Geranylgeranyl Pyrophosphate Promotes Profibrotic Factors and Collagen‐Specific Chaperone HSP47 in Fibroblasts

ABSTRACT Fibrosis, characterised by excessive extracellular matrix deposition, contributes to both organ failure and significant mortality worldwide. Whereas fibroblasts are activated into myofibroblasts, marked by phenotypic factors such as α‐smooth muscle actin (α‐SMA), periostin, fibroblast activ...

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Published in:Journal of cellular and molecular medicine 2024-12, Vol.28 (24), p.e70273-n/a
Main Authors: Ross, Gracious R., Vodanovic‐Jankovic, Sanja, Benjamin, Ivor J.
Format: Article
Language:English
Subjects:
Actin
Actins - metabolism
Alkyl and Aryl Transferases - metabolism
Animals
Antibodies
Biomarkers
Cell Adhesion Molecules - genetics
Cell Adhesion Molecules - metabolism
Cell Differentiation
Cholesterol
Collagen
Collagen - metabolism
differentiation
Enzymes
Extracellular matrix
Fibroblast activation protein
Fibroblasts
Fibroblasts - metabolism
Fibrosis
geranylgeranyl pyrophosphate
Heat shock proteins
HSP47
HSP47 Heat-Shock Proteins - genetics
HSP47 Heat-Shock Proteins - metabolism
Humans
Hypotheses
Kinases
Myofibroblasts - metabolism
Original
Polyisoprenyl Phosphates - metabolism
Polyisoprenyl Phosphates - pharmacology
Proteins
Signal Transduction
Smooth muscle
Statins
Therapeutic targets
Transforming Growth Factor beta1 - metabolism
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Summary:ABSTRACT Fibrosis, characterised by excessive extracellular matrix deposition, contributes to both organ failure and significant mortality worldwide. Whereas fibroblasts are activated into myofibroblasts, marked by phenotypic factors such as α‐smooth muscle actin (α‐SMA), periostin, fibroblast activation protein (FAP) and heat shock protein 47 (HSP47), the cellular processes of trans‐differentiation for fibrosis development remain poorly understood. Herein, we hypothesised that the molecular signalling of geranylgeranyl pyrophosphate (GGPP), a crucial biochemical molecule for protein prenylation, is essential in the regulation of profibrotic mechanisms for fibroblast‐to‐myofibroblast activation. To test this hypothesis, we demonstrated pharmacological inhibition of geranylgeranyl pyrophosphate synthase (GGPS1) significantly decreased TGF‐β1‐dependent myofibroblast differentiation assessed by reduced α‐SMA, periostin, FAP and HSP47 expression. Exogenous GGPP in the presence of GGPS1 inhibition restored TGF‐β1‐induced differentiation, supporting posttranslational requirements of GGPP modification during myofibroblast differentiation. Selective inhibition of either geranylgeranyl transferase or farnesyl transferase significantly impacted TGF‐β1‐induced myofibroblast α‐SMA and HSP47 expression. The importance of protein prenylation as a key regulator of myofibroblast differentiation was remarkably revealed by an unexpected decrease in HSP47 expression. In contrast, direct HSP47 inhibition not only suppressed TGF‐β1‐induced α‐SMA expression but surprisingly could not be rescued using exogenous GGPP. A selective role for the ER‐resident chaperone HSP47 expression downstream of GGPP was suggested when the effects of GGPS1 inhibition on periostin expression were counteracted by GGPP and geranylgeranyl transferase inhibition. Taken together, our findings underscore for the first time the functional role of cholesterol synthesis‐independent GGPP‐dependent pathway in fibroblast‐to‐myofibroblast transition and open new potential therapeutic targets for antifibrosis therapies.
ISSN:1582-1838
1582-4934
1582-4934
DOI:10.1111/jcmm.70273