Polymer‐coated viral vectors: hybrid nanosystems for gene therapy |
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| Authors: | Pratheppa Rajagopal Sowmiya Duraiswamy Swaminathan Sethuraman Jayandharan Giridhara Rao Uma Maheswari Krishnan |
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| Affiliation: | 1. Centre for Nanotechnology & Advanced Biomaterials (CeNTAB), SASTRA Deemed‐to‐be University, Thanjavur, India;2. Department of Biological Sciences and Bioengineering, Indian Institute of Technology, Kanpur, Uttar Pradesh, India |
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| Abstract: | The advantages and critical aspects of nanodimensional polymer‐coated viral vector systems potentially applicable for gene delivery are reviewed. Various viral and nonviral vectors have been explored for gene therapy. Viral gene transfer methods, although highly efficient, are limited by their immunogenicity. Nonviral vectors have a lower transfection efficiency as a result of their inability to escape from the endosome. To overcome these drawbacks, novel nanotechnology‐mediated interventions that involve the coating or modification of virus using polymers have emerged as a new paradigm in gene therapy. These alterations not only modify the tropism of the virus, but also reduce their undesirable interactions with the biological system. Also, co‐encapsulation of other therapeutic agents in the polymeric coating may serve to augment the treatment efficacy. The viral particles can aid endosomal escape, as well as nuclear targeting, thereby enhancing the transfection efficiency. The integration of the desirable properties of both viral and nonviral vectors has been found beneficial for gene therapy by enhancing the transduction efficiency and minimizing the immune response. However, it is essential to ensure that these attempts should not compromise on the inherent ability of viruses to target and internalize into the cells and escape the endosomes. |
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| Keywords: | immune response nanoparticles nonviral vector viral vector |
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