Nanoplatform-Based Delivery Systems for Enhanced Stability and Efficacy of Nucleic Acid Vaccines

Sohameh Mohebbi; Maryam Ghanbari; Kazem Baesi

Nanoplatform-Based Delivery Systems for Enhanced Stability and Efficacy of Nucleic Acid Vaccines

محل انتشار: مجله میکروبیولوژی پزشکی و بیماریهای عفونی، دوره: 13، شماره: 2

سال انتشار: 1404

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 17

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https://civilica.com/doc/2332837

شناسه ملی سند علمی:

JR_JOMMID-13-2_002

تاریخ نمایه سازی: 20 مرداد 1404

چکیده مقاله:

The rapid development of nucleic acid-based vaccines represents a major advancement in immunization strategies, characterized by their reliance on host cellular machinery to produce antigens. These third-generation platforms, including DNA and mRNA vaccines, offer key advantages such as rapid scalability, simplified manufacturing, and versatility in targeting a broad spectrum of diseases caused by infectious pathogens or conditions like cancer. While they avoid the use of live pathogens and thereby minimize many infection-related risks associated with pathogen reversion, potential side effects such as immune overactivation or off-target responses remain key safety considerations. Nanotechnology, particularly lipid nanoparticle (LNP) systems, has emerged as a critical enabler in addressing these limitations. LNPs enhance nucleic acid stability, promote cellular uptake, and facilitate targeted delivery, thereby improving both immune activation and overall safety profiles. Innovations in ionizable lipid design, PEGylation, and size-controlled formulations have been pivotal to the success of mRNA vaccines in response to the COVID-۱۹ pandemic. This review focuses primarily on LNPs as delivery platforms, while also discussing emerging nanotechnologies under investigation in both preclinical and clinical settings. By examining advances in nanoparticle engineering, delivery strategies, and disease-specific applications, this review aims to provide a comprehensive overview of how nanotechnology is reshaping the future of nucleic acid vaccine development. This underscores the transformative potential of nanoscale delivery systems in overcoming current barriers and accelerating the innovation of next-generation vaccines.

کلیدواژه ها:

Nucleic acid vaccines ، Lipid nanoparticles (LNPs) ، Vaccine stability ، Vaccine delivery ، Adjuvants ، mRNA vaccines ، Nanotechnology

نویسندگان

Sohameh Mohebbi

Department of Biology, Faculty of Basic Science, Ale Taha Institute of Higher Education, Tehran, Iran

Maryam Ghanbari

Department of Microbial Biotechnology, Faculty of Biological Science, Tehran North Branch, Islamic Azad University, Tehran, Iran

Kazem Baesi

Hepatitis and AIDS Department, Pasteur Institute of Iran, Tehran, Iran

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Rappuoli R, Black S, Lambert PH. Vaccine discovery and translation ...
Koff WC, Burton DR, Johnson PR, Walker BD, King CR, ...
Wadhwa A, Aljabbari A, Lokras A, Foged C, Thakur A. ...
Cid R, Bolívar J. Platforms for production of protein-based vaccines: ...
Excler JL, Saville M, Berkley S, Kim JH. Vaccine development ...
Fang E, Liu X, Li M, Zhang Z, Song L, ...
Qin F, Xia F, Chen H, Cui B, Feng Y, ...
Lu B, Lim JM, Yu B, Song S, Neeli P, ...
Brisse M, Vrba SM, Kirk N, Liang Y, Ly H. ...
Wang S, Lu S. DNA immunization. Curr Protoc Microbiol. ۲۰۱۳; ...
Williams JA. Vector design for improved DNA vaccine efficacy, safety ...
Rosa SS, Prazeres DMF, Azevedo AM, Marques MPC. mRNA vaccines ...
Leppek K, Byeon GW, Kladwang W, Wayment-Steele HK, Kerr CH, ...
Jin L, Zhou Y, Zhang S, Chen SJ. mRNA vaccine ...
Pardi N, Parkhouse K, Kirkpatrick E, McMahon M, Zost SJ, ...
Maruggi G, Zhang C, Li J, Ulmer JB, Yu D. ...
Kutzler MA, Weiner DB. DNA vaccines: ready for prime time? ...
Liang Y, Huang L, Liu T. Development and delivery systems ...
Yang B, Jeang J, Yang A, Wu TC, Hung CF. ...
Liu MA. DNA vaccines: an historical perspective and view to ...
Schlake T, Thess A, Fotin-Mleczek M, Kallen KJ. Developing mRNA-vaccine ...
Li L, Petrovsky N. Molecular mechanisms for enhanced DNA vaccine ...
Rauch S, Lutz J, Kowalczyk A, Schlake T, Heidenreich R. ...
Pandya A, Shah Y, Kothari N, Postwala H, Shah A, ...
Ulmer JB, Mason PW, Geall A, Mandl CW. RNA-based vaccines. ...
Dobrovolskaia MA, McNeil SE. Immunological and hematological toxicities challenging clinical ...
Würtele H, Little KCE, Chartrand P. Illegitimate DNA integration in ...
Gote V, Bolla PK, Kommineni N, Butreddy A, Nukala PK, ...
Jiang Y, Rubin L, Peng T, Liu L, Xing X, ...
Rizvi SA, Saleh AM. Applications of nanoparticle systems in drug ...
Pati R, Shevtsov M, Sonawane A. Nanoparticle vaccines against infectious ...
Maier MA, Jayaraman M, Matsuda S, Liu J, Barros S, ...
Khare P, Dave KM, Kamte YS, Manoharan MA, O'Donnell LA, ...
Kulkarni JA, Witzigmann D, Leung J, Tam YYC, Cullis PR. ...
Adams D, Gonzalez-Duarte A, O'Riordan WD, Yang CC, Ueda M, ...
Hou X, Zaks T, Langer R, Dong Y. Lipid nanoparticles ...
Barenholz Y. Doxil®-The first FDA-approved nano-drug: Lessons learned. J Control ...
Kim EM, Jeong HJ. Liposomes: biomedical applications. Chonnam Med J. ...
Gu W, Andrews GP, Tian Y. Recent clinical successes in ...
Viegas C, Patrício AB, Prata JM, Nadhman A, Chintamaneni PK, ...
Riccardi D, Baldino L, Reverchon E. Liposomes, transfersomes and niosomes: ...
Ferraresso F, Strilchuk AW, Juang LJ, Poole LG, Luyendyk JP, ...
Schlich M, Palomba R, Costabile G, Mizrahy S, Pannuzzo M, ...
Semple SC, Akinc A, Chen J, Sandhu AP, Mui BL, ...
Guimaraes LC, Costa PAC, Scalzo Júnior SRA, Ferreira HAS, Braga ...
Tenchov R, Sasso JM, Zhou QA. PEGylated lipid nanoparticle formulations: ...
Ly HH, Daniel S, Soriano SK, Kis Z, Blakney AK. ...
Farooq MA, Johnston AP, Trevaskis NL. Impact of nanoparticle properties ...
Catenacci L, Rossi R, Sechi F, Buonocore D, Sorrenti M, ...
Sahin U, Karikó K, Türeci Ö. mRNA-based therapeutics-developing a new ...
Tang Y, Liu B, Zhang Y, Liu Y, Huang Y, ...
Baranov MV, Kumar M, Sacanna S, Thutupalli S, van den ...
Sasaki K, Sato Y, Okuda K, Iwakawa K, Harashima H. ...
Cullis PR, Hope MJ. Lipid nanoparticle systems for enabling gene ...
Love KT, Mahon KP, Levins CG, Whitehead KA, Querbes W, ...
Yuan Z, Yan R, Fu Z, Wu T, Ren C. ...
Lorenzer C, Dirin M, Winkler AM, Baumann V, Winkler J. ...
Di J, Du Z, Wu K, Jin S, Wang X, ...
Witzigmann D, Kulkarni JA, Leung J, Chen S, Cullis PR, ...
Pardi N, Hogan MJ, Porter FW, Weissman D. mRNA vaccines ...
Samaridou E, Heyes J, Lutwyche P. Lipid nanoparticles for nucleic ...
Suzuki Y, Ishihara H. Difference in the lipid nanoparticle technology ...

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