Physicochemical features of subunit interfaces and their role in self-assembly across the ferritin superfamily

Ferritins are ubiquitous and play a critical role in iron homeostasis. They are classified into four main subfamilies: classical, bacterial, bacterioferritin, and Dps. These are characterized by subunits with a four-helical bundle domain and interact through three distinct regions-one antiparallel interface (IntA) and two perpendicular interfaces (IntB and IntC), collectively forming a cage-like structure. Here, we attempt to characterize the variability of these interfaces across subfamilies. We found that IntA is essential for the dimeric unit assembly and is likely to assemble first, followed by the smaller interfaces of IntB and IntC (in any order), which are crucial for cage formation. These interfaces are unique in that they are less packed, although chemically stable, and their size lies between that of protein-protein complex and obligate homodimers. This study provides a detailed exploration of the ferritin interfaces, offering insights into their assembly and their importance as carrier proteins.