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Review
. 2012 Feb;33(6):1838-50.
doi: 10.1016/j.biomaterials.2011.11.020. Epub 2011 Dec 3.

Enhancing the therapeutic efficacy of adenovirus in combination with biomaterials

Jaesung Kim  1 Pyung-Hwan KimSung Wan KimChae-Ok Yun
Affiliations
Review

Enhancing the therapeutic efficacy of adenovirus in combination with biomaterials

Jaesung Kim et al. Biomaterials. 2012 Feb.

Abstract

With the reason that systemically administered adenovirus (Ad) is rapidly extinguished by innate/adaptive immune responses and accumulation in liver, in vivo application of the Ad vector is strictly restricted. For achieving to develop successful Ad vector systems for cancer therapy, the chemical or physical modification of Ad vectors with polymers has been generally used as a promising strategy to overcome the obstacles. With polyethylene glycol (PEG) first in order, a variety of polymers have been developed to shield the surface of therapeutic Ad vectors and well accomplished to extend circulation time in blood and reduce liver toxicity. However, although polymer-coated Ads can successfully evacuate from a series of guarding systems in vivo and locate within tumors by enhanced permeability and retention (EPR) effect, the possibility to entering into the target cell is few and far between. To endow targeting moiety to polymer-coated Ad vectors, a diversity of ligands such as tumor-homing peptides, growth factors or antibodies, have been introduced with avoiding unwanted transduction and enhancing therapeutic efficacy. Here, we will describe and classify the characteristics of the published polymers with respect to Ad vectors. Furthermore, we will also compare the properties of variable targeting ligands, which are being utilized for addressing polymer-coated Ad vectors actively.

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Figures

Fig. 1
Fig. 1
Schematic representation of delivery pathway of systemically administered naked Ad, shielded Ad with polymer (passive targeting) or targeted polymer-coated Ad (active targeting).
See this image and copyright information in PMC

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