AI Article Synopsis
- Cancer poses a major global health issue, with traditional treatments like chemotherapy and radiotherapy facing drawbacks such as side effects and limited effectiveness, particularly in advanced stages.
- Emerging mRNA vaccines present a promising alternative for cancer immunotherapy, offering benefits like rapid production and personalization by encoding tumor-specific and associated antigens.
- This review delves into the biology, classification, mechanisms, and clinical studies of mRNA vaccines, while noting ongoing challenges in delivery, immunogenicity, and tumor diversity that must be addressed for their successful application in personalized cancer treatments.
Article Abstract
Cancer remains a major global health challenge, with conventional treatments like chemotherapy and radiotherapy often hindered by significant side effects, lack of specificity, and limited efficacy in advanced cases. Among emerging therapeutic strategies, mRNA vaccines have shown remarkable potential due to their adaptability, rapid production, and capability for personalized cancer treatment. This review provides an in-depth analysis of messenger RNA (mRNA) vaccines as a therapeutic approach for cancer immunotherapy, focusing on their molecular biology, classification, mechanisms, and clinical studies. Derived from reported literature and data on clinicaltrials.gov, it examines studies on mRNA vaccines encoding tumor-specific antigens (TSAs), tumor-associated antigens (TAAs), immunomodulators, and chimeric antigen receptors (CARs) across various cancer types. The review highlights the ability of mRNA vaccines to encode TSAs and TAAs, enabling personalized cancer treatments, and classifies these vaccines into non-replicating and self-amplifying types. It further explores their mechanisms of action, including antigen presentation and immune activation, while emphasizing findings from clinical studies that demonstrate the potential of mRNA vaccines in cancer therapy. Despite their promise, challenges remain in enhancing delivery systems, improving immunogenicity, and addressing tumor heterogeneity. Overcoming these obstacles will require further investigation to fully harness the potential of mRNA vaccines in personalized cancer treatment.
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| http://dx.doi.org/10.1097/CM9.0000000000003455 | DOI Listing |
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