Identification of ligand and receptor interactions in CKD and MASH through the integration of single cell and spatial transcriptomics

Moreno, Jaime; Gluud, Lise Lotte; Galsgaard, Elisabeth D.; Hvid, Henning; Mazzoni, Gianluca; Das, Vivek

doi:10.1371/journal.pone.0302853

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Cited by 2 publications

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Single-Cell Advances in Investigating and Understanding Chronic Kidney Disease and Diabetic Kidney Disease

Bhayana,

Schytz,

Bisgaard Olesen

et al. 2025

The American Journal of Pathology

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Single-Cell Advances in Investigating and Understanding Chronic Kidney Disease and Diabetic Kidney Disease

Bhayana,

Schytz,

Bisgaard Olesen

et al. 2025

The American Journal of Pathology

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PICASO: Profiling Integrative Communities of Aggregated Single-cell Omics data

Joppich,

Kramann,

Hayat

2024

Preprint

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Various single-cell modalities covering transcriptomics, epigenetic and spatio-temporal changes in health and disease phenotypes are used in an exploratory way to understand biological systems at single-cell resolution. However, the vast amount of such single-cell data is not systematically linked to existing biomedical data. Networks have previously been used to represent harmonized biomedical data. Integrating various resources of biomedical data in networks has recently received increasing attention. These aggregated networks can provide additional insight into the biology of complex human diseases at cell-type level, however, lack inclusion of single cell expression data. Here, we present the PICASO framework, which incorporates single-cell gene expression data as an additional layer to represent associations between cell types, disease phenotypes, drugs and genes. The PICASO network includes several standardized biomedical databases such as STRING, Uniprot, GeneOntology, Reactome, OmniPath and OpenTargets. Using multiple cell type-specific instances of the framework, each annotated and scored with their respective expression data, comparisons between disease states can be made by computing respective sub-networks and comparing the expression scores between conditions. Ultimately, these group-specific networks will allow the identification of relevant genes, processes and potentially druggable targets, as well as the comparison of different measured groups and thus the identification of group-specific communities and interactions.

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Identification of ligand and receptor interactions in CKD and MASH through the integration of single cell and spatial transcriptomics

Cited by 2 publications

References 88 publications

Single-Cell Advances in Investigating and Understanding Chronic Kidney Disease and Diabetic Kidney Disease

Single-Cell Advances in Investigating and Understanding Chronic Kidney Disease and Diabetic Kidney Disease

PICASO: Profiling Integrative Communities of Aggregated Single-cell Omics data

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