a repressed proto-oncogene and activate transcription, similar to VL30-1 RNA. Each human RNA fragment maps to a matching sequence in a different human gene. The following experiments show that human hPSF-binding RNAs are involved in the control of tumorigenesis. Results Cloning and Mapping Human RNA Fragments That Bind to hPSFProtein. The finding that VL30-1 RNA, a mouse retroelement RNA that is not encoded in the human genome, binds selectively to hPSF protein and reverses repression of proto-oncogene transcription (2-5), prompted a search for human RNAs that have a similar function as VL30-1 RNA. The procedure involved synthesizing a library of RNA fragments from the nuclear RNA repertoire of a human melanoma line and selecting by affinity chromatography RNA fragments that bind to hPSF. The procedure yielded 5 such RNA fragments, 4 of which were mapped, by sequence identity, within 1 of the following genes: L1PA16, a non-LTR retroelement gene (8); MER11C, a LTR retroelement gene (9); MALAT-1, a noncoding gene (10, 11); or HN, a mitochondrial gene coding for the peptide humanin (12); a fifth fragment, not shown in the figure, maps to a region that has not been characterized ( Fig. 1 and SI Text).The sequence of the HN RNA fragment is 100% identical to a sequence in the mitochondrial 16S ribosomal RNA gene and is 85% identical to positions 21947595-21947823 on nuclear chromosome 17. Further testing showed that the HN RNA fragment is derived from the mitochondrial HN RNA and not from the nuclear RNA (SI Text). The mitochondrial HN RNA might be translocated to the nucleus or derived from a mitochondrial contamination in the nuclear preparation.Release of hPSF from ...

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Proteome-Wide Alterations of Asymmetric Arginine Dimethylation Associated With Pancreatic Ductal Adenocarcinoma Pathogenesis

Wei

Tan

Tang

et al. 2020

Front. Cell Dev. Biol.

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Arginine methylation catalyzed by protein arginine methyltransferases (PRMTs) performs essential roles in regulating cancer initiation and progression, but its implication in pancreatic ductal adenocarcinoma (PDAC) requires further elucidation. In this study, asymmetric dimethylarginine (ADMA)-containing peptides in PDAC cell line PANC-1 were identified by label-free quantitative proteomics combined with affinity purification, using human non-cancerous pancreatic ductal epithelium cell line HPDE6c7 as the control. In total, 289 ADMA sites in 201 proteins were identified in HPDE6c7 and PANC-1 cells, including 82 sites with lower dimethylation and 37 sites with higher dimethylation in PANC-1 cells compared with HPDE6c7 cells. These ADMA-containing peptides demonstrated significant enrichment of glycine and proline residues in both cell lines. Importantly, leucine residues were significantly enriched in ADMA-containing peptides identified only in HPDE6c7 cells or showing lower dimethylation in PANC-1 cells. ADMA-containing proteins were significantly enriched in multiple biological processes and signaling cascades associated with cancer development, such as spliceosome machinery, the Wnt/β-catenin, Hedgehog, tumor growth factor beta (TGF-β), and mitogen-activated protein kinase (MAPK) signaling pathways. Moreover, PDAC cell lines with enhanced cell viability showed lower PRMT4 protein abundance and global ADMA-containing protein levels compared with HPDE6c7. PRMT4 overexpression partially recovered ADMA-containing protein levels and repressed viability in PANC-1 cells. These results revealed significantly altered ADMA-containing protein profiles in human pancreatic carcinoma cells, which provided a basis for elucidating the pathogenic roles of PRMT-mediated protein methylation in pancreatic cancer.

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De Novo Assembly, Characterization and Comparative Transcriptome Analysis of the Gonads of Jade Perch (Scortum barcoo)

Liu

Lian

Song

et al. 2023

Animals

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Due to the high meat yield and rich nutritional content, jade perch (Scortum barcoo) has become an important commercial aquaculture species in China. Jade perch has a slow growth rate, taking 3–4 years to reach sexual maturity, and has almost no difference in body size between males and females. However, the study of its gonad development and reproduction regulation is still blank, which limited the yield increase. Herein, the gonad transcriptomes of juvenile males and females of S. barcoo were identified for the first time. A total of 107,060 unigenes were successfully annotated. By comparing male and female gonad transcriptomes, a total of 23,849 differentially expressed genes (DEGs) were identified, of which 9517 were downregulated, and 14,332 were upregulated in the testis. In addition, a large number of DEGs involved in sex differentiation, gonadal development and differentiation and gametogenesis were identified, and the differential expression patterns of some genes were further verified using real-time fluorescence quantitative PCR. The results of this study will provide a valuable resource for further studies on sex determination and gonadal development of S. barcoo.

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Yingying Lian

Role of human noncoding RNAs in the control of tumorigenesis

Proteome-Wide Alterations of Asymmetric Arginine Dimethylation Associated With Pancreatic Ductal Adenocarcinoma Pathogenesis

De Novo Assembly, Characterization and Comparative Transcriptome Analysis of the Gonads of Jade Perch (Scortum barcoo)

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