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RISS 인기검색어
- 검색키워드
- 저자 : Unbyeol Goh (검색결과 4 건)
- 무료
- 기관 내 무료
- 유료
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Lee, Junsung,Goh, Unbyeol,Lee, Hyoung-Jin,Kim, Jiyoung,Jeong, Moonkyoung,Park, Ji-Ho American Chemical Society 2017 MOLECULAR PHARMACEUTICS Vol.14 No.2
<P>Efficient delivery of drugs to the retina is critical but difficult to achieve with current methods. There have been a number of attempts to use intravitreal injection of liposomes, artificial vesicles composed of a phospholipid bilayer, to overcome the limitations of conventional intravitreal injection (short retention time, toxicity, poor penetration, etc.). Here, we report an optimal liposomal formulation that can diffuse through the vitreous humor, deliver the incorporated agents to all retinal layers effectively, and maintain them for a relatively long time. We first delivered lipophilic compounds and phospholipid-conjugated hydrophilic agents to the inner limiting membrane using engineered liposomes. Subsequently, the agents penetrated the retina deeply, presumably via extracellular vesicles, nanoscale vesicles secreted from retinal-associated cells. These results suggest that this engineered liposomal formulation can leverage the biological transport system for effective retinal penetration of lipophilic and lipid-conjugated agents.</P>
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Effective Delivery of Exogenous Compounds to the Optic Nerve by Intravitreal Injection of Liposome
Junsung Lee,Unbyeol Goh,Ji-Ho Park,Sang-Woo Park,Hwan Heo 대한안과학회 2018 Korean Journal of Ophthalmology Vol.32 No.5
Purpose: To improve the treatment efficiency of optic nerve diseases by delivering therapeutic materials to the optic nerve directly. Methods: We tried to optimize liposomal composition to deliver a payload to the optic nerve efficiently when it is injected intravitreally. After loading dexamethasone into this liposome, we tested the therapeutic effect of liposomes in this treatment using a murine model of ischemic optic neuropathy. Results: Our optimized liposome can deliver its payload to the optic nerve more efficiently than other tested compositions. Moreover, dexamethasone-loaded liposomes had a significant therapeutic effect in a murine model of ischemic optic neuropathy. Conclusions: Here, we demonstrate the optimal composition of liposomes that could efficiently deliver intravitreally injected exogenous compounds to the optic nerve. We expect that the intravitreal injection of liposomes with the suggested composition would improve the delivery efficacy of therapeutic compounds to the optic nerve.
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Lee, Junsung,Lee, Hyoungjin,Goh, Unbyeol,Kim, Jiyoung,Jeong, Moonkyoung,Lee, Jean,Park, Ji-Ho American Chemical Society 2016 ACS APPLIED MATERIALS & INTERFACES Vol.8 No.11
<P>Engineering of extracellular vesicles (EVs) without affecting biological functions remains a challenge, limiting the broad applications of EVs in biomedicine. Here, we report a method to equip EVs with various functional agents, including fluorophores, drugs, lipids, and bio-orthogonal chemicals, in an efficient and controlled manner by engineering parental cells with membrane fusogenic liposomes, while keeping the EVs intact. As a demonstration of how this method can be applied, we prepared EVs containing azide-lipids, and conjugated them with targeting peptides using copper-free click chemistry to enhance targeting efficacy to cancer cells. We believe that this liposome-based cellular engineering method will find utility in studying the biological roles of EVs and delivering therapeutic agents through their innate pathway.</P>
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Lee, Junsung,Kim, Jiyoung,Jeong, Moonkyoung,Lee, Hyoungjin,Goh, Unbyeol,Kim, Hyaeyeong,Kim, Byungji,Park, Ji-Ho American Chemical Society 2015 NANO LETTERS Vol.15 No.5
<P>Natural membrane vesicles (MVs) derived from various types of cells play an essential role in transporting biological materials between cells. Here, we show that exogenous compounds are packaged in the MVs by engineering the parental cells via liposomes, and the MVs mediate autonomous intercellular migration of the compounds through multiple cancer cell layers. Hydrophobic compounds delivered selectively to the plasma membrane of cancer cells using synthetic membrane fusogenic liposomes were efficiently incorporated into the membrane of MVs secreted from the cells and then transferred to neighboring cells via the MVs. This liposome-mediated MV engineering strategy allowed hydrophobic photosensitizers to significantly penetrate both spheroids and in vivo tumors, thereby enhancing the therapeutic efficacy. These results suggest that innate biological transport systems can be in situ engineered via synthetic liposomes to guide the penetration of chemotherapeutics across challenging tissue barriers in solid tumors.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/nalefd/2015/nalefd.2015.15.issue-5/nl5047494/production/images/medium/nl-2014-047494_0005.gif'></P><P><A href='http://pubs.acs.org/doi/suppl/10.1021/nl5047494'>ACS Electronic Supporting Info</A></P>
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