• Korean Chemical Engineering Research
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• 제58권3호
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• pp.450-457
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• 2020

선행된 연구에서 Yo-Pro-1의 전달 효율의 경향과 CFP 유전자의 발현 효율의 경향이 큰 차이를 보였지만 이 문제에 대한 원인을 제시할 수 없었다. 따라서 본 연구에서는 형광 염료를 이용하여 DNA에 표지 후 전달 효율을 정량화함으로써 이 문제에 대한 원인을 찾고자 한다. 표지를 위한 형광 염료로 Yo-Pro-1을 사용하였으며, Yo-Pro-1과 표지 된 DNA의 전달 효율을 비교하였다. 전압 조건에 따른 전달효율 비교에서는 Yo-Pro-1과 Yo-Pro-1으로 표지 된 DNA의 전달 효율 모두 96 V에서 전달 효율이 최대가 되었으며 전압이 더 증가하면 전달 효율이 오히려 감소하는 경향을 보였다. 전압 인가 횟수 조건에 따른 전달 효율 비교에서는 Yo-Pro-1과 Yo-Pro-1으로 표지 된 DNA의 두 전달 물질 모두 8회의 전압 인가 횟수에서 전달 효율이 최대가 되었으며 전압 인가 횟수가 더 증가하면 전달 효율이 감소하는 경향을 보였다. 두 결과를 통해 디지털 전기천공시스템에서 Yo-Pro-1을 사용한 전달 효율 측정이 DNA의 전달 효율을 잘 대변하는 것을 확인하였다. 또한, 본 연구의 결과를 통해 선행된 연구에서 보인 Yo-Pro-1의 전달 효율의 경향과 CFP 유전자의 발현 효율의 경향 차이는 전달 물질의 전달 효율 차이에서 기인한 결과가 아닌 전달 된 유전 물질의 발현 과정에서의 문제로 인한 결과임을 추론해 볼 수 있었다.

• Asian Pacific Journal of Cancer Prevention
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• 제17권7호
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• pp.3061-3063
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• 2016

Exploiting the immune system to abolish cancer growth via vaccination is a promising strategy but that is limited by many clinical issues. For DNA vaccines, viral vectors as a delivery system mediate a strong immune response due to their protein structure, which could afflect the cellular uptake of the genetic vector or even induce cytotoxic immune responses against transfected cells. Recently, synthetic DNA delivery systems have been developed and recommended as much easier and simple approaches for DNA delivery compared with viral vectors. These are based on the attraction of the positively charged cationic transfection reagents to negatively charged DNA molecules, which augments the cellular DNA uptake. In fact, there are three major cellular barriers which hinder successful DNA delivery systems: low uptake across the plasma membrane; inadequate release of DNA molecules with limited stability; and lack of nuclear targeting. Recently, a polysaccharide polymer produced by microalgae has been synthesized in a form of polymeric fiber material poly-N-acetyl glucosamine (p-GlcNAc). Due its unique properties, the F2 gel matrix was suggested as an effective delivery system for immune and gene vaccinations.

• Bulletin of the Korean Chemical Society
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• 제28권1호
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• pp.95-98
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• 2007

Polyethylenimine (PEI) has been widely investigated for delivery of DNA into cells. It was previously reported that there were at least two types of cytotoxicity in PEI-mediated gene delivery, immediate and delayed toxicities. PEI-mediated gene delivery protocols use net cationic complexes with an excess of PEI to maintain equilibrium between the complexed and dissociated forms in solution. In this study, toxicity of free PEI or PEI/ DNA complex was investigated. Human embryonic kidney 293 cells were incubated with free PEI or PEI/DNA complex for 4 hrs. Then, the cells were analyzed at 6, 24, 48, and 96 hrs after the incubation. In MTT assay, the viability of the cells incubated with PEI/DNA complex was continuously decreased with time, while that of the cells incubated with free PEI was not. On the contrary, the expression level of the luciferase gene increased gradually along with time. Release of DNAs from the complexes for transcription produces free PEIs in the cells. This process may proceed slowly due to high charge density of PEI and may be related to delayed toxicity. In addition, apoptotic cells were observed only in the cells incubated with the PEI/DNA complex from 24 hrs after the incubation. The results suggest that PEI/DNA complex contributes to the delayed toxicity by inducing apoptosis and that the delayed toxicity may be related to decomplexation of the complexes in the cells.

• Clinical and Experimental Vaccine Research
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• 제13권2호
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• pp.73-82
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• 2024

DNA cancer vaccines as an approach in tumor immunotherapy are still being investigated in preclinical and clinical settings. Nevertheless, only a small number of clinical studies have been published so far and are still active. The investigated vaccines show a relatively stable expression in in-vitro transfected cells and may be favorable for developing an immunologic memory in patients. Therefore, DNA vaccines could be suitable as a prophylactic or therapeutic approach against cancer. Due to the low efficiency of these vaccines, the administration technique plays an important role in the vaccine design and its efficacy. These DNA cancer vaccine delivery systems include physical, biological, and non-biological techniques. Although the pre-clinical studies show promising results in the application of the different delivery systems, further studies in clinical trials have not yet been successfully proven.

• 대한화학회지
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• 제43권2호
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• pp.193-198
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• 1999

다가 양이온성 고분자인 polyethylenimine(PEI)를 이용한 plasmid DNA의 세포 전이를 검색했다. 먼저 agarose assay에 의한 2, 10, 25, 및 50KD PEI와 DNA의 중화복합체의 최적비율은 분자량에는 영향을 받지 않았고, 최적의 PEI nitrogen/DNA phosphate 중화 비율은 1.5-2.0(nmol/nmol)로 나타났다. 이 복합체들을 이용한 COS1 세포전이에서는 2KD를 제외하고는 naked DNA에 대비 전이가 증가했고, 이 중에서 특히 25KD PEI는 적정 전이조건에서 DEAE-dextran 혹은 lipofectin 보다 다소 증가된 전이율을 보였다. In vitro 세포전이의 최적 PEI/DNA 비는 7.6-13.3(nmol/nmol)이었고 최적 중화복합체를 이루는 비율보다 높게 나타났다. 용액의 pH에 따른 전이율의 변화는 크게 없었으나 산성일때가 약간 더 증가했다. 세포 표적전이와 독성감소를 위해 인지질분자를 사용한 liposome formulation을 PEI/DNA계에 도입하였다. 그 결과, PC/PE 중성 리포솜이 도입된 경우는 25KD를 제외하고는 PEI 단독일 때 혹은 리포솜 단독일 때 보다 전이율이 2-2.5 배씩 증가했다. 그러나 PEI와 같은 양이온성의 DOTAP/PE 리포솜 도입은 charge repulsion 작용으로 오히려 DOTAP/PE 단독계보다 전이가 감소하는 역효과를 보였다. Liposomal PEI계의 세포독성은 PEI 단독일 때 보다 % cell survival이 10-20% 정도 증가했다. 이 결과들은 PEI가 단독으로도 좋은 전이제로 작용 할 뿐 아니라 세포표적 운반이 가능한 중${\cdot}$음성 리포솜의 효과적인 DNA 응축제로도 이용 될 수 있음을 증명했다.

• Bulletin of the Korean Chemical Society
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• 제34권12호
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• pp.3665-3670
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• 2013

The R3V6 peptide includes a hydrophilic arginine stretch and a hydrophobic valine stretch. In previous studies, the R3V6 peptide was evaluated as a gene carrier and was found to have low cytotoxicity. However, the transfection efficiency of R3V6 was lower than that of poly-L-lysine (PLL) in N2A neuroblastoma cells. In this study, the transfection efficiency of R3V6 was improved in combination with high mobility group box 1A domain (HMGA). HMGA is originated from the nuclear protein and has many positively-charged amino acids. Therefore, HMGA binds to DNA via charge interaction. In addition, HMGA has a nuclear localization signal peptide and may increase the delivery efficiency of DNA into the nucleus. The ternary complex with HMGA, R3V6, and DNA was prepared and evaluated as a gene carrier. First, the HMGA/DNA complex was prepared with a negative surface charge. Then, R3V6 was added to the complex to coat the negative charges of the HMGA/DNA complex, forming the ternary complex of HMGA, R3V6, and DNA. A physical characterization study showed that the ternary complex was more stable than the PLL/DNA complex. The HMGA/R3V6/DNA complex had a higher transfection efficiency than the PLL/DNA, HMGA/DNA, or R3V6/DNA complexes in N2A cells. Furthermore, the HMGA/R3V6/DNA complex was not toxic to cells. Therefore, the HMGA/R3V6/DNA complex may be a useful gene delivery carrier.

• 대한약학회:학술대회논문집
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• 대한약학회 2002년도 Proceedings of the Convention of the Pharmaceutical Society of Korea Vol.2
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• pp.236.1-236.1
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• 2002

Mucosal administration of drug or therapeutic gene is emerging as a new route of delivery for systemic and local therapeutics. Previously. in situ gelling system has been applied to chemical drug such as acetaminophen. insulin. prostaglandin E1. and clotrimazole. Plasmid DNA has not been delivered in form of in situ gelling vehicles. To improve the intranasal absorption of plasmid DNA. we designed delivery systems composed of provide of in 냐셔 gelling and mucoadhesive polymers. (omitted)

• KSBB Journal
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• 제19권5호
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• pp.341-347
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• 2004

Several gene delivery therapies are being developed for treatment of serum protein deficiency. EPO is one of the most promising therapeutic agent for this treatment which is currently being investigated in depth. This study has the ultimate purpose of improving the gene delivery system for an increase of red blood cell production. A plasmid DNA was constructed smaller than other plasmids for an increase in penetration into animal cells, and two genes were cloned into each vector as a co-delivery system to express erythropoietin, and interluekin-3 or thrombopoietin, which can act on erythroid cell, thus activating hematopoiesis synergically. This co-delivery system has an advantage of decreasing the labour required for industrial production of DNA vaccine. A new plasmid vector, pVAC, in size 2.9 kb, was constructed with the essential parts from PUC 19 and pSectagB, which is much smaller than other plasmid vector and is the size of 2.9 kb. Co-delivery system was constituted by cloning human erythropoietin with each of human interluekin-3 gene or human thrombopoietin gene into both pVAC and pSectagB. As a result, the transfection efficiency of pVAC was higer than that of pSectagB in vitro, and hematocrit level of the mice injected with pVAC is higher than that of other mice. And co-delivery system, made of several plasmid DNAs, was expressed in vitro.

• Journal of Microbiology and Biotechnology
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• 제25권6호
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• pp.788-794
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• 2015

Cationic liposomes have been actively used as gene delivery vehicles despite their unsatisfactory efficiencies because of their relatively low toxicity. In this study, we designed novel heterodimeric peptides as nonviral gene delivery systems from TAT and NLS peptides using cysteine-to-cysteine disulfide bonds between the two. Mixing these heterodimeric peptides with DNA before mixing with lipofectamine resulted in higher transfection efficiencies in MCF-7 breast cancer cells than mixing unmodified TAT, NLS, and a simple mixture of TAT and NLS with DNA, but did not show an adverse effect on cell viability. In gel retardation assays, the DNA binding affinities of heterodimeric peptides were stronger than NLS but weaker than TAT. However, this enhancement was only observed when heterodimeric peptides were premixed with DNA before being mixed with lipofectamine. The described novel transfection-enhancing peptide system produced by the heterodimerization of TAT and NLS peptides followed by simple mixing with DNA, increased the gene transfer efficiency of cationic lipids without enhancing cytotoxicity.

• Bulletin of the Korean Chemical Society
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• 제27권9호
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• pp.1335-1340
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• 2006

It has been found that a number of diseases are associated with mutations in the mitochondrial DNA. Therapeutic gene delivery to mitochondria has been suggested as a clinical option for these diseases. In this study, we developed a gene carrier to mitochondria by the conjugation of mitochondrial leader peptide (LP) to polyethylenimine (PEI). Mitochondrial LP conjugated PEI (PEI-LP) was synthesized with low molecular weight PEI (2,000 Da, PEI2K). Gel retardation assay showed that PEI2K-LP formed complexes at a 1.0/1 weight ratio. In addition, PEI2K-LP protected DNA from the enzymatic degradation for at least 60 min, while naked DNA was completely degraded within 20 min. PEI2K-LP was compared with LP conjugated high molecular weight PEI (25,000 Da, PEI25K) in terms of toxicity and delivery efficiency. MTT assay showed that PEI2K-LP had much lower cytotoxicity than PEI25K-LP to 293 cells. In addition, cell-free DNA delivery assay showed that PEI2K-LP delivered more DNA to mitochondria at a 1.8/1 weight ratio than naked DNA or PEI. This result suggests that PEI2K-LP may be useful for the development of mitochondrial gene therapy system with lower cytotoxicity.