Project description:We did bulk RNA sequencing in newborn cystic fibrosis (CF) and non-CF pig kidney. We compared kidney gene expression profiling between non-CF and CF pigs. RNA sequencing results showed that there is not significant difference between non-CF and CF in terms of gene expression, suggesting that CFTR knockout does not affect kidney development in newborn pigs.
Project description:Cystic fibrosis (CF), a genetic disorder, is characterized by chronic lung disease. Small non-coding RNAs are key regulators of gene expression and participate in various processes, which are dysregulated in CF; however, they remain poorly studied. Here, we determined the complete microRNAs (miRNAs) expression pattern in three CF ex-vivo models. The miRNA profiles of air-liquid interface cultures of airway epithelia (bronchi, nasal cells, and nasal polyps) samples from patients with CF and non-CF controls were obtained by deep sequencing. Compared with non-CF controls, several miRNAs were deregulated in CF samples, for instance miR-181a-5p and the miR-449 family were upregulated. Moreover, mature miRNAs often showed variations (i.e., isomiRs) relative to their reference sequence, such as miR-101, suggesting that miRNAs consist of heterogeneous repertoires of multiple isoforms with different effects on gene expression. Analysis of miR-181a-5p and miR-101-3p roles indicated that they regulate the expression of WISP1, a key component of cell proliferation/migration programs. We showed that miR-101 and miR-181a-5p participated in aberrant recapitulation of wound healing programs by controlling WISP1 mRNA and protein level. Our miRNA expression data bring new insights into CF physiopathology and define new potential therapeutic targets in CF
Project description:Hepatobiliary disease causes significant morbidity in people with cystic fibrosis (CF), yet this problem remains understudied. We previously found that newborn CF pigs have microgallbladders with significant luminal obstruction in the absence of infection and inflammation. In this study, we sought to better understand the early pathogenesis of CF pig gallbladder disease. We hypothesized that loss of CFTR would impair gallbladder epithelium anion/liquid secretion and increase mucin production. By single cell RNA sequencing, we identified a single epithelial cell population that co-expressed CFTR, MUC5AC, and MUC5B. By bulk tissue RNA sequencing, there was no significant difference in the epithelial expression of gel-forming mucins between non-CF and CF pig gallbladders. Also, there were minimal transcriptional changes in CF relative to non-CF.
Project description:We performed shallow whole genome sequencing (WGS) on circulating free (cf)DNA extracted from plasma or cerebrospinal fluid (CSF), and shallow WGS on the tissue DNA extracted from the biopsy in order to evaluate the correlation between the two biomaterials. After library construction and sequencing (Hiseq3000 or Ion Proton), copy number variations were called with WisecondorX.
Project description:In this study, we investigated whether miRNA deregulation might underlie the functional abnormalities of cystic fibrosis (CF) macrophages. To this aim we performed miRNA profiling in macrophages from CF and non-CF macrophages. This led to the identification of a panel of differentially expressed miRNAs in CF macrophages compared to non-CF cells.
Project description:In vitro cultures of primary human airway epithelial cells (hAECs) grown at air-liquid interface have become a valuable tool to study airway biology and physiology and for drug discovery in lung diseases such as Cystic Fibrosis (CF). An increasing number of different differentiation media, are now available, making comparison of data between studies difficult. Here we investigated the impact of two common differentiation media on the transcriptome features of CF and non-CF epithelia. RNA-sequencing analysis found 20330 and 19052 transcripts in CF and NCF epithelia, respectively and revealed that 1346 genes were significantly regulated in CF cells compared to 922 in NCF cells.