Project description:Gene expression profile at single nucleus level of liver cells from the healthy and diseased donors

Project description:Single cell RNA sequencing for normal and diseased mouse femoral artery

Project description:Fewer than 50% of patients develop vascular and valvular calcification, implying differential pathogenesis. Disease stage-specific proteomics (normal/non-diseased/fibrotic/calcified areas) was performed on human carotid artery specimens from autopsy, carotid endarterectomy specimens, aortic valves from heart transplant recipients, and stenotic aortic valves.

Project description:Abstract The liver is the largest solid organ and a primary metabolic hub. In recent years, intact cell nuclei were used to perform single-nuclei RNA-seq (snRNA-seq) for tissues difficult to dissociate and for flash-frozen archived tissue samples to discover unknown and rare cell sub-populations. In this study, we performed snRNA-seq of a liver sample to identify sub-populations of cells based on nuclear transcriptomics. In 4,282 single nuclei we detected on average 1,377 active genes and we identified seven major cell types. We integrated data from 94,286 distal interactions (p<0.05) for 7,682 promoters from a targeted chromosome conformation capture technique (HiCap) and mass spectrometry (MS) proteomics for the same liver sample. We observed a reasonable correlation between proteomics and in silico bulk snRNA-seq (r=0.47) using tissue-independent gene-specific protein abundancy estimation factors. We specifically looked at genes of medical importance. The DPYD gene is involved in the pharmacogenetics of fluoropyrimidines toxicity and some of its variants are analyzed for clinical purposes. We identified a new putative polymorphic regulatory element, which may contribute to variation in toxicity. Hepatocellular carcinoma (HCC) is the most common type of primary liver cancer and we investigated all known risk genes. We identified a complex regulatory landscape for the SLC2A2 gene with 16 candidate enhancers. Three of them harbor somatic motif breaking and other mutations in HCC in the Pan Cancer Analysis of Whole Genomes dataset and are candidates to contribute to malignancy. Our results highlight the potential of a multi-omics approach in the study of human diseases.

Project description:Single nuclei sequencing in wild-type and Cox10-/- regenerating liver.

Project description:Single-cell RNA-sequencing of adult human prostates and urethra (normal and diseased)

Project description:Single nuclei RNAseq from non-tumour and HCC human liver tissues

Project description:Single-cell transcriptomic profiling reveals distinct mechanical responses between normal and diseased tendon progenitor cells

Project description:We developed an optimized protocol for nuclei isolation from small core needle biosies taken from both healthy and diseased human kidney samples

Project description:We report single nuclei sequencing in wild-type and Cox10-/- regenerating mouse livers.