Over the past decade, recombinant protein therapeutics have moved from conventional biologics toward highly engineered, multifunctional versions. Enabled by innovations in synthetic biology, host cell engineering, and bioprocess optimization, proteins are increasingly viewed not only as drugs for replacement therapies but also as fully versatile platforms in innovative therapeutic approaches aiming at functional reprogramming. Advances in host systems, from optimized microbial strains to mammalian and plant-based platforms, have expanded the range of proteins that can be produced with high fidelity, scalability, and safety. In parallel, modular protein engineering has delivered next-generation formats, including bispecific antibodies, nanobodies, fusion proteins, and self-assembling biomaterials, broadening therapeutic applications across oncology, inflammation, metabolic disorders, and beyond. At the same time, regulatory frameworks are adapting to support accelerated approval of personalized and complex biologics, while decentralized and flexible manufacturing models begin to emerge. This review provides a 2025 update on the field of recombinant protein drugs, integrating advances in production platforms, protein engineering, and regulatory science, and outlining how these technologies are shaping the next generation of biologics.
López-Laguna et al. (Wed,) studied this question.