Biomimetic Rebuilding of Multifunctional Red Blood Cells: Modular Design Using Functional Components
Jimin Guo, Jacob O. Agola, Rita E. Serda, Stefan Franco, Qi Lei, Lu Wang, Joshua Minster, Jonas G. Croissant, Kimberly S. Butler, Wei Zhu, C. Jeffrey Brinker
Abstract
in a mouse model demonstrated the requirement of both deformability and native cell membrane surface to achieve long-term circulation. To confer additional non-native functionalities to RRBCs, we developed modular procedures with which to load functional cargos such as hemoglobin, drugs, magnetic nanoparticles, and ATP biosensors within the RRBC interior to enable various functions, including oxygen delivery, therapeutic drug delivery, magnetic manipulation, and toxin biosensing and detection. Taken together, RRBCs represent a class of long-circulating RBC-inspired artificial hybrid materials with a broad range of potential applications.