Novel Strategies for Developing Next-Generation Vaccines to Combat Infectious Viral Diseases

Author(s)

Yuan, Fangfeng; Bluth, Martin H.

Abstract

The development of viral vaccines faces persistent scientific and logistical challenges, particularly in the wake of the COVID-19 pandemic. This review critically examines emerging strategies to overcome key barriers in viral vaccine design and deployment. We focus on four major areas: (1) structure-guided antigen engineering to stabilize conformations; (2) the mRNA platform and its delivery system; (3) advanced adjuvant systems that enhance cellular and humoral immunity; and (4) approaches to mitigate immune imprinting and antigenic variability, such as chimeric antigens and glycan shielding. We also explore anti-idiotypic vaccination strategies and the limitations of current animal models in predicting human immune responses. In addition, to address vaccine hesitancy and inequitable access, we advocate for global collaboration in manufacturing, distribution, and public education to ensure inclusive immunization strategies. By integrating molecular insights with platform technologies, we aim to inform the rational design of future vaccines with improved efficacy and public acceptance.

Date issued

2025-09-16

URI

https://hdl.handle.net/1721.1/163062

Department

Koch Institute for Integrative Cancer Research at MIT

Journal

Vaccines

Publisher

Multidisciplinary Digital Publishing Institute

Citation

Yuan, F.; Bluth, M.H. Novel Strategies for Developing Next-Generation Vaccines to Combat Infectious Viral Diseases. Vaccines 2025, 13, 979.

Version: Final published version