Your search keyword '"Sami Saarenpää"' showing total 2 results

1. Spatial Transcriptomics to define transcriptional patterns of zonation and structural components in the liver

Author

Franziska Hildebrandt, Alma Andersson, Sami Saarenpää, Ludvig Larsson, Noémi Van Hul, Sachie Kanatani, Jan Masek, Ewa Ellis, Annelie Mollbrink, Emma R. Andersson, Joakim Lundeberg, Johan Ankarklev, and Antonio Barragan

Subjects

Spatial transcriptomics, zonation, rna sequencing, liver

Abstract

Reconstruction of spatial heterogeneity through single-cell transcriptional profiling has greatly advanced our understanding of the spatial liver transcriptome in recent years. However, global transcriptional differences across lobular units remain elusive in physical space. Here, we implement Spatial Transcriptomics to perform global transcriptomic analysis across sectioned liver tissue. We confirm that the heterogeneity in this complex tissue is predominantly determined by lobular zonation. By introducing novel computational approaches, we enable transcriptional gradient measurements between tissue structures, including several lobules in a variety of orientations. Further, our data suggests the presence of previously transcriptionally uncharacterized structures within liver tissue, contributing to the overall spatial heterogeneity of the organ. This study demonstrates how comprehensive spatial transcriptomic technologies can be used to delineate extensive spatial gene expression patterns in the liver, indicating its future impact for studies of liver function, development, and regeneration as well as being an asset in pre-clinical and clinical pathology. This repository contains original data such as count matrices, spot coordinate files, Hematoxylin &Eosin stained images, vein-masks, etc.Sample 1 to sample 3 refers to the individual ST experiments performed in this study. Sample 1 consists of 3 sections of the murine caudate lobe. Sample 2 consists of 4 sections of the right lobe, of which to were excluded for analysis. Sample 3 consists of 5 sections of the caudate lobe, of which two were excluded for analysis. These folders contain input data for the R markdown script, which can be found in this GitHub repository:https://github.com/almaan/ST-mLiver. The Hepaquery folder contains all data necessary to reproduce the results of the study and instructions on how to install the python package and reproduce the data of this study can also be found in the same GitHub repository (https://github.com/almaan/ST-mLiver). The folder termed "Immunofluorescence" contains all original images from the orthogonal validations of vein types (Supplementary Figure 22.1-22.2) in "Veins" and cell count estimations "Celltypes" by immunostaining. The Celltypes folder contains a subfolder "manual counting", with the randomly selected spots after overlaying 100 µm spots on the images (Supplementary figure 21). &nbsp

Published

2020

2. Spatial Transcriptomics to define transcriptional patterns of zonation and structural components in the mouse liver

Author

Noémi Van Hul, Sachie Kanatani, Ewa Ellis, Ludvig Larsson, Emma Andersson, Jan Masek, Alma Andersson, Sami Saarenpää, Joakim Lundeberg, Annelie Mollbrink, Franziska Hildebrandt, Johan Ankarklev, and Antonio Barragan

Subjects

Erythroblasts, Kupffer Cells, Neutrophils, Spatial Transcriptomics, Science, Cell- och molekylärbiologi, General Physics and Astronomy, Computational biology, Biology, liver, General Biochemistry, Genetics and Molecular Biology, Article, Transcriptome, Genetic Heterogeneity, Mice, Genome-wide analysis of gene expression, zonation, Liver tissue, Gene expression, Animals, rna sequencing, skin and connective tissue diseases, Transcriptomics, B-Lymphocytes, Multidisciplinary, Regeneration (biology), Gene Expression Profiling, Macrophages, Endothelial Cells, Molecular Sequence Annotation, General Chemistry, Dendritic Cells, Spatial heterogeneity, Mice, Inbred C57BL, Gene Ontology, Physical space, Hepatocytes, Female, Liver function, Cell and Molecular Biology

Abstract

Reconstruction of heterogeneity through single cell transcriptional profiling has greatly advanced our understanding of the spatial liver transcriptome in recent years. However, global transcriptional differences across lobular units remain elusive in physical space. Here, we apply Spatial Transcriptomics to perform transcriptomic analysis across sectioned liver tissue. We confirm that the heterogeneity in this complex tissue is predominantly determined by lobular zonation. By introducing novel computational approaches, we enable transcriptional gradient measurements between tissue structures, including several lobules in a variety of orientations. Further, our data suggests the presence of previously transcriptionally uncharacterized structures within liver tissue, contributing to the overall spatial heterogeneity of the organ. This study demonstrates how comprehensive spatial transcriptomic technologies can be used to delineate extensive spatial gene expression patterns in the liver, indicating its future impact for studies of liver function, development and regeneration as well as its potential in pre-clinical and clinical pathology., Global transcriptional differences across lobular units in the liver remain unknown. Here the authors perform spatial transcriptomics of liver tissue to delineate transcriptional differences in physical space, confirm lobular zonation along transcriptional gradients and suggest the presence of previously uncharacterized structures within liver tissue.

Published

2020