Increased thermal stability of FGF10 leads to ectopic signaling during development

• Autoři: CZYREK Aleksandra Anna; BARAN Karolina; HRUBÁ Eva; HORACKOVA Aneta; BOSÁKOVÁ Veronika; CHUDZIAN Julia; FAFÍLEK Bohumil; LASKOVA Veronika; STEPANKOVA Veronika; BEDNÁŘ David; KARL Kelly; KASPAREK Petr; BOSÁKOVÁ Michaela; KILLINGER Michal; SZOTKOWSKA Tereza; PROCHAZKA Jan; ZIEBA Jennifer T; RICO LLANOS Gustavo; FRIČ Jan; HADZIC Stefan; LOKU Edma; WUJAK Magdalena; SVOZILOVÁ Kateřina; STROBLOVÁ Michaela; SEDLACEK Radislav; HRISTOVA Kalina; KRAKOW Deborah; KUBOVCIAK Jan; DELATTRE Mathys; BARTOSZEWSKI Rafal; BUCHTOVÁ Marcela; KROWARSCH Daniel; CHALOUPKOVÁ Radka; ZAKRZEWSKA Malgorzata; KREJČÍ Pavel
• Rok publikování: 2025
• Druh: Článek v odborném periodiku
• Časopis / Zdroj: Cellular and molecular life sciences
• Fakulta / Pracoviště MU: Lékařská fakulta
• www: https://link.springer.com/article/10.1007/s00018-025-05681-1
• Doi: http://dx.doi.org/10.1007/s00018-025-05681-1
• Klíčová slova: Fibroblast growth factor; FGF10; Morphogen; Stability; Development; Lung

Přiložené soubory

• Increased_thermal_stability_of_FGF10_leads_to_ectopic_signaling_during_development.pdf

• Popis: Fibroblast growth factors (FGFs) control organ morphogenesis during development as well as tissue homeostasis and repair in the adult organism. Despite their importance, many mechanisms that regulate FGF function are still poorly understood. Interestingly, the thermodynamic stability of 22 mammalian FGFs varies widely, with some FGFs remaining stable at body temperature for more than 24 h, while others lose their activity within minutes. How thermodynamic stability contributes to the function of FGFs during development remains unknown. Here we show that FGF10, an important limb and lung morphogen, exists as an intrinsically unstable protein that is prone to unfolding and is rapidly inactivated at 37 degrees C. Using rationally driven directed mutagenesis, we have developed several highly stable (STAB) FGF10 variants with a melting temperature of over 19 degrees C more than that of wildtype FGF10. In cellular assays in vitro, the FGF10-STABs did not differ from wildtype FGF10 in terms of binding to FGF receptors, activation of downstream FGF receptor signaling in cells, and induction of gene expression. In mouse embryonal lung explants, FGF10-STABs, but not wildtype FGF10, suppressed branching, resulting in increased alveolarization and expansion of epithelial tissue. Similarly, FGF10-STAB1, but not FGF10 wildtype, inhibited the growth of mouse embryonic tibias and markedly altered limb morphogenesis when implanted into chicken limb buds, collectively demonstrating that thermal instability should be considered an important regulator of FGF function that prevents ectopic signaling. Furthermore, we show enhanced differentiation of human iPSC-derived lung organoids and improved regeneration in ex vivo lung injury models mediated by FGF10-STABs, suggesting an application in cell therapy.

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