Clinical perspective on topical vaccination strategies.

Vaccination is one of the most successful measures in modern medicine to combat diseases, especially infectious diseases, and saves millions of lives every year. Vaccine design and development remains critical and involves many aspects, including the choice of platform, antigen, adjuvant, and route of administration. Topical vaccination, defined herein as the introduction of a vaccine to any of the three layers of the human skin, has attracted interest in recent years as an alternative vaccination approach to the conventional intramuscular administration because of its potential to be needle-free and induce a superior immune response against pathogens. In this review, we describe recent progress in developing topical vaccines, highlight progress in the development of delivery technologies for topical vaccines, discuss potential factors that might impact the topical vaccine efficacy, and provide an overview of the current clinical landscape of topical vaccines.

Immune response to the components of lipid nanoparticles for ribonucleic acid therapeutics.

Ribonucleic acid therapeutics have advantages over biologics and small molecules, including lower safety risks, cheaper costs, and extensive targeting flexibility, which is rapidly fueling the expansion of the field. This is made possible by breakthroughs in the field of drug delivery, wherein lipid nanoparticles (LNPs) are one of the most clinically advanced systems. LNP formulations that are currently approved for clinical use typically contain an ionizable cationic lipid, a phospholipid, cholesterol, and a polyethylene glycol-lipid; each contributes to the stability and/or effectiveness of LNPs. In this review, we discuss the immunomodulatory effects associated with each of the lipid components. We highlight several studies in which the components of LNPs have been implicated in cellular sensing and explore the pathways involved.