Project description:Overexpressed PRR11-SKA2-miR301a/454 bidirectional transcription unit essentially and coordinately promotes PI3K-AKT pathway activation and lung cancer progression

Project description:HEDGEHOG/GLI Modulates The PRR11-SKA2 Bidirectional Transcription Unit in Lung Squamous Cell Carcinomas

Project description:We previously demonstrated that proline-rich protein 11 (PRR11) and spindle and kinetochore associated 2 (SKA2) constituted a head-to-head gene pair driven by a prototypical bidirectional promoter, and this gene pair synergistically promoted the development of non-small-cell lung cancer. However, the signaling pathways leading to the ectopic expression of this gene pair remain obscure. In the present study, we first analyzed the lung squamous cell carcinoma (LSCC) relevant RNA sequencing data from the TCGA database by the correlation analysis of gene expression and gene set enrichment analysis (GSEA), revealing that the PRR11-SKA2 correlated gene list highly resembled the Hedgehog (Hh) pathway activation-related gene set. Subsequently, GLI1/2 inhibitor GANT-61 or GLI1/2-siRNA inhibited Hh pathway of LSCC cells, concomitantly decreasing the expression levels of PRR11 and SKA2. Furthermore, the mRNA expression profile of LSCC cells treated with GANT-61 was detected by RNA sequencing, displaying 397 differentially expressed genes (203 upregulated genes and 194 downregulated genes). Out of them, one gene set, including BIRC5, NCAPG, CCNB2 and BUB1, involved in cell division and interacted with both PRR11 and SKA2. These genes were verified as the downregulated genes via RT-PCR and their high expression significantly correlated with shorter overall survival of LSCC patients. Taken together, our results indicated that GLI1/2 mediated the expression of the PRR11-SKA2-centric gene set which served as unfavorable prognostic indicators for LSCC patients, potentializing new combinatorial diagnostic and therapeutic strategies in LSCC.

Project description:The flexible protein GRB2 interacts with HER1~4 on the cell surface and regulates the angiogenesis, differentiation, and proliferation of tumor cells. It is an essential component of the intricate signaling cascade of tyrosine kinase receptors. Meanwhile, GRB2 is an RBP that plays an important role in post-transcriptional regulation in eukaryotes, which affects every stage of mRNA synthesis, modification, splicing, stabilization. Research on breast cancer is limited, but one study found a connection between GRB2 and HER2-positive breast cancer, highlighting the potential of GRB2 as a novel biomarker that stimulates tumor growth. In this research endeavor, we will investigate the impact of GRB2's regulatory mechanism on metastasis in HER2-positive breast cancer.

Project description:The flexible protein GRB2 interacts with HER1~4 on the cell surface and regulates the angiogenesis, differentiation, and proliferation of tumor cells. It is an essential component of the intricate signaling cascade of tyrosine kinase receptors. Meanwhile, GRB2 is an RBP that plays an important role in post-transcriptional regulation in eukaryotes, which affects every stage of mRNA synthesis, modification, splicing, stabilization. Research on breast cancer is limited, but one study found a connection between GRB2 and HER2-positive breast cancer, highlighting the potential of GRB2 as a novel biomarker that stimulates tumor growth. In this research endeavor, we will investigate the impact of GRB2's regulatory mechanism on metastasis in HER2-positive breast cancer.

Project description:Grb2 is a small SH2-SH3 adaptor molecule that interacts with activated tyrosine kinase receptors (RTKs), providing a crucial link towards downstream activation of pro-proliferative and pro-survival ERK and Akt signaling pathways. Ret and FGFR2, two RTKs that interact with Grb2, play important roles in ureteric branching and the proper establishment of the renal collecting duct system, but it is unclear whether Grb2 is required in this process. In this study, we selectively ablated a conditional floxed allele of the Grb2 gene within the ureteric epithelial lineage in mice and demonstrate that Grb2 signaling is essentially required for proper collecting duct development. Ureteric Grb2 deficiency results in perinatal lethality and severe renal hypodysplasia closely reminiscent of the rudimentary kidney phenotypes observed in Ret-null mutant mice. Grb2 loss attenuates ERK and Akt activation in the ureteric epithelia resulting in pronounced impairment of ureteric branching. Gene expression analysis reveals that Grb2 deficiency results in defective induction of genes implicated in both ureteric branching and reciprocal mesenchymal metanephric induction. Our findings therefore strongly indicate that Grb2 is a physiologically-relevant major RTK signaling relay partner that promotes renal branching morphogenesis and the proper development of the collecting duct system and the urogenital tract. Microarray was used to profile and compare the transcriptomes of developing kidneys of E14.5 Grb2 conditional knockout (ureteric-bud specific) and wild-type embryos

Project description:Gene expression and Comparative genomic hybridization (CGH) microarrays performed in a set of 8 Lung cancer Cell lines. The search for oncogenes is becoming increasingly important in cancer genetics because they constitute suitable targets for therapeutic intervention. To identify novel oncogenes, activated by gene amplification, we performed high-resolution CGH (Comparative Genome Hybridization) analysis on cDNA microarrays and compared DNA copy number and mRNA expression levels in lung cancer cell lines. We have performed both microarrays (expression and CGH) in a set of 8 human lung cancer cell lines: Calu3, H23, H441, A427, H522, A549, H1299, H2126.

Project description:Using H3K27ac ChIP-seq profile to map active enhancers in lung cancer, endometrial carcinoma and head and neck squamous cell carcinoma cells

Project description:Abundant Bidirectional Transcription around Transcription Start Sites in Mammals

Project description:We report that head to head long noncoding RNAs contribute to transcription and developmental process. Thousands of lncRNAs have been identified in the whole genome, and classified to several subgroups based on the genome position with their coding neighbors. XH, the head to head subgroup is associated with transcription and development in GO analysis. Here, we deleted the promoter and exon1 region which shared by Evx1as/Evx1 XH pair in embryonic stem cells by two sgRNAs-mediated CRISPR. Two homozygous mutants came out from 46 single clones with high efficiency, while two control clones were picked from cells which were only Cas9 transfected. These two mutants failed to activate Evx1 in -LIF differentiation compared to control cells, while Evx1as still have 30% mRNA residual. Meanwhile, we characterized gene expression level among different stages of ESC differentiation and found many differentiated related makers exhibited aberrant regulation, especially endodermal genes. We propose that XH lncRNA and its coding neighbor could regulate each other, and function as a unit to promote ESC differentiation and biological development.