Project description:The assay for transposase-accessible chromatin using sequencing (ATAC-Seq) was applied to investigate the TO-associated chromatin alteration(s) appeared in tracheobronchial basal cells (TBBC). ATAC-Seq data was generated on cultured TBBCs derived from lesion regions and patient-matched lesion-free regions of two patients with Stage I and Stage III disease respectively, in parallel with control TBBCs from two normal donors. Six samples were spontaneously divided into two main groups (TO and non-TO) based on both differentiation phenotype and clustering results. The relationship between chromatin accessibility and future gene expression during basal stem cell differentiation was analyzed in combination with RNA-Seq. We identified 222914 increased chromatin accessible regions whilst 6406 decreased chromatin accessible regions in TO cells compared to non-TO cells. Among 641 loci with TO-related increased accessibility at the promoter region, 22 were associated with up-regulated gene expression (cutoff at fold change>2, p<0.05), and out of which, 18 exhibited enhanced transcriptional induction during basal cell differentiation. On the other hand, there were 459 loci with decreased accessibility at the promoter region in TO, among which, 107 were associated with down-regulated expression (cutoff at fold change<-2, p<0.05) and 58/107 exhibited transcriptional suppression during differentiation. Our study suggests that chromatin remodeling may provide an explanation for the sustained basal cell malfunction in TO pathogenesis.

Project description:Tracheobronchial basal cells have been found to undergo persistent functional changes, via acting as a local repository for BMP signaling elements, thereby play a driven role in TO pathogenesis. Although it would be unlikely to fundamentally correct cell fate alteration, because of epigenetic changes occurred, partial restoration of epithelial physiology may be achieved by braking self-amplifying BMP signaling loop. To investigate the effect of BMP inhibition on TO-derived basal cells, ALI structures derived from routine differentiation without Noggin treatment and modified differentiation with constant BMP inhibition were subjected to RNA-sequencing. While a differentiation pattern of 3538 genes up-regulated and 2109 genes down-regulated (>2-fold or <-2-fold, p<0.05) upon routine differentiation of a typical TO-derived pedigree, differentiation in the presence of BMP inhibition resulted in an up-regulation of 4101 genes and down-regulation of 2337 genes (equivalent cutoff as above). Among those 1554 genes with significantly increased expression on ALI under BMP inhibition, a major enrichment shown up in categories related to cilium assembly and function, and an up-turned Smoothened signaling were detected. In contrast, 482 genes with decreased expression under BMP inhibition were mainly fallen into categories related to biomineral tissue development. These data suggest that constant repression of local BMP signaling has a favorable effect, to some extent, on functional rescue of pathological basal cells.

Project description:Normal human bronchial epithelial (NHBE) cells cultured in an air-liquid interface (ALI) system form a polarized, pseudostratified epithelium composed of basal, ciliated and goblet cells that closely resemble the in vivo airway epithelium structure. ALI cultures of NHBE cells provide a unique in vitro system to investigate airway epithelial biology, including developmental, structural and physiologic aspects. In this study, we wanted to investigate mRNA expression patterns during airway epithelium differentiation. By using microarrays, we studied the changes in expression of mRNAs in normal human bronchial epithelial cells as they differentiate from an undifferentiated monolayer to a differentiated pseudostratified epithelium after 28 days of air-liquid interface (ALI) culture, when epithelial cells differentially express basal, ciliated and goblet cell markers. Normal human bronchial epithelial cells were cultured in an air-liquid interface (ALI) system and harvested at three different time-points: subconfluent, confluent and day 28 of ALI. Samples were processed for total RNA extraction and hybridization on Affymetrix microarrays. All the experiments were performed by triplicate.

Project description:Normal human bronchial epithelial (NHBE) cells cultured in an air-liquid interface (ALI) system form a polarized, pseudostratified epithelium composed of basal, ciliated and goblet cells that closely resemble the in vivo airway epithelium structure. ALI cultures of NHBE cells provide a unique in vitro system to investigate airway epithelial biology, including developmental, structural and physiologic aspects. In this study, we wanted to investigate mRNA expression patterns during airway epithelium differentiation. By using microarrays, we studied the changes in expression of mRNAs in normal human bronchial epithelial cells as they differentiate from an undifferentiated monolayer to a differentiated pseudostratified epithelium after 28 days of air-liquid interface (ALI) culture, when epithelial cells differentially express basal, ciliated and goblet cell markers.

Project description:Normal human bronchial epithelial (NHBE) cells cultured in an air-liquid interface (ALI) system form a polarized, pseudostratified epithelium composed of basal, ciliated and goblet cells that closely resemble the in vivo airway epithelium structure. ALI cultures of NHBE cells provide a unique in vitro system to investigate airway epithelial biology, including developmental, structural and physiologic aspects. MicroRNAs (miRNAs) are short, single-stranded, non-coding RNAs of 20-23 nucleotides that down-regulate gene expression by either inducing degradation of target mRNAs or impairing their translation. They are phylogenetically well conserved, which probably implies an important role of miRNAs in biological processes. In this way, we wanted to shed some light on miRNA specific roles and the relationship with their mRNA targets during airway epithelium differentiation. By using microarrays, we studied the changes in expression of microRNAs in normal human bronchial epithelial cells as they differentiate from an undifferentiated monolayer to a differentiated pseudostratified epithelium after 28 days of air-liquid interface (ALI) culture, when epithelial cells differentially express basal, ciliated and goblet cell markers. Normal human bronchial epithelial cells were cultured in an air-liquid interface (ALI) system and harvested at three different time-points: subconfluent, confluent and day 28 of ALI. Samples were processed for total RNA (including small RNAs) extraction and hybridization on Affymetrix microarrays. All the experiments were performed by triplicate.

Project description:The regeneration of the airway mucociliary epithelium involves several sequential events including migration, proliferation, polarization and final differentiation (i.e ciliogenesis). The airway mucociliary epithelium is consituted of three main cell types : ciliated cells, secretory cells and basal cells. We used microRNA microrrays to investigate the signature of microRNA during the four step of regeneration of the airway epithelium. Four time points (ALI-D0, ALI-D7, ALI-D14, ALI-D21) of regeneration of the airway epithelium for 3 donors.

Project description:The regeneration of the airway mucociliary epithelium involves several sequential events including migration, proliferation, polarization and final differentiation (i.e ciliogenesis). The airway mucociliary epithelium is consituted of three main cell types : ciliated cells, secretory cells and basal cells. We used microRNA microrrays to investigate the signature of microRNA during the four step of regeneration of the airway epithelium. Four time points (ALI-D0, ALI-D7, ALI-D14, ALI-D21) of regeneration of the airway epithelium for 3 donors.

Project description:To investigate how SMAD4 mutations associated with Myhre syndrome impact SMAD4 protein levels, activation and physiological functions in patient derived nasal epithelial cells. We derived primary nasal basal stem cells from inferior turbinate brushings of healthy subjects and Myhre syndrome patients (SMAD4-Ile500Val, Arg496Cys, Ile500Thr). After ALI differentiation, RNA was collected from healthy nasal basal epithelial cells and Myhre syndrome-epithelial cells to perform mRNA Deep sequencing. We then performed gene expression profiling analysis using data obtained from RNA-seq.

Project description:Normal human bronchial epithelial (NHBE) cells cultured in an air-liquid interface (ALI) system form a polarized, pseudostratified epithelium composed of basal, ciliated and goblet cells that closely resemble the in vivo airway epithelium structure. ALI cultures of NHBE cells provide a unique in vitro system to investigate airway epithelial biology, including developmental, structural and physiologic aspects. MicroRNAs (miRNAs) are short, single-stranded, non-coding RNAs of 20-23 nucleotides that down-regulate gene expression by either inducing degradation of target mRNAs or impairing their translation. They are phylogenetically well conserved, which probably implies an important role of miRNAs in biological processes. In this way, we wanted to shed some light on miRNA specific roles and the relationship with their mRNA targets during airway epithelium differentiation. By using microarrays, we studied the changes in expression of microRNAs in normal human bronchial epithelial cells as they differentiate from an undifferentiated monolayer to a differentiated pseudostratified epithelium after 28 days of air-liquid interface (ALI) culture, when epithelial cells differentially express basal, ciliated and goblet cell markers.

Project description:We have previously reported on two brothers, PM and SM, who carry identical compound heterozygous PRKN mutations but present with very different clinical Parkinson’s disease (PD) phenotypes, with PM, but not SM having been diagnosed with early onset disease. The occurrence of juvenile cases demonstrates that PD is not necessarily an age-associated disease, indeed evidence is accumulating that there is a developmental component to PD pathogenesis. We hypothesize that additional genetic modifiers, potentially including genetic loci relevant to mesencephalic dopamine neuron development may play a role. We differentiated human-induced pluripotent stem cells (hiPSCs) derived from SM and PM into mitotically active mesencephalic neural precursor cells and early postmitotic dopaminergic neurons and performed whole exome sequencing, transcriptomic- and metabolomic analyses. No significant differences in canonical markers of differentiation were observed between SM and PM. Yet our transcriptomic analysis revealed a significant down regulation of three neurodevelopmentally relevant cell adhesion molecules, CNTN6, CNTN4 and CHL1 in PM- compared to SM cultures on days 11 and 25 of differentiation. In addition, several HLA genes, known to play a role in neurodevelopment, independent of their well-established function in immunity, were differentially regulated in PM and SM developing dopamine neurons. EN2, a transcription factor crucial for mesencephalic dopamine neuron development, was also differentially regulated. We further observed differences in cellular processes relevant to dopamine homeostasis. Lastly, our whole exome sequencing, transcriptomics and metabolomics data of SM and PM neurons revealed differences in GSH homeostasis, the dysregulation of which has been associated with PD.