Amyloid assembly in vivo occurs in complex environments where multiple aggregation-prone species coexist. Aβ and medin are prevalent amyloids in ageing humans that co-localize in cerebral amyloid angiopathy (CAA), yet their structural interactions remain poorly understood. Here, using cryo-electron microscopy, we determine high-resolution fibril structures from in vitro mixtures of Aβ40 and medin. From the same reaction, we resolve three distinct fibril populations: (i) a previously characterized Aβ40 polymorph that also forms in isolation, (ii) a Aβ40 polymorph with Aβ42-like features, including ordered N- and C-terminal regions, and (iii) the atomic structure of full-length medin fibrils. Biochemical and immunogold analyses demonstrate Aβ-medin association within mixed assemblies, though medin is not resolved within the ordered Aβ core. These findings support two non-exclusive mechanisms: transient heterotypic interactions redirecting Aβ folding, or partial medin incorporation into fibril architecture. Our data reveal how coexisting amyloids remodel each other's polymorphic landscapes.
© 2026. The Author(s).