Decoding organ fibrosis: mechanistic insights and emerging therapeutic strategies
Summary
Fibrosis is a maladaptive pathophysiological process characterized by excessive deposition of extracellular matrix resulting from dysregulated tissue repair responses. Fibrosis can affect nearly all organ systems, such as the lung, heart, liver, and kidney. Persistent fibrotic remodeling leads to architectural distortion, loss of function, organ failure, and ultimately increased mortality. These devastating outcomes highlight the urgent need for effective antifibrotic therapies. Advances i
Content
# Decoding organ fibrosis: mechanistic insights and emerging therapeutic strategies
*Published: 2026 Mar 6*
Fibrosis is a maladaptive pathophysiological process characterized by excessive
deposition of extracellular matrix resulting from dysregulated tissue repair
responses. Fibrosis can affect nearly all organ systems, such as the lung,
heart, liver, and kidney. Persistent fibrotic remodeling leads to architectural
distortion, loss of function, organ failure, and ultimately increased mortality.
These devastating outcomes highlight the urgent need for effective antifibrotic
therapies. Advances in multiomics technologies have revealed that fibrosis
represents a dynamic alteration spanning the molecular, cellular,
microenvironmental, and organ levels. Despite impressive progress in our
understanding of fibrogenesis over recent years, a substantial translational gap
remains between identifying potential antifibrotic targets and translating this
theoretical knowledge into effective human therapies. To further understand
pathogenesis and facilitate the development of novel antifibrotic drugs, this
review summarizes crucial milestones in fibrosis research, elaborates on
organ-specific pathogenic mechanisms, and details the phenotypic and functional
changes in critical cellular players, including parenchymal cells, fibroblasts,
endothelial cells, and immune cells. Furthermore, this review outlines the key
signaling pathways implicated in the pathogenesis of fibrosis, provides a
comprehensive overview of relevant clinical trials, and discusses promising
future research directions, including cross-organ multiomics integration,
chimeric antigen receptor therapy, and artificial intelligence technology
applications.
DOI: 10.1038/s41392-025-02532-0