Project description:The spatial transcriptomic landscape of fibrosing ILDs

Project description:Fibrosing interstitial lung diseases (ILDs) encompass a diverse range of scarring disorders that lead to progressive lung failure. Previous gene expression profiling studies focused on idiopathic pulmonary fibrosis (IPF) and bulk tissue samples. We employed digital spatial profiling to gain new insights into the spatial resolution of gene expression across distinct lung microenvironments (LMEs) in IPF, chronic hypersensitivity pneumonitis (CHP) and non-specific interstitial pneumonia (NSIP). We identified differentially expressed genes between LMEs within each condition, and across histologically similar regions between conditions. Uninvolved areas in IPF and CHP were remarkably distinct from normal controls, and displayed potential therapeutic targets. Hallmarks LMEs of each condition retained a distinct gene signature, but these could not be reproduced in matched lung tissue samples. Based on these gene expression signatures and unsupervised clustering, we grouped previously unclassified ILD cases into NSIP or CHP. Lastly, we characterized a gene expression pattern associated with poor outcome . Overall, our work uniquely dissects gene expression profiles between LMEs within and across different types of fibrosing ILDs. This new spatial transcriptomics approach has the potential to reclassify unclassifiable cases, to qualify the transcriptional relevance of smaller biopsies for clinical use, and to predict outcome at the time of diagnosis.

Project description:Transcriptomic analysis of frontal fibrosing alopecia

Project description:Spatial transcriptomic reveals the cellular landscape of bladder cancer

Project description:Spatial Transcriptomic Landscape of Canine Oral Squamous Cell Carcinoma

Project description:The cellular diversity of stromal compartment within the tumor microenvironment might change dynamically as tumors evolve that allowing distant dissemination of tumor cells and informing the treatment options. Importantly, the localization of cells in tumor microenvironment indicates the biological function of cells. Thus, we used spatial transcriptomic to reveal the cellular landscape and corresponding cellular localization in bladder cancer.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:To study how targeting CMTM6 inCRCs influences the transcritome. Control MC38 and CMTM6-deficient MC38 were subjected to spatial transcriptomic profiling with the NanoString GeoMx DSP

Project description:To study how targeting Glut1 in CAFs influences the transcritome of adjacent cancer cells, MC38 adjacent to control CAFs and Glut1-deficient CAFs were subjected to spatial transcriptomic profiling with the NanoString GeoMx DSP

Project description:To study how targeting CMTM6 in CRCs influences the transcritome. Adjacents CAFs of Control MC38 and CMTM6-deficient MC38 were subjected to spatial transcriptomic profiling with the NanoString GeoMx DSP