Utilizing Adeno-Associated Virus Vectors for Advancing Cancer Gene Therapy

Authors

  • Yiming Fan

DOI:

https://doi.org/10.62051/1s4q1d83

Keywords:

Adeno-associated virus; gene therapy; cancer treatment; tumor models.

Abstract

Adeno-associated virus (AAV) has proven highly effective as a delivery vector in clinical trials for gene therapy. The safety and efficacy of AAV have led to its application as a novel approach for cancer treatment. Many successful clinical trials of cancer have demonstrated the feasibility of this approach. This review mainly introduces the structure, characteristics and application of AAV in tumor models. The promise of gene therapy in addressing diverse diseases has become evident, with AAV vectors playing a pivotal role in its achievements. AAV's exceptional safety profile and efficacy in gene therapy have spurred their application as a novel approach in the realm of cancer treatment. Clinical trials in this area have yielded impressive results, underlining the potential of AAV in combating cancer. This review provides a comprehensive insight into AAV's structural attributes and unique characteristics, emphasizing their significance in the context of tumor models. AAV's ability to efficiently deliver therapeutic genes to cancer cells, coupled with minimal risk, marks a significant breakthrough in oncology.

Downloads

Download data is not yet available.

References

B.S. Chhikara, K. Parang, Chem. Biol. Lett., 10, 451 (2023).

C. Sonigo, I. Beau, N. Binart, M. Grynberg, Int. J. Mol. Sci., 20, 5342 (2019).

E. Hanna, C. Rémuzat, P. Auquier, M. Toumi, JMAHP., 5, 1265293 (2017).

H. Zu, D. Gao, AAPS J., 23, 78 (2021).

J.N. Warnock, C. Daigre, M. Al-Rubeai, Methods Mol. Biol., 737, 1(2011).

D. Bouard, N. Alazard-Dany, F.-L. Cosset, BRIT J PHARMACOL., 157, 153 (2009).

Y. Qu, Y. Liu, A. F. Noor, J. Tran, R. Li, Neural Regen Res., 14, 931 (2019).

M.F. Naso, B. Tomkowicz, W. L. Perry, BioDrugs, 31, 317 (2017).

J.L. Santiago-Ortiz, D.V. Schaffer, J Control Release, 240, 287 - 301 (2016).

D. Wang, P. W. Tai, G. Gao, Nat. Rev. Drug Discov., 18, 358 (2019).

J. F. Wright, Gene Ther., 15, 840 (2008).

C. Li, R. J. Samulski, Nat. Rev. Genet., 21, 255 (2020).

J. L. Santiago-Ortiz, D. V. Schaffer, J Control Release, 240, 287 (2016).

Z. Wu, A. Asokan, R. J. Samulski, Mol. Ther., 14, 316 (2006).

R. Waehler, S. J. Russell, D. T. Curiel, Nat. Rev. Genet., 8, 573 (2007).

F. Shojaei, Cancer Lett., 320, 130 (2012).

S. Rafii, D. Lyden, R. Benezra, K. Hattori, B. Heissig, Nat. Rev. Cancer, 2, 826 (2002).

P. Trang, J. F. Wiggins, C. L. Daige, C. Cho, M. Omotola, D. Brown, F. J. Slack, Mol. Ther., 19, 1116 (2011).

Z. Xue, P. H. Sun, L. M. Zhu, S. H. Jiang, M. M. Qiao, A. L. Chi, S. P. Tu, Oncol. Rep., 25, 1039 (2011).

S. Fumoto, S. Kawakami, M. Hashida, K. Nishida, Gene Ther., 3 (2013).

Downloads

Published

24-03-2024

Conference Proceedings Volume

Vol. 3 (2024): 3rd International Conference on Biotechnology, Life Science and Medical Engineering (BLSME 2024)

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Fan, Y. (2024). Utilizing Adeno-Associated Virus Vectors for Advancing Cancer Gene Therapy. Transactions on Materials, Biotechnology and Life Sciences, 3, 433-438. https://doi.org/10.62051/1s4q1d83
Crossref
Scopus
Google Scholar
Europe PMC