Ferritin at different iron loading: From biological to nanotechnological applications

The characterization of the structure of ferritin in solution and the arrangement of iron stored in its cavity are intriguing subjects for both cell biology and applied science, since the protein structure, stability, and easiness of production make it an ideal tool for biomedical applications. We c...

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Bibliographic Details
Published in:International journal of biological macromolecules 2024-09, Vol.276 (Pt 2), p.133812, Article 133812
Main Authors: Ricci, Caterina, Abbandonato, Gerardo, Giannangeli, Matteo, Matthews, Lauren, Almásy, László, Sartori, Barbara, Podestà, Alessandro, Caselli, Alessandro, Boffi, Alberto, Thiel, Gerhard, Del Favero, Elena, Moroni, Anna
Format: Article
Language:English
Subjects:
Ferritin
Iron loading
Magnetogenetics
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Summary:The characterization of the structure of ferritin in solution and the arrangement of iron stored in its cavity are intriguing subjects for both cell biology and applied science, since the protein structure, stability, and easiness of production make it an ideal tool for biomedical applications. We characterized the ferritin structure over a wide range of iron loadings by visible light, X-ray, and neutron scattering techniques. We found that the arrangement of iron ions inside the protein cage resulted in a more disposable arrangement at lower loading factors and then in a crystalline structure. At very high iron content the inner core is composed of magnetite more than ferrihydrite, and the shell of the protein is elastically deformed by the iron crystal growth in an ellipsoidal arrangement. The application of an external radiofrequency (RF) magnetic field affected ferritins at low iron loading factors. Notably the RF modified the iron disposition towards a more dispersed arrangement. The structural characterization of the ferritin at different LFs and in presence of magnetic fields provides useful insights into their physiological behaviour and can help in the design and fine-tuning of ferritin-based nanosystems for biotechnological applications.
ISSN:0141-8130
1879-0003
1879-0003
DOI:10.1016/j.ijbiomac.2024.133812