• Macromolecular Research
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• 제12권3호
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• pp.276-281
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• 2004

In this study we investigated the spectral properties, including electric absorption, circular and linear dichroism (CD and LD), and fluorescence emission, of DNA in a DNA-branched polyethyleneimine (BPEI) polyplex at various polymer molecular weights (M$\_$w/) and BPEI-amine-to-DNA-phosphate ratios (N/P ratios). All BPEIs exhibited a common N/P dependence in their absorption and CD spectra. At N/P ratios ＜ 1.0, we observed some hyperchromism in the absorption spectrum, red-shifts in CD bands, and decreases in LD intensity and fluorescence intensity of intercalated ethidium. At intermediate N/P ratios, complete collapse of all spectra occurred. As the N/P ratio increased further, the polyplex dissolved in water. From its characteristic CD spectrum obtained under these conditions, we conclude that the DNA exists in a B-like form. The fluorescence and LD intensities never recovered even at high N/P ratios- which indicates that the dissolved polyplex possesses positive charges and the DNA in the polyplex is condensed despite its B-form CD spectrum. The N/P range in which the absorption and CD signals collapsed was wider when the BPEIs M$\_$w/ decreased. In the case where the BPEIs M$\_$w/ was 0.8 k, recovery of the absorption and CD spectral properties at a high N/P ratio was never achieved, which suggests that the molecular weight of the polymer plays an important role in its dissolution at a high N/P ratio.

• 대한화학회지
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• 제62권1호
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• pp.24-29
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• 2018

대표적인 양이온성 폴리사카라이드인 키토산은 생체 친화적인 특성으로 인하여 식품 및 의약품으로의 다양한 응용성이 제시되고 있으나, 용액의 pH에 따른 급격한 용해도 변화로 인하여 실제적인 사용에 많은 제약이 따른다. 본 연구에서는 양이온성 키토산 고분자체와 음이온성 고분자 전해질인 PAA의 이온성 상호작용을 이용하여 두 고분자 전해질의 구성 비율 및 용액의 pH에 따른 polyplex 형성 과정을 관찰하였다. 특히, 두 고분자체의 조성 비율에 따라 나타나는 입자 표면의 전하량은 입자 간정전기적 반발력을 제공하여 균일한 입자 크기와 높은 콜로이드 안정성을 제공하였으며, 이와 같이 안정화된 polyplex 입자는 추가적인 가교화 반응을 통하여 하이드로젤 입자로의 형성이 가능하였다. 두 고분자 전해질의 부분적인 교차 결합으로 형성된 하이드로젤 입자 내부의 acryl amide 작용기는 특징적인 저임계 용액 온도(LCST)를 나타냄으로써 입자의 온도에 따른 수화 작용에 차이를 보이며 그에 따른 입자의 수력학적 직경 변화가 관찰되어 온도에 따른 하이드로젤 입자의 가역적인 팽윤 작용이 관찰되었다. 이와 같은 하이드로젤 입자는 생리활성적인 환경에서 제한된 용해도를 보이는 키토산의 응용성을 한 층 더 높일 수 있을 것으로 기대된다.

• 공업화학
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• 제33권1호
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• pp.83-89
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• 2022

현재 진행 중인 코로나19의 세계적 유행을 기점으로 유전자 전달을 통한 면역 형성에 대한 연구가 활발히 진행되고 있다. 특히 바이러스를 통한 유전자 전달이 부작용이 다수 발견됨에 따라 비바이러스성 유전자 전달체에 대한 요구가 크게 증가하였다. 본 연구에서는 생체적합물질인 히알루론 아민으로 코팅한 폴리에틸렌이민-플라스미드 DNA 복합체를 통한 효율적인 유전자 전달 시스템을 제안했다. 다양한 조성에서 생성된 폴리에틸렌이민-플라스미드 DNA 복합체(polyplex)와 히알루론 아민으로 코팅한 폴리에틸렌이민-플라스미드 DNA 복합체(polyplex-HA)의 크기 및 플라스미드 DNA 발현 정도를 비교해 각 물질의 최적 비율을 찾아냈고 복합체의 크기 및 제타 전위, 에너지 필터링 투과 전자현미경(EF-TEM) 이미지를 통해 입자의 특성을 평가했다. 세포 내 전달 및 발현 효율을 형광현미경과 유세포분석기를 통해 상용화 되어있는 유전자 전달체인 lipofectamine과 비교 분석했다. 본 연구에서 제안된 polyplex-HA는 pDNA 뿐만 아니라 다양한 유전물질을 전달할 수 있으며, 전달체에 대한 면역반응이 적어 다회성 투여에 유리하여 미래의 백신 플랫폼의 기반이 될 수 있을 것으로 기대할 수 있다.

• Bulletin of the Korean Chemical Society
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• 제28권8호
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• pp.1317-1321
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• 2007

Arginine conjugated PAMAM dendrimer, PAMAM-R was modified with propylene oxide via hydroxylation of primary amines of arginine residues. About 49 amines were detected to be converted to amino alcohols by 1H NMR. The newly synthesized polymer, PAMAM-R-PO was able to completely retard pDNA from a charge ratio of 2. The average diameter of PAMAM-R-PO polyplex was found to be 242 nm at a charge ratio of 30. The Zeta-potential value of PAMAM-R-PO polyplex was able to reach 20-30 mV over a charge ratio of 10. PAMAM-R-PO indicated higher cell viability than unmodified PAMAM-R on HeLa and 293 cells because of its hydroxylated amines. Transfection experiments on 293 cells showed that the transfection efficiency of PAMAM-R-PO was found to be 1.5-1.9 times higher than that of PEI25kDa at a charge ratio of 30. The polymer eventually displayed about 2 times greater transfection efficiency than PAMAM-R at the same charge ratio in the absence of serum. Therefore, we concluded that the modification of primary amines of PAMAMR to amino alcohols gives positive effects such as reduced cytotoxicity and enhanced transfection efficiency on 293 cells for gene delivery potency of PAMAM-R.

• Macromolecular Research
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• 제12권5호
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• pp.501-506
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• 2004

We have investigated the spectral properties of DNA, including its electric absorption, circular and linear dichroism (CD and LD), and fluorescence emission, in the DNA-linear polyethyleneimine (LPEI) and DNA-branched polyethyleneimine (BPEI) complexes at various polymer concentrations. The spectral properties of both complexes are similar. We observed a relatively moderate change in the absorption and CD spectra at low amine/DNA phosphate (NIP) ratios (< 0.5), followed by a drastic collapse within the N/P range from 0.8 and 1.0. The absorption and CD spectra recovered as the N/P ratio increased to ca. 1.2. In contrast, the LD and emission of ethidium intercalated between the DNA bases decreased almost linearly at N/P ratios between 0.0 and 1.0. These spectra never recovered at higher N/P ratios. We believe that the moderate changes in the spectrum at low N/P ratios occurred because of electrostatic interactions between DNA and BPEI, while the collapsed spectra at N/P ratios between 0.5 and 1.5 occurred because of condensation/aggregation of the DNA. Considering the structure of the polymers, we suggest that the secondary amino group of LPEI and all three amino groups of BPEI are equally involved in DNA condensation.

• Bulletin of the Korean Chemical Society
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• 제24권1호
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• pp.123-125
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• 2003

• Bulletin of the Korean Chemical Society
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• 제33권11호
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• pp.3849-3852
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• 2012

• Bulletin of the Korean Chemical Society
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• 제32권2호
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• pp.651-655
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• 2011

We synthesized a novel cationic dendrimer consisting of a poly(amidoamine) dendrimer (PAMAM, generation 4) backbone with both L-arginine (Arg) at the termini and 6-aminohexanoic acid (Ahx) between the original core polymer and the peripheral Arg units. The sequential chemical modification of PAMAM G4 with Ahx and Arg resulted in higher transfection efficiency with much less cytotoxicity. PAMAM G4-Ahx-Arg formed stable polyplexes at weight ratios of 8:1 or higher (polymer: plasmid DNA), and the mean polyplex diameter was $180{\pm}20nm$. PAMAM G4-Ahx-Arg showed much higher transfection ability than PAMAM G4 or PAMAM G4-Ahx. Furthermore, PAMAM G4-Ahx-Arg was much less cytotoxic than PEI25KD and PAMAM G4-Arg. In addition to Arg grafting of the PAMAM dendrimer, which endows a higher transfection capability, the addition of Ahx spacer increased dendrimer hydrophobicity, introduced flexibility into the conjugated amino acids, and reduced cytotoxicity. Overall, it appears that the concomitant modification of PAMAM with Ahx and Arg could lead to new PAMAM conjugates with better performances.

• Bulletin of the Korean Chemical Society
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• 제25권7호
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• pp.1025-1030
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• 2004

A hybrid linear polymer-dendrimer block copolymer, poly(ethylene glycol)-block-poly(L-lysine) dendrimer, was synthesized and introduced to form polyionic complexes with DNA. The copolymer formed core-shell type nanoparticles with plasmid DNA. From dynamic light scattering experiments, the mean diameter of the polyplexes was observed to be 154.4 nm. The complex showed much increased water solubility compared to poly(L-lysine). The plasmid DNA in polyplexes was efficiently protected from the enzymatic digestion of DNase I. The cytotoxicity and transfection efficiency for 293 cells was measured in comparison with poly(Llysine).

• Journal of Pharmaceutical Investigation
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• 제40권spc호
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• pp.45-61
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• 2010

Polymeric based nanomedicines have been developed for diagnosing, treating, and preventing diseases in human body. The nanosized drug delivery systems having various structures such as micelles, nanogels, drug-conjugates, and polyplex were investigated for a great goal in pharmaceutics: increasing therapeutic efficacy for diseases and decreasing drug toxicity for normal tissues. The functional polymers used for constituting these drug delivery systems should have several favorable properties such as stimuli-responsibility and biodegrdability for controlled drug release, and solublization capacity for programmed drug encapsulation. This review discusses recent developments and trends of functional polymers (e.g., pH-sensitive polymers, biodegradable polymers, and cationic polymers) used for nanosized drug carriers.