Advances in Pulmonary Protein Delivery Systems

Abstract

Protein-based therapeutics and vaccines play a pivotal role in the realm of biomedical science. Pulmonary administration offers several advantages including rapid adsorption, non-invasive, increased local drug concentration, and bypassed first-pass metabolism, thus holding great potential to address multiple unmet medical needs in lung-related diseases and vaccination. However, the limited success of inhaled proteins in clinical settings highlights the challenges associated with protein stability and the physiological barriers within the respiratory system. To overcome these hurdles, a variety of delivery systems including polymers, liposomes, cell-derived membranes, and inorganic materials are developed to improve the stability, mucus penetration, retention time, and bioavailability of proteins. With the outbreak of COVID-19, the pulmonary administration of proteins has drawn great attention. In this review, the design principle, preparation, biomedical application, progress in clinical translation, advantages, and disadvantages of each kind of delivery system are summarized, with an emphasis on carrier materials.