Project description:Long noncoding RNAs (lncRNAs) have emerged as important components of gene regulatory network in embryonic stem cells (ESCs). However, the function and molecular mechanism of lncRNAs are still largely unknown. Here we identified Trincr1 (TRIM71 interacting long noncoding RNA 1) lncRNA that regulates the FGF/ERK signaling and self-renewal of ESCs. Trincr1 is exported by THOC complex to cytoplasm where it binds and represses TRIM71, leading to the downregulation of SHCBP1 protein. Knocking out Trincr1 leads to the upregulation of phosphorylated ERK and ERK pathway target genes and the decrease of ESC self-renewal, while knocking down Trim71 completely rescues the defects of Trincr1 knockout. Furthermore, ectopic expression of Trincr1 represses FGF/ERK signaling and the self-renewal of neural progenitor cells. Together, this study reveals more regulators in FGF/ERK signaling pathway and highlights lncRNA as an important player in cell signaling network to coordinate cell fate specification.

Project description:EGFR-induced lncRNA TRIDENT promotes drug resistance in non–small cell lung cancer via phospho-TRIM28-mediated DNA damage repair

Project description:Functional studies of long noncoding RNAs (lncRNAs) have long been hindered by a lack of methods to assess their evolution. Here, we present lncHOME (lncRNA Homology Explorer), a computational pipeline that identifies a unique coPARSE-lncRNA class with conserved genomic locations and patterns of RNA binding protein (RBP) binding sites. Remarkably, several hundred human coPARSE-lncRNAs can be evolutionarily traced to zebrafish. Using CRISPR-Cas12a knockout and rescue assays, we found that knocking out many human coPARSE-lncRNAs led to cell proliferation defects that were rescued by predicted zebrafish homologs. Knocking down the coPARSE-lncRNAs in zebrafish embryos caused severe developmental delays that were rescued by human homologs. Moreover, we verified that human, mouse, and zebrafish coPARSE-lncRNA homologs tend to bind similar RBPs with their conserved fuctions relying on specific RBP binding sites. Overall, our study demonstrates a comprehensive approach for studying functional conservation of lncRNAs and implicates numerous lncRNAs in regulating cellular physiology.

Project description:Both TRIM28 and CtBP are important transcriptional repressors and always shown high expression in many types of cancers, in our current study, we found TRIM28 interacts with CtBP in breast cancer and normal cells. To elucidate the functions of interaction between TRIM28 and CtBP in breast cancer progression, we performed the RNAseq of knocking down TRIM28, CtBP and Ctrl(NC) genes in MCF-7 cell line.

Project description:Immunotherapy has shown great therapeutic potential for cancers with high tumor mutational burden (TMB), but much less promise for cancers with low TMB. One primary approach for adoptive lymphocyte transfer-based immunotherapy is to target the somatic mutated peptide neoantigens and cancer testis (CT) antigens recognized by cytotoxic T cells. Here, we employed mass spectrometry (MS)-based proteogenomic large-scale profiling to identify potential immunogenic human leukocyte antigen (HLA) Class ǀ- associated peptides in both melanoma, a “hot tumor”, and EGFR mutant lung adenocarcinoma, a “cold tumor”. We uncovered 19 common driver oncogene-derived peptides and more than 1000 post-translationally modified peptides (PTM) representing 58 different PTMs. We constructed a CT antigen database with 286 antigens by compiling reputed CT antigen resources and “in-house” genomic data and used this to identify 45 CT antigen-derived peptides from the identified HLA peptidome. Using integrated next generation sequencing data, we discovered 12 neopeptides in EGFR mutant lung cancer cell lines. Finally, we report a novel approach for non-canonical peptide discovery, whereby we leveraged a deep learning-based de novo search and a high confidence annotated long noncoding RNA (LncRNA) database to identify 44 lncRNA-derived peptides. Findings of this study, for the first time, provide evidence for a large pool of actionable cancer antigen-derived peptides for use in mutant EGFR lung cancer immunotherapy.

Project description:Expression of long noncoding RNA EGFR-AS1 is found to be dysregulated in cancer especially non small cell lung cancer. However, the role of long noncoding RNA EGFR-AS1 in non small cell lung cancer remains relatively unknown. Our study aim to discovered the role of long noncoding RNA EGFR-AS1 in lung cancer progression and response to chemotherapy.

Project description:Extracellular RNAs (exRNAs) in blood and other biofluids have attracted great interest as potential biomarkers in liquid biopsy applications, as well as for their potential biological functions. Whereas it is well-established that extracellular microRNAs are present in human blood circulation, the degree to which messenger RNAs (mRNA) and long noncoding RNAs (lncRNA) are represented in plasma is less clear. Here we report that mRNA and lncRNA species are present as small fragments in plasma that are not detected by standard small RNA-seq methods, because they lack 5’-phosphorylation or carry 3’-phosphorylation. We developed a modified sequencing protocol (termed “phospho-sRNA-seq”) that incorporates upfront RNA treatment with T4 polynucleotide kinase (which also has 3’ phosphatase activity) and compared it to a standard small RNA-seq protocol, using as input both a pool of synthetic RNAs with diverse 5’ and 3’ end chemistries, as well exRNA isolated from human blood plasma. Using a custom, high-stringency pipeline for data analysis we identified mRNA and lncRNA transcriptome fingerprints in plasma, including multiple tissue-specific gene sets. In this cohort of healthy individuals, we demonstrate the improved capture of mRNA and lncRNA fragments using the phospho-sRNA-seq protocol. We find they primarily arise from mRNA exons, and that abundant fragments are consistently detected in multiple individuals.

Project description:We identified TRIM28 as a co-repressor that regulates transcriptional activity during necroptosis. RIPK3 activation induces TRIM28 phosphorylation at serine 473, inhibiting its chromatin binding activity, thereby contributing to the transactivation of NF-κB and other transcription factors, such as SOX9. This leads to elevated cytokine expression, which then potentiates immunoregulatory processes, such as DC maturation. The expression of RIPK3 has a significant positive association with the tumor-infiltrating immune cells populations in various tumor type, thereby activating anti-cancer responses.

Project description:TRIM28 interacts with PGR and ESR1 in both human and mouse uterus to modulate estrogen and progesterone signaling. Knocking down of TRIM28 in the human endometrial stromal cells impaired decidualization in vitro. Deletion of TRIM28 from mouse uterus disrupted uterine stromal decidualization leading to infertility. Additionally, TRIM28 deletion caused abnormal accumulation of TRIM28 positive and PGR negative cells in the stroma.

Project description:TRIM28 interacts with PGR and ESR1 in both human and mouse uterus to modulate estrogen and progesterone signaling. Knocking down of TRIM28 in the human endometrial stromal cells imparied decidualization in vitro. Deletion of TRIM28 from mouse uterus disrupted uterine stromal decidualization leading to infertility. Addtionally, TRIM28 deletion caused abnormal accumulation of TRIM28 postive and PGR negative cells in the stroma.