Endothelial to mesenchymal transition in kidney fibrosis

Author:

Jacobs Marleen E12,de Vries Dorottya K34,Engelse Marten A12,Dumas Sébastien J12,Rabelink Ton J12ORCID

Affiliation:

1. Department of Internal Medicine (Nephrology) & The Einthoven Laboratory for Vascular and Regenerative Medicine, Leiden University Medical Center , Leiden , The Netherlands

2. The Novo Nordisk Foundation Center for Stem Cell Medicine (reNEW), Leiden University Medical Center , Leiden , The Netherlands

3. Transplant Center, Leiden University Medical Center , Leiden , The Netherlands

4. Department of Surgery, Leiden University Medical Center , Leiden , The Netherlands

Abstract

ABSTRACT Fibrotic diseases are characterized by the uncontrolled accumulation of extracellular matrix (ECM) components leading to disruption of tissue homeostasis. Myofibroblasts as the main ECM-producing cells can originate from various differentiated cell types after injury. Particularly, the process of endothelial-to-mesenchymal transition (endMT), describing phenotypic shifts of endothelial cells to adopt a fully mesenchymal identity, may contribute to the pool of myofibroblasts in fibrosis, while leading to capillary rarefaction and exacerbation of tissue hypoxia. In renal disease, incomplete recovery from acute kidney injury (AKI) and the ensuing fibrotic reaction stand out as major contributors to chronic kidney disease (CKD) development. While the focus has largely been on impaired tubular epithelial repair as a potential fibrosis-driving mechanism, alterations in the renal microcirculation post-AKI, and in particular endMT as a maladaptive response, could hold equal significance. Dysfunctional interplays among various cell types in the kidney microenvironment can instigate endMT. Transforming growth factor beta (TGF-β) signaling, with its downstream activation of canonical/Smad-mediated and non-canonical pathways, has been identified as primary driver of this process. However, non-TGF-β-mediated pathways involving inflammatory agents and metabolic shifts in intercellular communication within the tissue microenvironment can also trigger endMT. These harmful, maladaptive cell–cell interactions and signaling pathways offer potential targets for therapeutic intervention to impede endMT and decelerate fibrogenesis such as in AKI–CKD progression. Presently, partial reduction of TGF-β signaling using anti-diabetic drugs or statins may hold therapeutic potential in renal context. Nevertheless, further investigation is warranted to validate underlying mechanisms and assess positive effects within a clinical framework.

Funder

Novo Nordisk Foundation

Publisher

Oxford University Press (OUP)

Subject

Transplantation,Nephrology

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