Exploring organ-specific features of fibrogenesis using murine precision-cut tissue slicesBigaeva, E., Gore, E., Mutsaers, H. A. M., Oosterhuis, D., Kim, Y. O., Schuppan, D., Bank, R. A., Boersema, M. & Olinga, P., 1-Jan-2020, In : Biochimica et biophysica acta-Molecular basis of disease. 1866, 1, 14 p., 165582.
Research output: Contribution to journal › Article › Academic › peer-review
Fibrosis is the hallmark of pathologic tissue remodelling in most chronic diseases. Despite advances in our understanding of the mechanisms of fibrosis, it remains uncured. Fibrogenic processes share conserved core cellular and molecular pathways across organs. In this study, we aimed to elucidate shared and organ-specific features of fibrosis using murine precision-cut tissue slices (PCTS) prepared from small intestine, liver and kidneys. PCTS displayed substantial differences in their baseline gene expression profiles: 70% of the extracellular matrix (ECM)-related genes were differentially expressed across the organs. Culture for 48 h induced significant changes in ECM regulation and triggered the onset of fibrogenesis in all PCTS in organ-specific manner. TGF beta signalling was activated during 48 h culture in all PCTS. However, the degree of its involvement varied: both canonical and non-canonical TGFD pathways were activated in liver and kidney slices, while only canonical, Smad-dependent, cascade was involved in intestinal slices. The treatment with galunisertib blocked the TGF beta RI/SMAD2 signalling in all PCTS, but attenuated culture-induced dysregulation of ECM homeostasis and mitigated the onset of fibrogenesis with organ-specificity. In conclusion, regardless the many common features in pathophysiology of organ fibrosis, PCTS displayed diversity in culture-induced responses and in response to the treatment with TGF beta RI kinase inhibitor galunisertib, even though it targets a core fibrosis pathway. A clear understanding of the common and organ-specific features of fibrosis is the basis for developing novel antifibrotic therapies.
|Number of pages||14|
|Journal||Biochimica et biophysica acta-Molecular basis of disease|
|Publication status||Published - 1-Jan-2020|
- Precision-cut tissue slices, Fibrosis, TGF beta, Extracellular matrix, Collagen, SMAD2, GROWTH-FACTOR-BETA, INHIBITOR LY2157299 MONOHYDRATE, TGF-BETA, MOLECULAR CHAPERONE, LIVER FIBROSIS, EXPRESSION, ACTIVATION, MECHANISMS, PATHWAY, PROTEIN