Project description:Spatial transcriptomic profiling enables precise quantification of gene expression with simultaneous localization of expression profiles onto tissue structures. This new technology promises to improve our understanding of the disease mechanisms. Therefore, there is intense interest in applying these methods in clinical trials or as laboratory developed tests to aid in diagnosis of disease. Before these applications can been more broadly deployed in clinical research and diagnostics, it is necessary to thoroughly understand the technology’s performance in real world conditions. In this study, we vet technical reproducibility, data normalization methods and assay sensitivity of digital spatial profiling, one widely used spatial transcriptomic methodology. Using clinically sourced human tissue specimens, we find that digital spatial profiling exhibits high rigor and reproducibility. Our approach lays the foundation for incorporation of digital spatial profiling methods into clinical workflows.

Project description:Spatial transcriptomic profiling enables precise quantification of gene expression with simultaneous localization of expression profiles onto tissue structures. This new technology promises to improve our understanding of the disease mechanisms. Therefore, there is intense interest in applying these methods in clinical trials or as laboratory developed tests to aid in diagnosis of disease. Before these applications can been more broadly deployed in clinical research and diagnostics, it is necessary to thoroughly understand the technology’s performance in real world conditions. In this study, we vet technical reproducibility, data normalization methods and assay sensitivity of digital spatial profiling, one widely used spatial transcriptomic methodology. Using clinically sourced human tissue specimens, we find that digital spatial profiling exhibits high rigor and reproducibility. Our approach lays the foundation for incorporation of digital spatial profiling methods into clinical workflows.

Project description:We applied a spatially resolved, high-dimensional transcriptomic approach to study MPM morpho-logical evolution. 139 regions across 8 biphasic MPMs (B-MPMs) were profiled using the GeoMx™Digital Spatial Profiler and Cancer Transcriptome Atlas to compare epithelioid and sarcomatoid components transcriptional profile and reconstruct the positional context of transcriptional activities and the spatial topology of MPM cells interactions.

Project description:CD73 marks cells with increased mesenchymal morphologies and phenotypes. To understand the transcriptional differences in CD73+ and - cells, we performed bulk RNA-seq on the CD73 sorted cells. In this study, we investigated if and how transcriptional heterogeneity of EwS cells contributes to heterogeneity of tumor phenotypes in vivo. Digital spatial profiling and human whole transcriptome analysis interrogated transcriptomic heterogeneity in EwS CHLA10 cell line xenografts.

Project description:This is for Rigor and Reproducibility study to demonstrate the reproducibility of AFS SOP for EV separation, RNA isolation, and RNA analysis by using saliva samples from healthy individuals. Blinded saliva samples have been processed by two independent AFS operators for EV separation and subjected to miRNA-seq analysis. EV-associated miRNA seqeunces were used as a monitoring tool for Rigor and Reproducibility of AFS process between operators.

Project description:GeoMx digital spatial profiling on biopsies of triple negative breast cancer patients

Project description:SWATH analysis of human kidney tissues to generate a digital map representing the proteome of biopsy level clinical samples.

Project description:Spatially resolved transcriptomic profiling: an experimental comparison of GeoMx Digital Spatial Profiling and Visium CytAssist spatial transcriptomics in three cancer types (GeoMx)

Project description:The relationship of SARS-CoV-2 lung infection and severity of pulmonary disease is not fully understood. We analyzed specimens from 24 autopsies from patients who succumbed to SARS-CoV-2 infection using a combination of different RNA and protein analytical platforms to characterize inter- and intra- patient heterogeneity of pulmonary virus infection. There was a spectrum of high and low virus cases that was associated with duration of disease and activation of interferon pathway genes. Using a digital spatial profiling platform, the intra-pulmonary spatial heterogeneity of the virus corresponded to focal expression of interferon response genes and association with immune checkpoint genes In this dataset, we capture the GeoMx DSP protein profiling work done in conjunction with this study. The files here represent SARS-CoV-2 infected rapid autopsy patients (n = 6) which were profiled with the following nanoString GeoMx protein panels: Immune Cell Profiling Core v1.0, IO Drug Target Module v1.0, Immune Cell Typing Module v1.0, Immune Activation Status Module v1.0, PI3K/AKT Signaling Module v1.0, MAPK Signaling Module v0.9, and Cell Death Module v0.9. These panels were then read out using Nanostring nCounter quantification following standard HybCode panel profiling protocols. For access to high resolution (single channel, composite, or ROI) images please contact the corresponding author or GeoMxSupport@nanostring.com. RNA sequencing data and results for bulk RNA profiling can be accessed in study GSE150316.

Project description:We previously showed that the rupture of Bowman’s capsule (BC) promotes the progression of crescent glomerulonephritis by enhancing CD8+ T cell entry into the glomeruli. In the present study, we utilized digital spatial profiling to simultaneously profile the altered mRNA transcript and protein abundances in the glomerular and periglomerular areas of biopsy samples of ANCA-associated glomerulonephritis. The paraffin-embedded biopsy samples were stained with Collagen IV, CD45, and Syto13 to distinguish the glomeruli with crescent formation but intact BC, with focal BC rupture, and with extensive rupture of BC and glomeruli without crescent formation and leukocytes infiltration in ANCA-GN. By assessing multiple discrete glomerular areas, we found that the transcript expression level of secreted phosphoprotein 1and its receptor CD44 were upregulated significantly in the glomeruli with more severe ruptures of BC, and their expression levels correlated positively with the fibrotic markers. We also found that 1) both alternative and classic complement pathways were activated in the glomeruli from patients with ANCA-GN; 2) M1 macrophages involved mostly in the early stage of BC rupture while M2 macrophages were involved in the late stage and may contribute to the fibrosis process of the crescents, and 3) apoptosis is likely the mechanism mediating the loss of glomerular cells in ANCA-GN. Our results demonstrate that digital spatial profiling allows the comparative analysis of mRNA and protein profiles in the individual glomeruli affected differently by the disease processes and to identify potential novel mechanisms in patients with ANCA-GN.