The menace of severe adverse events and deaths associated with viral gene therapy and its potential solution

AbstractOver the past decade, in vivo gene replacement therapy has significantly advanced, resulting in market approval of numerous therapeutics predominantly relying on adeno‐associated viral vectors (AAV). While viral vectors have undeniably addressed several critical healthcare challenges, their clinical application has unveiled a range of limitations and safety concerns. This review highlights the emerging challenges in the field of gene therapy. At first, we discuss both the role of biological barriers in viral gene therapy with a focus on AAVs, and review current landscape of in vivo human gene therapy. We delineate advantages and disadvantages of AAVs as gene delivery vehicles, mostly from the safety perspective (hepatotoxicity, cardiotoxicity, neurotoxicity, inflammatory responses etc.), and outline the mechanisms of adverse events in response to AAV. Contribution of every aspect of AAV vectors (genomic structure, capsid proteins) and host responses to injected AAV is considered and substantiated by basic, translational and clinical studies. The updated evaluation of recent AAV clinical trials and current medical experience clearly shows the risks of AAVs that sometimes overshadow the hopes for curing a hereditary disease. At last, a set of established and new molecular and nanotechnology tools and approaches are provided as potential solutions for mitigating or eliminating side effects. The increasing number of severe adverse reactions and, sadly deaths, demands decisive actions to resolve the issue of immune responses and extremely high doses of viral vectors used for gene therapy. In response to these challenges, various strategies are under development, including approaches aimed at augmenting characteristics of viral vectors and others focused on creating secure and efficacious non‐viral vectors. This comprehensive review offers an overarching perspective on the present state of gene therapy utilizing both viral and non‐viral vectors.

Authors
Kachanov Artyom1 , Kostyusheva Anastasiya1 , Brezgin Sergey1, 2 , Karandashov Ivan1 , Ponomareva Natalia1, 2 , Tikhonov Andrey1 , Lukashev Alexander1 , Pokrovsky Vadim 3, 4 , Zamyatnin Andrey A.2, 5, 6 , Parodi Alessandro2 , Chulanov Vladimir2, 7 , Kostyushev Dmitry1, 2, 5
Publisher
John Wiley & Sons Inc.
Language
English
Status
Published
Year
2024
Organizations
  • 1 Martsinovsky Institute of Medical Parasitology, Tropical and Vector‐Borne Diseases Sechenov University Moscow Russia
  • 2 Division of Biotechnology, Scientific Center for Genetics and Life Sciences Sirius University of Science and Technology Sochi Russia
  • 3 Laboratory of Biochemical Fundamentals of Pharmacology and Cancer Models Blokhin Cancer Research Center Moscow Russia
  • 4 Department of Biochemistry People's Friendship University, Russia (RUDN University) Moscow Russia
  • 5 Faculty of Bioengineering and Bioinformatics Lomonosov Moscow State University Moscow Russia
  • 6 Belozersky Research, Institute of Physico‐Chemical Biology Lomonosov Moscow State University Moscow Russia
  • 7 Faculty of Infectious Diseases Sechenov University Moscow Russia
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