Redirecting adenovirus tropism by genetic, chemical, and mechanical modification of the adenovirus surface for cancer gene therapy
- Authors
- Yoon, A-Rum; Hong, Jinwoo; Kim, Sung Wan; Yun, Chae-Ok
- Issue Date
- Jun-2016
- Publisher
- Ashley Publications Ltd.
- Keywords
- Adenovirus; oncolytic adenovirus; fiber modification; chimeric fiber; minor capsid protein; polymer; nanomaterial; targeting moiety; enhanced permeability and retention effect; passive targeting; active targeting; tumor microenvironment-responsive delivery; external stimuli-induced targeting
- Citation
- Expert Opinion on Drug Delivery, v.13, no.6, pp 843 - 858
- Pages
- 16
- Indexed
- SCIE
SCOPUS
- Journal Title
- Expert Opinion on Drug Delivery
- Volume
- 13
- Number
- 6
- Start Page
- 843
- End Page
- 858
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/5573
- DOI
- 10.1517/17425247.2016.1158707
- ISSN
- 1742-5247
1744-7593
- Abstract
- Introduction: Despite remarkable advancements, clinical evaluations of adenovirus (Ad)-mediated cancer gene therapies have highlighted the need for improved delivery and targeting. Area covered: Genetic modification of Ad capsid proteins has been extensively attempted. Although genetic modification enhances the therapeutic potential of Ad, it is difficult to successfully incorporate extraneous moieties into the capsid and the engineering process is laborious. Recently, chemical modification of the Ad surface with nanomaterials and targeting moieties has been found to enhance Ad internalization into the target by both passive and active mechanisms. Alternatively, external stimulus-mediated targeting can result in selective accumulation of Ad in the tumor and prevent dissemination of Ad into surrounding nontarget tissues. In the present review, we discuss various genetic, chemical, and mechanical engineering strategies for overcoming the challenges that hinder the therapeutic efficacy of Ad-based approaches. Expert opinion: Surface modification of Ad by genetic, chemical, or mechanical engineering strategies enables Ad to overcome the shortcomings of conventional Ad and enhances delivery efficiency through distinct and unique mechanisms that unmodified Ad cannot mimic. However, although the therapeutic potential of Ad-mediated gene therapy has been enhanced by various surface modification strategies, each strategy still possesses innate limitations that must be addressed, requiring innovative ideas and designs.
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