Project description:Integration of transcriptome with miRNome and methylome data aiming to elucidate role of epigenetics on gene expression in head and neck squamous cell carcinoma.

Project description:Cell invasion and metastasis is a multi-step process, initiated by the acquisition of a migratory phenotype and the ability to move through differing and complex 3D extracellular environments. In this study we set out to identify the parameters required for invasive cell migration in 3D environments. Cells interact with the extracellular matrix via transmembrane-spanning integrin adhesion complexes. We establish a technique to determine the composition of cell-matrix adhesion complexes in invasive breast cancer cells in 3D matrices and on 2D surfaces and identify an interaction complex that is enriched in 3D adhesion sites and required for invasive migration.

Project description:HPV positive head and neck cancer (HNC) are thought to have different etiology from HPV-unrelated HNC. There are indications that HPV positive HNC have better survival and that treatment options could be optimized in this set of tumours. In this study, we sought to evaluate miRNA profiles in the different groups of HNC based on cancer subsite (oral or oropharyngeal) and HPV presence (positive/negative; based on both viral DNA and RNA presence) all in comparison with normal tonsillar tissue from approximately aged subjects. From 61 enrolled patients, 22 were selected for NGS small RNA sequencing using Illumina small RNA library preparation kits and sequencing reagents on Nextseq 500 machine. Only samples with RIN >= 7 were included. manufacturers protocol was followed for library preparation. Indexing was done with indexes 1-22, and final libraries were normalizes to same amount after QBit measurement. Sequencing was done on Nextseq 500 machine and subsequent analyisis in Basespace (illumina). Raw fastq files were subsequently additionally trimmed of adapter sequences using FastQc Basespace app and differential expression evaluated with SmallRNA app. Customized plots were obtained after importing SmallRNA app calculated counts to DeSeq2 package in R and reanalysis therein.

Project description:In the context of breast cancer metastasis study, we have shown in an in vitro model of cell migration that IGDQ-exposing (IsoLeu-Gly-Asp-Glutamine type I Fibronectin motif) monolayers (SAMs) on gold sustain the adhesion of MDA-MB-231 cells by triggering Focal Adhesion Kinase by activating integrins. Such tunable scaffolds are used to mimic the extracellular environment, inducing and controlling cell migration towards an anisotropic surface. The observed migratory behavior induced by the IGDQ-bearing peptide gradient along the surface suggests the presence of cell subpopulations: “stationary” or a “migratory” phenotype. We focused on the integrins α5(β1) and (αv)β3, already known to be implicated in cell migration. To this aim, a whole proteomic analysis was performed in beta 3 integrin (ITGB3) or alpha 5 integrin (ITGA5) knock-down MDA-MB-231, in order to highlight the pathways implied into the integrin-dependent cell migration. Our results showed that i) ITGB3 depletion influenced ITGA5 mRNA expression, ii) ITGB3 and ITGA5 were both necessary for IGDQ-mediated directional single cell migration, iii) integrin (αv)β3 was activated by IGDQ fibronectin type I motif and iv) co-regulation of retrograde transport of ITGB3 by ITGA5 is potentially necessary for directional IGDQ-mediated cell migration.

Project description:For the studies of cell migration in various micro-environments, self-assembled monolayer surfaces presenting adhesive ligand, RGD peptide, were used for the assay. Presentation of RGD ligands was based on the immobilization reaction with alkanethiols on a gold surface. There were differences in cell morphology and migration according to the ligand affinity (linear vs. cyclic RGD) and manner of ligand presentation (dynamic vs. non-dynamic). In dynamic surface experiment, cells initially grown on the fibronectin-coated patterns were exposed to either linear or cyclic RGD while in non-dynamic surface experiment cells interacted with the immobilized RGD from the beginning. Goal was to compare how the affinity and spatio-temporal exposure of ligand affect the overall transcriptional profiling. Five conditioned surfaces were prepared by chemical treatment for cell culture: Fibronectin, Dynamic linear RGD, Dynamic cyclic RGD, Non-dynamic linear RGD, and Non-dynamic cyclic RGD surfaces. Reference: cells cultured in standard tissue culture flasks. Biological replicates: triplicates for each experiment (each surface was 1.25 cm x 1.25 cm and three surfaces were used for each condition). When reached 70-80% of confluency, cells from the triplicates were pooled and harvested for RNA extraction. Hybridization replicates: 4 replicates for each condition.

Project description:Metastasis poses a major challenge in cancer management, including EML4-ALK-rearranged non-small cell lung cancer (NSCLC). As cell migration is a critical step during metastasis, we assessed the anti-migratory activities of several clinical ALK inhibitors in NSCLC cells and observed differential anti-migratory capabilities despite similar ALK inhibition, with brigatinib displaying superior anti-migratory effects over other ALK inhibitors. Applying an unbiased in-situ mass spectrometry-based chemoproteomics approach, we determined the proteome-wide target profile of brigatinib in EML4-ALK+ NSCLC cells. Dose-dependent and cross-competitive chemoproteomics suggested MARK2 and MARK3 as relevant brigatinib kinase targets. Functional validation showed that combined pharmacological inhibition or genetic modulation of MARK2/3 inhibited cell migration. Consistently, brigatinib treatment induced inhibitory YAP1 phosphorylation downstream of MARK2/3. Collectively, our data suggest that brigatinib exhibits unusual cross-phenotype polypharmacology as despite similar efficacy for inhibiting EML4-ALK-dependent cell proliferation as other ALK inhibitors, it more effectively prevented migration of NSCLC cells due to co-targeting of MARK2/3.

Project description:This 121-node Boolean regulatory network model that synthesizes mechanosensitive signaling that links anchorage and matrix stiffness to proliferation and migration, and cell density to contact inhibition. It can reproduce anchorage dependence and anoikis, detachment-induced cytokinesis errors, the effect of matrix stiffness on proliferation, and contact inhibition of proliferation and migration by two mechanisms that converge on the YAP transcription factor. In addition, this model offers testable predictions related to cell cycle-dependent sensitivity to anoikis, the molecular requirements for abolishing contact inhibition, substrate stiffness-dependent expression of the catalytic subunit of PI3K, heterogeneity of migratory and non-migratory phenotypes in sub-confluent monolayers, and linked inhibition but semi-independent induction of proliferation versus migration as a function of cell density and mitogenic stimulation. The model is an extended version of the growth signaling, cell cycle and apoptosis model published in Sizek et al, PLoS Comp. Biol. 15(3): e1006402, 2019.

Project description:The evolution of migratory populations of cells within solid tumours represents a critical stage during cancer metastasis. We have previously reported the enhanced migratory properties of one such population, marked by the expression of CD66, within cervical cancers. However, it is not clear what mechanisms drive such migratory populations, and how these cells would retain a “memory” of initial migration-inducing cues during metastasis. Here, we describe the role of a Suv39H1-low heterochromatin state as a driver of cervical cancer migratory populations. Cervical cancer cells were sorted based on migratory ability in vitro. These migrated populations show low Suv39H1, and Suv39H1 knockdown enhances cell migration. Using histopathology to examine clinical carcinoma progression, initial progression showed expansion of a proliferative Suv39H1high population, followed by the emergence of a sarcomatoid, migratory Suv39H1low cell population in advanced stages. Additionally, meta-analysis of TCGA data revealed that low tumoural Suv39H1 also correlated with lower patient survival, and with expression signatures of migration, TGF-β signalling, and links with a CD66 cell signature. Lastly, using RNA-Seq and H3K9me3 ChIP-Seq on migrated populations in vitro, it was observed that these populations show Suv39H1-linked transcriptome alterations and broad scale H3K9me3 remodelling. This Suv39H1-linked heterochromatin regulation could explain plasticity in migratory and metastatic populations, and allows for a “memory” of migration inducing cues, through metastable changes in chromatin conformation. The understanding of such regulatory mechanisms in migratory populations may prove valuable in efforts to develop anti-metastatic strategies.

Project description:The evolution of migratory populations of cells within solid tumours represents a critical stage during cancer metastasis. We have previously reported the enhanced migratory properties of one such population, marked by the expression of CD66, within cervical cancers. However, it is not clear what mechanisms drive such migratory populations, and how these cells would retain a “memory” of initial migration-inducing cues during metastasis. Here, we describe the role of a Suv39H1-low heterochromatin state as a driver of cervical cancer migratory populations. Cervical cancer cells were sorted based on migratory ability in vitro. These migrated populations show low Suv39H1, and Suv39H1 knockdown enhances cell migration. Using histopathology to examine clinical carcinoma progression, initial progression showed expansion of a proliferative Suv39H1high population, followed by the emergence of a sarcomatoid, migratory Suv39H1low cell population in advanced stages. Additionally, meta-analysis of TCGA data revealed that low tumoural Suv39H1 also correlated with lower patient survival, and with expression signatures of migration, TGF-β signalling, and links with a CD66 cell signature. Lastly, using RNA-Seq and H3K9me3 ChIP-Seq on migrated populations in vitro, it was observed that these populations show Suv39H1-linked transcriptome alterations and broad scale H3K9me3 remodelling. This Suv39H1-linked heterochromatin regulation could explain plasticity in migratory and metastatic populations, and allows for a “memory” of migration inducing cues, through metastable changes in chromatin conformation. The understanding of such regulatory mechanisms in migratory populations may prove valuable in efforts to develop anti-metastatic strategies.

Project description:Abstract/Project overview Tumour recurrence can be influenced by the mutational status of a tumour but also how the tumour responds to therapy. Whilst activation of Type 1 interferon signalling is a hallmark of how cells respond to viral infection, in cancer cells, multiple stresses are known to activate this same response. In this study we have evaluated for the first time the changes in the interferon response induced by culturing prostate cancer cells under sphere-forming conditions and following irradiation. We identify that both stresses induced a selection/reprogramming towards a tumour-initiating/stem-like cell population That are known to be highly adaptable and have been shown to be resistant to multiple therapies. We report a conserved upregulated transcript profile for both conditions that is tightly associated with therapeutic resistance and cell survival in vitro and in vivo. The profile includes and is regulated by the Type 1 interferon master regulator IRF7, which when targeted delays tumour re-growth following irradiation. Understanding the impact of radiotherapy on the evolution of treatment resistant prostate cancer is critical for selecting effective treatment combinations. Our first-in-field data define irradiation as a selection pressure for a multi-treatment resistant, interferon response-dependent biology and further show that these cells acquire enhanced sensitivity to a combination of IKKε/TBK1 and MEK inhibition. Design of the sequencing experiment/Methods The RNA-seq experiment within this study was designed to identify radiation-responsive and IRF7-responsive genes in a prostate cancer cell-line, PC3. To do so we generated stable IRF7 knockdown derivatives using shRNA (referred to as 'IRF7' in the files) and scrambled controls (referred to as 'scr'). We subjected 5 million cells per condition to 1,2 or 3 doses of irradiation or mock irradiation with 24 hour or 72 hour recovery periods interspersed (annotated for example as '24-1', one dose with a 24-hour recovery period). At 24 hours or 72 hours after the final treatment we harvested cells and extracted total RNA using Trizol. To assess the yield and integrity of mRNA, 2ul of each sample was taken for analysis on a Fragment Analyzer Automated CE System (Advanced Analytical) and smear analysis run using a DNF-473 Standard Sensitivity NGS Fragment Analysis Kit (Advanced Analytical). Total RNA (1ug) was processed to first-stranded cDNA using the TruSeq Stranded mRNA Library Prep Kit (Illumina), following the manufacturer’s instructions for the low-throughput protocol. First-stranded cDNA samples were processed to barcoded cDNA libraries using a Diagenode IP-Star, according to the manufacturer’s instructions for Illumina TruSeq library prep. Resulting libraries were PCR-amplified to incorporate unique indices and cleanup performed using AMPure XP Beads (Becman Coulter) according to Truseq LT protocol. Resulting libraries were quantified, pooled and sequenced on a Nextseq 500 paired end 2x75Bp run. FASTQ files generated were de-multiplexed and adapter trimmed in the Illumina basespace and aligned to hg19 using Bowtie2 with default settings in the Basespace RNA-seq Express app. Resulting bam alignments files were exported and aligned to Refseq transcriptome annotation in Partek Genomic Suite and annotated transcripts with mapped sequence reads were quantified for relative expression in each sample and gene level RPKM (Reads Per Kilobase of transcript per Million mapped reads) counts generated for downstream analysis.