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Journal of Drug Targeting Volume 21, 2013 - Issue 9
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Research Article

Injectable microsphere/hydrogel hybrid system containing heat shock protein as therapy in a murine myocardial infarction model

Jangwook LeeDepartment of Bioengineering, Hanyang University SeoulRepublic of Korea
,
Min-Ji ChaCardiovascular Research Institute, Yonsei University College of Medicine Seoul 120-752Republic of Korea;Brain Korea 21 Project for Medical Science, Yonsei University College of Medicine Seoul 120-752Republic of Korea
,
Kwang Suk LimDepartment of Bioengineering, Hanyang University SeoulRepublic of Korea
,
Jang-Kyung KimDepartment of Bioengineering, Hanyang University SeoulRepublic of Korea
,
Sang-Kyung LeeDepartment of Bioengineering, Hanyang University SeoulRepublic of Korea
,
Yong-Hee KimDepartment of Bioengineering, Hanyang University SeoulRepublic of Korea
,
Ki-Chul HwangCardiovascular Research Institute, Yonsei University College of Medicine Seoul 120-752Republic of Korea;Brain Korea 21 Project for Medical Science, Yonsei University College of Medicine Seoul 120-752Republic of Korea;Severance Biomedical Science Institute, Yonsei University College of Medicine Seoul 120-752Republic of KoreaCorrespondence[email protected]
&
Kuen Yong LeeDepartment of Bioengineering, Hanyang University SeoulRepublic of KoreaCorrespondence[email protected]
 show all
Pages 822-829 | Received 25 Apr 2013, Accepted 21 Jul 2013, Published online: 19 Aug 2013
 
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Abstract

Heat shock proteins, acting as molecular chaperones, protect heart muscle from ischemic injury and offer a potential approach to therapy. Here we describe preparation of an injectable form of heat shock protein 27, fused with a protein transduction domain (TAT-HSP27) and contained in a hybrid system of poly(d,l-lactic-co-glycolic acid) microsphere and alginate hydrogel. By varying the porous structure of the microspheres, the release of TAT-HSP27 from the hybrid system was sustained for two weeks in vitro. The hybrid system containing TAT-HSP27 was intramyocardially injected into a murine myocardial infarction model, and its therapeutic effect was evaluated in vivo. The sustained delivery of TAT-HSP27 substantially suppressed apoptosis in the infarcted site, and improved the ejection fraction, end-systolic volume and maximum pressure development in the heart. Local and sustained delivery of anti-apoptotic proteins such as HSP27 using a hybrid system may present a promising approach to the treatment of ischemic diseases.

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