Transcriptomics Provides Novel Insights into the Regulatory Mechanism of IncRNA HIF1 A-AS1 on Vascular Smooth Muscle Cells

ABSTRACT Introduction: Thoracic aortic aneurysm is a potentially fatal disease with a strong genetic contribution. The dysfunction of vascular smooth muscle cells (VSMCs) contributes to the formation of this aneurysm. Although previous studies suggested that long non-coding ribonucleic acid (RNA) hypoxia inducible factor 1 α-antisense RNA 1 (HIF1A-AS1) exerted a vital role in the progression and pathogenesis of thoracic aortic aneurysm, we managed to find a new regulatory mechanism of HIF1A-AS1 in VSMCs via transcriptomics. Methods: Cell viability was detected by the cell counting kit-8 assay. Cell apoptosis was assessed by Annexin V-fluorescein isothiocyanate/propidium iodide double staining. Transwell migration assay and wound healing assay were performed to check the migration ability of HIF1A-AS1 on VSMCs. The NextSeq XTen system (Illumina) was used to collect RNA sequencing data. Lastly, reverse transcription-quantitative polymerase chain reaction confirmed the veracity and reliability of RNA-sequencing results. Results: We observed that overexpressing HIF1A-AS1 successfully promoted apoptosis, significantly altered cell cycle distribution, and greatly attenuated migration in VSMCs, further highlighting the robust promoting effects of HIF1A-AS1 to thoracic aortic aneurysm. Moreover, transcriptomics was implemented to uncover its underlying mechanism. A total of 175 differently expressed genes were identified, with some of them enriched in apoptosis, migration, and cell cycle-related pathways. Intriguingly, some differently expressed genes were noted in vascular development or coagulation function pathways. Conclusion: We suggest that HIF1A-AS1 mediated the progression of thoracic aortic aneurysm by not only regulating the function of VSMCs, but also altering vascular development or coagulation function.

Genetic Profiles Associated with Chemoresistance in Patient-Derived Xenograft Models of Ovarian Cancer / Journal of the Korean Cancer Association, 대한암학회지

PURPOSE: Recurrence and chemoresistance (CR) are the leading causes of death in patients with high-grade serous carcinoma (HGSC) of the ovary. The aim of this study was to identify genetic changes associated with CR mechanisms using a patient-derived xenograft (PDX) mouse model and genetic sequencing. MATERIALS AND METHODS: To generate a CR HGSC PDX tumor, mice bearing subcutaneously implanted HGSC PDX tumors were treated with paclitaxel and carboplatin. We compared gene expression and mutations between chemosensitive (CS) and CR PDX tumors with whole exome and RNA sequencing and selected candidate genes. Correlations between candidate gene expression and clinicopathological variables were explored using the Cancer Genome Atlas (TCGA) database and the Human Protein Atlas (THPA). RESULTS: Three CR and four CS HGSC PDX tumor models were successfully established. RNA sequencing analysis of the PDX tumors revealed that 146 genes were significantly up-regulated and 54 genes down-regulated in the CR group compared with the CS group. Whole exome sequencing analysis showed 39 mutation sites were identified which only occurred in CR group. Differential expression of SAP25,HLA-DPA1, AKT3, and PIK3R5 genes and mutation of TMEM205 and POLR2A may have important functions in the progression of ovarian cancer chemoresistance. According to TCGA data analysis, patients with high HLA-DPA1 expression were more resistant to initial chemotherapy (p=0.030; odds ratio, 1.845). CONCLUSION: We successfully established CR ovarian cancer PDX mouse models. PDX-based genetic profiling study could be used to select some candidate genes that could be targeted to overcome chemoresistance of ovarian cancer.

Prediction of itching diagnostic marker through RNA sequencing of contact hypersensitivity and skin scratching stimulation mice models

Pruritus (itching) is classically defined as an unpleasant cutaneous sensation that leads to scratching behavior. Although the scientific criteria of classification for pruritic diseases are not clear, it can be divided as acute or chronic by duration of symptoms. In this study, we investigated whether skin injury caused by chemical (contact hypersensitivity, CHS) or physical (skin-scratching stimulation, SSS) stimuli causes initial pruritus and analyzed gene expression profiles systemically to determine how changes in skin gene expression in the affected area are related to itching. In both CHS and SSS, we ranked the Gene Ontology Biological Process terms that are generally associated with changes. The factors associated with upregulation were keratinization, inflammatory response and neutrophil chemotaxis. The Kyoto Encyclopedia of Genes and Genomes pathway shows the difference of immune system, cell growth and death, signaling molecules and interactions, and signal transduction pathways. Il1a , Il1b and Il22 were upregulated in the CHS, and Tnf, Tnfrsf1b, Il1b, Il1r1 and Il6 were upregulated in the SSS. Trpc1 channel genes were observed in representative itching-related candidate genes. By comparing and analyzing RNA-sequencing data obtained from the skin tissue of each animal model in these characteristic stages, it is possible to find useful diagnostic markers for the treatment of itching, to diagnose itching causes and to apply customized treatment.

Identification of Epithelial-Mesenchymal Transition-related Target Genes Induced by the Mutation of Smad3 Linker Phosphorylation

BACKGROUND: Smad3 linker phosphorylation plays essential roles in tumor progression and metastasis. We have previously reported that the mutation of Smad3 linker phosphorylation sites (Smad3-Erk/Pro-directed kinase site mutant constructs [EPSM]) markedly reduced the tumor progression while increasing the lung metastasis in breast cancer. METHODS: We performed high-throughput RNA-Sequencing of the human prostate cancer cell lines infected with adenoviral Smad3-EPSM to identify the genes regulated by Smad3-EPSM. RESULTS: In this study, we identified genes which are differentially regulated in the presence of Smad3-EPSM. We first confirmed that Smad3-EPSM strongly enhanced a capability of cell motility and invasiveness as well as the expression of epithelial-mesenchymal transition marker genes, CDH2, SNAI1, and ZEB1 in response to TGF-β1 in human pancreatic and prostate cancer cell lines. We identified GADD45B, CTGF, and JUNB genes in the expression profiles associated with cell motility and invasiveness induced by the Smad3-EPSM. CONCLUSIONS: These results suggested that inhibition of Smad3 linker phosphorylation may enhance cell motility and invasiveness by inducing expression of GADD45B, CTGF, and JUNB genes in various cancers.

Zika virus: Genome sequence analysis and nucleic acid detection methods / 第二军医大学学报

Objective To analyze the genome sequence characteristics of Zika virus and to develop nucleic acid detection methods for Zika virus. Methods The phylogenetic tree of 81 kinds of Flavivirus was constructed. The differences of nucleotide and amino acid sequence among Zika virus, type 4 dengue and Japanese encephalitis virus (JEV) were analyzed and compared. The gene mutated sites of Asian and African Zika virus, especially four Zika virus strains from China, were analyzed. A set of primers and probes of real-time quantitative PCR for Zika virus were designed after comparing the genome sequences of Asian and African Zika virus. Results Spondweni and Kedougou viruses were the closest homologously to Zika virus among 81 kinds of Flavivirus. Comparison of full genomic nucleic acid sequence showed that Zika virus was closer to type 4 dengue virus than JEV, whereas comparison of amino acid yielded an opposite result. Compared with traditional Asian type Zika virus, Guangdong GD01 strains had 5 amino acid mutated sites, Zhejiang ZJ03 strains had 6 mutated sites, and VE Ganxian strains had 33 mutated sites. Detection of designed PCR primers and probes for plasmid RNA was positive, with the lower limit of detection being 100 copies/mL and Zika virus RNA was detected to be positive, type 1-4 dengue virus and Japanese encephalitis virus being negative. Conclusion Zika virus and Spondweni virus are the closest homologously. The high mutation character of VE Ganxian strains indicates that Zika might evolve fast. PCR primers and probes designed in this paper can be used for Asian and African type Zika virus detection, with relatively higher sensitivity and specificity.

Characterization of sphere-forming HCT116 clones by whole RNA sequencing

PURPOSE: To determine CD133+ cells defined as cancer stem cells (CSCs) in colon cancer, we examined whether CD133+ clones in HCT116 demonstrate known features of CSCs like sphere-forming ability, chemodrug-resistance, and metastatic potential. METHODS: Magnetic cell isolation and cell separation demonstrated that <1% of HCT116 cells expressed CD133, with the remaining cells being CD133- clones. In colon cancer cells, radioresistance is also considered a CSC characteristic. We performed clonogenic assay using 0.4 Gy γ-irradiation. RESULTS: Interestingly, there were no differences between HCT116 parental and HCT116 CD133+ clones when the cells comprised 0.5% of the total cells, and CD133- clone demonstrated radiosensitive changes compared with parental and CD133+ clones. Comparing gene expression profiles between sphere-forming and nonforming culture conditions of HCT116 subclones by whole RNA sequencing failed to obtain specific genes expressed in CD133+ clones. CONCLUSION: Despite no differences of gene expression profiles in monolayer attached culture conditions of each clone, sphere-forming conditions of whole HCT116 subclones, parental, CD133+, and CD133- increased 1,761 coding genes and downregulated 1,384 genes related to CSCs self-renewal and survival. Thus, spheroid cultures of HCT116 cells could be useful to expand colorectal CSCs rather than clonal expansion depending on CD133 expressions.

Haemophilus parainfluenzae Infective Endocarditis Diagnosed by Direct 16S rRNA Sequencing of Vegetation

The HACEK group of microorganisms is responsible for approximately 3-6% of endocarditis cases and is a major cause of culture-negative endocarditis. Here, we report a case of Haemophilus parainfluenzae infective endocarditis that was diagnosed by direct PCR sequencing of 16S rRNA from resected vegetation. A healthy 26-yr-old man was admitted to the emergency room (ER) on March 27, 2011 because of intermittent high fever. The patient was prescribed cefpodoxime for 5 days at the ER. Six and 11 sets of blood cultures were performed at the ER and in a general ward, respectively, using BACTEC Plus Aerobic/F (Becton-Dickinson, USA) and Lytic Anaerobic/F Plus (BD) together. Echocardiography revealed a large vegetation at the posterior mitral valve leaflet. After performing mitral valvoplasty on hospital day (HD) 11, the vegetation tissue was cultured in thioglycolate broth, blood agar, Brucella agar, and MacConkey agar for 7 days, but no organism was grown. Direct PCR sequencing of 16S rRNA of the tissue revealed the presence of H. parainfluenzae. In the 17 sets of blood cultures, bacterial growth was detected in only 2 aerobic bottles of 5 sets taken at HD 9 after 10-day and 14-day incubation. The organism was identified as H. parainfluenzae by using the VITEK NHI card (bioMerieux, France). Direct PCR sequencing of vegetation could be useful in diagnosing bacterial pathogens in infective endocarditis patients, especially in culture-negative cases.