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Treatment effects of soluble guanylate cyclase modulation on diabetic kidney disease at single-cell resolution

Michael S. Balzer, Mira Pavkovic, Julia Frederick, Amin Abedini, Alexius Freyberger, Julia Vienenkötter, Ilka Mathar, Krystyna Siudak, Frank Eitner, Peter Sandner, Manuel Grundmann, Katalin Suszták

2023Cell Reports Medicine33 citationsDOIOpen Access PDF

Abstract

Diabetic kidney disease (DKD) is the most common cause of renal failure. Therapeutics development is hampered by our incomplete understanding of animal models on a cellular level. We show that ZSF1 rats recapitulate human DKD on a phenotypic and transcriptomic level. Tensor decomposition prioritizes proximal tubule (PT) and stroma as phenotype-relevant cell types exhibiting a continuous lineage relationship. As DKD features endothelial dysfunction, oxidative stress, and nitric oxide depletion, soluble guanylate cyclase (sGC) is a promising DKD drug target. sGC expression is specifically enriched in PT and stroma. In ZSF1 rats, pharmacological sGC activation confers considerable benefits over stimulation and is mechanistically related to improved oxidative stress regulation, resulting in enhanced downstream cGMP effects. Finally, we define sGC gene co-expression modules, which allow stratification of human kidney samples by DKD prevalence and disease-relevant measures such as kidney function, proteinuria, and fibrosis, underscoring the relevance of the sGC pathway to patients.

Topics & Concepts

Nitric oxideOxidative stressMedicineFibrosisKidneyTranscriptomeCellCell biologyCancer researchPharmacologyBioinformaticsInternal medicineBiologyGeneGene expressionBiochemistrySingle-cell and spatial transcriptomicsChronic Kidney Disease and DiabetesRenal Diseases and Glomerulopathies
Treatment effects of soluble guanylate cyclase modulation on diabetic kidney disease at single-cell resolution | Litcius