Abstract
Nanomedicine enables advanced therapeutics, diagnostics, and predictive analysis, enhancing treatment outcomes and patient care. The choices and development of high-quality organic nanoparticles with relatively lower toxicity are important for achieving advanced medical goals. Among organic molecules, proteins have been prospected as smart candidates to revolutionize nanomedicine due to their inherent fascinating features. The advent of protein nanoarchitectures, which explore the biomolecular corona, offers new insights into their efficient tissue penetration and therapeutic potential. This review examines various animal- and plant-based protein nanoparticles, highlighting their source, activity, products, and unique biomedical applications in regenerative medicine, targeted therapies, gene and drug delivery, antimicrobial activity, bioimaging, immunological adjuvants, etc. It provides an extensive discussion on recent applications of protein nanoparticles across diverse biomedical fields as well as the evolving landscape of other nanoproducts and nanodevices for sensitive medical procedures. Furthermore, this review introduces different preparation technologies of protein nanoparticles, emphasizing how their design and construction significantly influence loading capacity, stability, and targeting effects. Additionally, we delve into the construction of different user-friendly multifunctional modular bioarchitectures by the assembly of protein nanoparticles (PNPs), marking a significant breakthrough in therapies. This review also considers the challenges of synthetic nanomaterials and the emergence of natural alternatives, which provides insights into protein nanoparticle research.