Project description:This study elucidates the molecular mechanisms underlying the antitumor effects of a novel sulfane sulfur donor compound on hepatocellular carcinoma (HCC) cells using RNA sequencing analysis. While sulfane sulfur has emerged as a crucial signaling molecule with therapeutic potential in cancer treatment, its precise mechanisms of action remain to be fully elucidated. We synthesized a novel sulfane sulfur donor (persulfided cysteine precursor, PSCP) that exhibits potent inhibitory effects on HCC cells. Through comprehensive RNA-seq analysis of PSCP-treated HCC cells versus controls, we uncovered a complex regulatory mechanism involving mitochondrial damage, AMPK activation, and p53-mediated cellular responses, including both proliferation inhibition and apoptosis induction. Our findings demonstrate that PSCP exerts its anti-HCC effects through a mitochondrial damage-AMPK-p53 signaling cascade, with p53 serving as a key mediator that both suppresses cell proliferation and promotes apoptosis. These results provide novel insights into the antitumor mechanisms of sulfane sulfur compounds and highlight their therapeutic potential in HCC treatment.  Treatment group: SNU398 HCC cells treated with 200 μM PSCP for 24 hours  Control group: SNU398 cells treated with vehicle control  Three-four biological replicates per group  mRNA extraction using TRIzol reagent (Invitrogen, MD, USA)  Sequencing performed by Biomarker Technologies (Guangzhou, China)  Sequencing platform: Oxford Nanopore Technologies (Oxford, UK)  Data analysis conducted using BMK_Cloud platform

Project description:While RNA-Seq has seen widespread use in organ transplantation studies, its application in VCA research, especially in large animal models, remains underutilized. In our study, we harness RNA-Seq alongside bioinformatic analysis to scrutinize the gene expression signature and underlying biological pathways associated with VCA immune rejection.

Project description:The observation that human Pluripotent Stem Cells (hPSCs) may acquire non-random genetic changes during prolonged culture is a major concern for their use in regenerative medicine and disease modelling. The mechanisms through which genetically variant cells are selected for in culture remain poorly characterized. We have shown that the dominance of variant hPSCs with enhanced growth rates is enhanced through competitive interactions resulting in the elimination of the slower growing loser population. This experiment compares the gene expression of winner (H7v1,12,17q,20q-GFP) and loser (H7v1q) grown either in separate culture or competitively in co-culture together.

Project description:Decipher the direct and indirect targets of human miR-6762-5p by doxycyclin-inducible expression in HeLa cells

Project description:We investigated the transcriptome profile of HEK293T cells transfected with a plasmid encoding 9J10, a peptide isolated in a phenotypic screen from a library of peptides derived from bacterial and archaeal genomes. The peptide was identified in a screen for FOXO3a reactivation and has been shown to interact with 14-3-3 proteins and induce relocalisation of FOXO3a from the cytoplasm to the nucleus. A peptide with a single amino acid mutation does not interact with 14-3-3 and was included as a control. A constitutively active FOXO3a mutant was also included as a control.

Project description:Effects of JMY on gene expression in U2OS under etoposide treatment

Project description:Based on public databases, transcriptome data from NPC (GSE68799) and head and neck cancer (TCGA, HNSC) patients were downloaded, and the differentially expressed RBP-MEX3A was identified through bioinformatic analysis. An MEX3A overexpression model was subsequently established in C666-1 cells. Cell proliferation was assessed using the CCK-8 assay, and apoptosis was analyzed by flow cytometry. Transcriptome sequencing was performed to systematically identify differentially expressed genes (DEGs) and alternative splicing (AS) events induced by MEX3A overexpression.

Project description:Traumatic brain injury (TBI) is a major cause of long-term neurological impairment, with aging amplifying vulnerability and worsening recovery. Older individuals face greater cognitive and motor deficits post-TBI and respond less effectively to treatments, as both aging and TBI independently elevate neuroinflammation and cognitive decline. This study evaluated the therapeutic effects of human adipose-derived stem cell small extra-cellular vesicles (hASC-sEVs) on neurological recovery and neuroinflammation in a mouse model of TBI. Male C57BL/6 mice (3, 15, and 20 months old) underwent controlled cortical impact (CCI) and received intranasal hASC-sEVs 48 h post-injury; control groups received PBS. A dose–response study at 7 days post injury (dpi) identified 20 µg as the optimal therapeutic dose, improving motor function, reducing neuroinflammation, and enhancing neurogenesis. This was followed by a 30-dpi study assessing cognitive function, neuroinflammation, neurogenesis, and proteomic changes in microglia and astrocytes via mass spectrometry. hASC-sEV treatment significantly improved behavioral out-comes and reduced neuroinflammatory markers (GFAP, IBA-1, and MHC-II), with re-duced efficacy observed in older mice. Proteomics revealed that hASC-sEVs reduce in-flammatory proteins (TNF-α, IL-1β, IFNG, CCL2) and modulated mitochondrial dysfunction and reactive oxygen species. These results highlight hASC-sEVs as a promising cell-free therapy for improving TBI outcomes, especially in aging populations.

Project description:Decipher the direct and indirect targets of human miR-6762-5p by doxycyclin-inducible expression in HCT116 cells

Project description:Human mesenchymal stem cell (MSC)-conditioned medium (CM) was previously reported to affect the biology of tumor cells; however, the precise mechanisms remain unclear. Here, we show that MSCs secreted 40- to 100-nm particles, which have the typical characteristics of exosomes, and these MSC-derived exosomes promoted migration of the breast cancer cell line MCF7. To further investigate the effect of MSC-exosomes on MCF7, we analyzed the gene expression profiles of MCF7 treated with or without MSC-exosomes for 24 h. Investigation of whole genome gene expression level changes in breast cancer cell line MCF7 which were treated with or without mesenchymal stem cell-derived exosomes. This study uses total RNA recovered from two samples. One sample is MCF7 treated with PBS for 24 hours and another one is MCF7 treated with mesenchymal stem cell-derived exosomes for 24hours. The ultimate concentration of mesenchymal stem cell-derived exosomes used in this experiment was 400ng/ul.