Your search keyword '"Bioreducible polymer"' showing total 33 results

1. Short cell-penetration peptide conjugated bioreducible polymer enhances gene editing of CRISPR system

Author

Xiaobo Wang, Chengyuan Cai, Weiqi Lv, Kechen Chen, Jiaxin Li, Kaitong Liao, Yanqun Zhang, Hongxin Huang, Ying Lin, Zhili Rong, and Xiaopin Duan

Subjects

CRISPR system, Bioreducible polymer, Short cell-penetration peptide, Transcriptional activation, Genome editing, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract CRISPR-based gene therapy offers precise targeting and specific editing of disease-related gene sequences, potentially yielding long-lasting treatment effects. However, efficient delivery remains a significant challenge for its widespread application. In this study, we design a novel short peptide-conjugated bioreducible polymer named TSPscp as a safe and effective delivery vector for the CRISPR system. Our results show that TSPscp markedly boosts transcriptional activation and genome editing activities of multiple CRISPR systems as confirmed by decomposition-seq and Deep-seq, which is resulted from its capability in facilitating delivery of plasmid DNA by promoting cellular uptake and lysosomal escape. Additionally, TSPscp further enhances genome editing of CRISPR by delivery of minicircle DNA, a condensed form of regular plasmid DNA. More importantly, TSPscp significantly improves delivery and genome editing of CRISPR system in vivo. In summary, our study highlights TSPscp as a promising delivery tool for CRISPR applications in vivo. Graphical Abstract

Published

2024

2. Short cell-penetration peptide conjugated bioreducible polymer enhances gene editing of CRISPR system.

Author

Wang, Xiaobo, Cai, Chengyuan, Lv, Weiqi, Chen, Kechen, Li, Jiaxin, Liao, Kaitong, Zhang, Yanqun, Huang, Hongxin, Lin, Ying, Rong, Zhili, and Duan, Xiaopin

Subjects

*GENOME editing, *CONJUGATED polymers, *CRISPRS, *PEPTIDES, *GENE therapy, *POLYMERS, *PLASMIDS, *GENETIC vectors

Abstract

CRISPR-based gene therapy offers precise targeting and specific editing of disease-related gene sequences, potentially yielding long-lasting treatment effects. However, efficient delivery remains a significant challenge for its widespread application. In this study, we design a novel short peptide-conjugated bioreducible polymer named TSPscp as a safe and effective delivery vector for the CRISPR system. Our results show that TSPscp markedly boosts transcriptional activation and genome editing activities of multiple CRISPR systems as confirmed by decomposition-seq and Deep-seq, which is resulted from its capability in facilitating delivery of plasmid DNA by promoting cellular uptake and lysosomal escape. Additionally, TSPscp further enhances genome editing of CRISPR by delivery of minicircle DNA, a condensed form of regular plasmid DNA. More importantly, TSPscp significantly improves delivery and genome editing of CRISPR system in vivo. In summary, our study highlights TSPscp as a promising delivery tool for CRISPR applications in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

3. Bioreducible cationic random copolymer for gene delivery.

Author

Muhammad, Khan, Zhou, Jiaying, Ullah, Ihsan, Zhao, Jing, Muhammad, Ayaz, Xia, Shihai, Zhang, Wencheng, and Feng, Yakai

Subjects

GENE transfection, CATIONIC polymers, MOIETIES (Chemistry), ZETA potential, GENES, ACRYLAMIDE, PIPERAZINE

Abstract

Cationic polymers have been widely investigated for gene delivery, although their low transfection efficiency and high cytotoxicity limit their application. We synthesized a bioreducible cationic random copolymer, poly(cystamine bisacylamide‐aminoethyl piperazine)‐co‐poly(cystamine bisacylamide‐histamine) (denoted as CBA‐AEP‐His) from N,N′‐cystamine bis acrylamide (CBA) with aminoethyl piperazine (AEP) and histamine (His). CBA‐AEP‐His copolymer possesses disulfide linkages that endow it with redox‐responsivity to the intracellular environment. This polymer efficiently condenses pZNF580 into complexes with the size of 160 ± 4 nm to 280 ± 5 nm and positive zeta potential of 20 ± 0.3 mV to 30 ± 0.4 mV. The gel‐retardation assay shows that CBA‐AEP‐His can retard pZNF580 even at a low mass ratio of 1/1. The gene complexes were triggered to release pZNF580 when exposed to the reducing environment of dithiothreitol (DTT). CBA‐AEP‐His random copolymer presented higher buffer capacity owing to its His moieties, which protected pZNF580 from DNase degradation. The gene transfection results reveal that CBA‐AEP‐His can efficiently deliver pZNF580 and transfect EA. Hy926 cells. The MTT assay indicates that CBA‐AEP‐His and its complexes exhibit lower cytotoxicity than PEI25KDa. These results illustrate that CBA‐AEP‐His had promising properties for gene delivery, which may provide a suitable platform for the development of a non‐viral gene carrier. [ABSTRACT FROM AUTHOR]

Published

2020

4. Bioreducible Polymer Micelles Based on Acid-Degradable Poly(ethylene glycol)-poly(amino ketal) Enhance the Stromal Cell-Derived Factor-1α Gene Transfection Efficacy and Therapeutic Angiogenesis of Human Adipose-Derived Stem Cells.

Author

Lee, Tae-Jin, Shim, Min Suk, Yu, Taekyung, Choi, Kyunghee, Kim, Dong-Ik, Lee, Soo-Hong, and Bhang, Suk Ho

Subjects

*STROMAL cells, *GENE transfection, *VIRAL genetics, *GENETIC transformation, *MOLECULAR genetics, *REGULATION of neovascularization, *PREVENTION, *PHYSIOLOGY

Abstract

Adipose-derived stem cells (ADSCs) have the potential to treat ischemic diseases. In general, ADSCs facilitate angiogenesis by secreting various pro-angiogenic growth factors. However, transplanted ADSCs have a low therapeutic efficacy in ischemic tissues due to their poor engraftment and low viability. Stromal cell-derived factor-1 (SDF-1 ) improves the survival rate of stem cells transplanted into ischemic regions. In this study, we developed acid-degradable poly(ethylene glycol)-poly(amino ketal) (PEG-PAK)-based micelles for efficient intracellular delivery of SDF-1α plasmid DNA. The SDF-1α gene was successfully delivered into human ADSCs (hADSCs) using PEG-PAK micelles. Transfection of SDF-1α increased SDF-1α, vascular endothelial growth factor, and basic fibroblast growth factor gene expression and decreased apoptotic activity in hADSCs cultured under hypoxic conditions in comparison with conventional gene transfection using polyethylenimine. SDF-1α-transfected hADSCs also showed significantly increased SDF-1α and VEGF expression together with reduced apoptotic activity at 4 weeks after transplantation into mouse ischemic hindlimbs. Consequently, these cells improved angiogenesis in ischemic hindlimb regions. These PEG-PAK micelles may lead to the development of a novel therapeutic modality for ischemic diseases based on an acid-degradable polymer specialized for gene delivery. [ABSTRACT FROM AUTHOR]

Published

2018

5. Bioreducible Gene Delivery Platform that Promotes Intracellular Payload Release and Widespread Brain Dispersion.

Author

Rao D, Kwak G, Wang H, Eberhart CG, Hanes J, and Suk JS

Subjects

Genetic Therapy, Brain metabolism, Gene Transfer Techniques, Polymers metabolism

Abstract

We here introduce a novel bioreducible polymer-based gene delivery platform enabling widespread transgene expression in multiple brain regions with therapeutic relevance following intracranial convection-enhanced delivery. Our bioreducible nanoparticles provide markedly enhanced gene delivery efficacy in vitro and in vivo compared to nonbiodegradable nanoparticles primarily due to the ability to release gene payloads preferentially inside cells. Remarkably, our platform exhibits competitive gene delivery efficacy in a neuron-rich brain region compared to a viral vector under previous and current clinical investigations with demonstrated positive outcomes. Thus, our platform may serve as an attractive alternative for the intracranial gene therapy of neurological disorders.

Published

2023

6. Bioreducible Polymer Micelles Based on Acid-Degradable Poly(ethylene glycol)-poly(amino ketal) Enhance the Stromal Cell-Derived Factor-1α Gene Transfection Efficacy and Therapeutic Angiogenesis of Human Adipose-Derived Stem Cells

Author

Tae-Jin Lee, Min Suk Shim, Taekyung Yu, Kyunghee Choi, Dong-Ik Kim, Soo-Hong Lee, and Suk Ho Bhang

Subjects

angiogenesis, bioreducible polymer, gene therapy, hADSCs, SDF-1α, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Adipose-derived stem cells (ADSCs) have the potential to treat ischemic diseases. In general, ADSCs facilitate angiogenesis by secreting various pro-angiogenic growth factors. However, transplanted ADSCs have a low therapeutic efficacy in ischemic tissues due to their poor engraftment and low viability. Stromal cell-derived factor-1α (SDF-1α) improves the survival rate of stem cells transplanted into ischemic regions. In this study, we developed acid-degradable poly(ethylene glycol)-poly(amino ketal) (PEG-PAK)-based micelles for efficient intracellular delivery of SDF-1α plasmid DNA. The SDF-1α gene was successfully delivered into human ADSCs (hADSCs) using PEG-PAK micelles. Transfection of SDF-1α increased SDF-1α, vascular endothelial growth factor, and basic fibroblast growth factor gene expression and decreased apoptotic activity in hADSCs cultured under hypoxic conditions in comparison with conventional gene transfection using polyethylenimine. SDF-1α-transfected hADSCs also showed significantly increased SDF-1α and VEGF expression together with reduced apoptotic activity at 4 weeks after transplantation into mouse ischemic hindlimbs. Consequently, these cells improved angiogenesis in ischemic hindlimb regions. These PEG-PAK micelles may lead to the development of a novel therapeutic modality for ischemic diseases based on an acid-degradable polymer specialized for gene delivery.

Published

2018

7. Human relaxin gene expression delivered by bioreducible dendrimer polymer for post-infarct cardiac remodeling in rats.

Author

Lee, Young Sook, Choi, Joung-Woo, Oh, Jung-Eun, Yun, Chae-Ok, and Kim, Sung Wan

Subjects

*RELAXIN, *GENE expression, *DENDRIMERS, *MYOCARDIAL infarction treatment, *EXTRACELLULAR matrix, ANIMAL models of myocardial infarction

Abstract

In consensus, myocardial infarction (MI) is defined as irreversible cell death secondary to prolonged ischemia in heart. The aim of our study was to evaluate the therapeutic potential of anti-fibrotic human Relaxin-expressing plasmid DNA with hypoxia response element (HRE) 12 copies ( HR1 ) delivered by a dendrimer type PAM-ABP polymer G0 ( HR1 /G0) after MI on functional, hemodynamic, geometric, and cardiac extracellular matrix (ECM) remodeling in rats. HR1 /G0 demonstrated significantly improved LV systolic function, hemodynamic parameters, and geometry on 1 wk and 4 wks after MI in rats, compared with I/R group. The resolution of regional wall motional abnormalities and the increased blood flow of infarct-related coronary artery supported functional improvements of HR1 /G0. Furthermore, HR1 /G0 polyplex showed favorable post-infarct cardiac ECM remodeling reflected on the favorable cardiac ECM compositions. Overall, this is the first study, which presented an advanced platform for the gene therapy that reverses adverse cardiac remodeling after MI with a HR1 gene delivered by a bioreducible dendrimer polymer in the cardiac ECM. [ABSTRACT FROM AUTHOR]

Published

2016

8. Hepatoma targeting peptide conjugated bio-reducible polymer complexed with oncolytic adenovirus for cancer gene therapy.

Author

Choi, Joung-Woo, Kim, Hyun Ah, Nam, Kihoon, Na, Youjin, Yun, Chae-Ok, and Kim, SungWan

Subjects

*HEPATOCELLULAR carcinoma, *PEPTIDES, *GENE therapy, *POLYMER research, *ADENOVIRUS diseases

Abstract

Despite adenovirus (Ad) vector's numerous advantages for cancer gene therapy, such as high ability of endosomal escape, efficient nuclear entry mechanism, and high transduction, and therapeutic efficacy, tumor specific targeting and antiviral immune response still remain as a critical challenge in clinical setting. To overcome these obstacles and achieve cancer-specific targeting, we constructed tumor targeting bioreducible polymer, an arginine grafted bio-reducible polymer (ABP)-PEG-HCBP1, by conjugating PEGylated ABP with HCBP1 peptides which has high affinity and selectivity towards hepatoma. The ABP-PEG-HCBP1-conjugated replication incompetent GFP-expressing ad, (Ad/GFP)-ABP-PEG-HCBP1, showed a hepatoma cancer specific uptake and transduction compared to either naked Ad/GFP or Ad/GFP-ABP. Competition assays demonstrated that Ad/GFP-ABP-PEG-HCBP1-mediated transduction was specifically inhibited by HCBP1 peptide rather than coxsackie and adenovirus receptor specific antibody. In addition, ABP-PEG-HCBP1 can protect biological activity of Ad against serum, and considerably reduced both innate and adaptive immune response against Ad. shMet-expressing oncolytic Ad (oAd; RdB/shMet) complexed with ABP-PEG-HCBP1 delivered oAd efficiently into hepatoma cancer cells. The oAd/ABP-PEG-HCBP1 demonstrated enhanced cancer cell killing efficacy in comparison to oAd/ABP complex. Furthermore, Huh7 and HT1080 cancer cells treated with oAd/shMet-ABP-PEG-HCBP1 complex had significantly decreased Met and VEGF expression in hepatoma cancer, but not in non-hepatoma cancer. In sum, these results suggest that HCBP1-conjugated bioreducible polymer could be used to deliver oncolytic Ad safely and efficiently to treat hepatoma. [ABSTRACT FROM AUTHOR]

Published

2015

9. RPM peptide conjugated bioreducible polyethylenimine targeting invasive colon cancer.

Author

Lee, Yeong Mi, Lee, Duhwan, Kim, Jihoon, Park, Hansoo, and Kim, Won Jong

Subjects

*COLON cancer treatment, *PEPTIDES, *POLYETHYLENE, *CANCER invasiveness, *CANCER-related mortality, *GENE delivery techniques, *CANCER cells

Abstract

CPIEDRPMC (RPM) peptide is a peptide that specifically targets invasive colorectal cancer, which is one of the leading causes of cancer-related deaths worldwide. In this study, we exploited RPM peptide as a targeting ligand to produce a novel and efficient gene delivery system that could potentially be used to treat invasive colon cancer. In order to achieve enhanced specificity to colon cancer cells, the RPM peptide was conjugated to a bioreducible gene carrier consisting of a reducible moiety of disulfide-crosslinked low molecular weight polyethylenimine, IR820 dye, and polyethylene glycol. Here, we examined the physiochemical properties, cytotoxicity, in vitro transfection efficiency, and in vivo biodistribution of the RPM-conjugated polyplex. Our results showed that the RPM-conjugated gene carrier formed a compact polyplex with pDNA that had low toxicity. Furthermore, the RPM-conjugated polymer not only had higher cellular uptake in invasive colon cancer than the non-targeted polymer, but also showed enhanced transfection efficiency in invasive colon cancer cells in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2015

10. Dual tumor targeting with pH-sensitive and bioreducible polymer-complexed oncolytic adenovirus.

Author

Moon, Chang Yoon, Choi, Joung-Woo, Kasala, Dayananda, Jung, Soo-Jung, Kim, Sung Wan, and Yun, Chae-Ok

Subjects

*PH effect, *BIOPOLYMERS, *ADENOVIRUSES, *COMPLEX compounds, *PINOCYTOSIS, *VASCULAR endothelial growth factors, *HEREDITARY cancer syndromes, *CANCER treatment

Abstract

Oncolytic adenoviruses (Ads) have shown great promise in cancer gene therapy but their efficacy has been compromised by potent immunological, biochemical, and specific tumor-targeting limitations. To take full advantage of the innate cancer-specific killing potency of oncolytic Ads but also exploit the subtleties of the tumor microenvironment, we have generated a pH-sensitive and bio-reducible polymer (PPCBA)-coated oncolytic Ad. Ad-PPCBA complexes showed higher cellular uptake at pH 6.0 than pH 7.4 in both high and low coxsackie and adenovirus receptor-(CAR)-expressing cells, thereby demonstrating Ad-PPCBA's ability to target the low pH hypoxic tumor microenvironment and overcome CAR dependence for target cell uptake. Endocytic mechanism studies indicated that Ad-PPCBA internalization is mediated by macropinocytosis instead of the CAR-dependent endocytic pathway that internalizes naked Ad. VEGF-specific shRNA-expressing oncolytic Ad complexed with PPCBA (RdB/shVEGF-PPCBA) elicited much more potent suppression of U87 human brain cancer cell VEGF gene expression in vitro , and human breast cancer MCF7 cell/Matrigel plug vascularization in a mouse model, when cancer cells had been previously infected at pH 6.0 versus pH 7.4. Moreover, intratumorally and intravenously injected RdB/shVEGF-PPCBA nanocomplexes elicited significantly higher therapeutic efficacy than naked virus in U87-tumor mouse xenograft models, reducing IL-6, ALT, and AST serum levels. These data demonstrated PPCBA's biocompatibility and capability to shield the Ad surface to prevent innate immune response against Ad after both intratumoral and systemic administration. Taken together, these results demonstrate that smart, tumor-specific, oncolytic Ad-PPCBA complexes can be exploited to treat both primary and metastatic tumors. [ABSTRACT FROM AUTHOR]

Published

2015

11. Bioreducible cross-linked polymers based on G1 peptide dendrimer as potential gene delivery vectors.

Author

Li, Chun-Yan, Wang, Hai-Jiao, Cao, Jing-Ming, Zhang, Ji, and Yu, Xiao-Qi

Subjects

*CROSSLINKED polymers, *DENDRIMERS, *GENE delivery techniques, *CATIONIC polymers, *CHEMICAL synthesis, *DISULFIDES, *FLUORESCENCE quenching

Abstract

A series of cationic polymers based on low generation (G1) peptide dendrimer were synthesized with disulfide-containing linkages. The DNA binding abilities of the target polymers were studied by gel electrophoresis and fluorescence quenching assay. The bioreducible property of the disulfide-containing polymers P2 and P3 was also investigated in the presence of dithiothreitol (DTT). Results from dynamic light scattering (DLS) and transmission electron microscopy (TEM) assays reveal that these materials may condense DNA into nanoparticles with proper sizes and zeta-potentials. In vitro cell experiments show that compared to branched 25 KDa PEI, P2 and P3 may exhibit much higher gene transfection efficiency and lower cytotoxicity in both HEK293 and U-2OS cells. Additionally, polymer prepared from Michael addition gives better gene transfection ability, while polymer prepared from ring-opening reaction has better serum tolerance. Results indicate that these polymers might be promising non-viral gene vectors for their easy preparation, very low cytotoxicity, and good transfection efficiency. [ABSTRACT FROM AUTHOR]

Published

2014

12. Bioreducible polymers for therapeutic gene delivery.

Author

Lee, Young Sook and Kim, Sung Wan

Subjects

*MEDICAL polymers, *GENE delivery techniques, *CELL-mediated cytotoxicity, *BIOCOMPATIBILITY, *ERYTHROCYTES, *CATIONIC polymers

Abstract

Most currently available cationic polymers have significant acute toxicity concerns such as cellular toxicity, aggregation of erythrocytes, and entrapment in the lung capillary bed, largely due to their poor biocompatibility and non-degradability under physiological conditions. To develop more intelligent polymers, disulfide bonds are introduced in the design of biodegradable polymers. Herein, the sustained innovations of biomimetic nano-sized constructs with bioreducible poly(disulfide amine)s demonstrate a viable clinical tool for the treatment of cardiovascular disease, anemia, diabetes, and cancer. [ABSTRACT FROM AUTHOR]

Published

2014

13. Therapeutic gene delivery using bioreducible polymers.

Author

Ryu, Kitae and Kim, Tae-il

Abstract

Bioreducible polymers, which can be degraded in reducing environment due to the cleavage of internal disulfide bonds, have been developed for gene delivery systems. They show high stability in extracellular physiological condition and cytoplasm-specific release of genetic materials, as well as decreased cytotoxicity because cytoplasm is a reducing environment containing high level of reducing molecules such as glutathione. Based on these advantages, recently, many bioreducible polymers have been further investigated with therapeutic genes for the treatment of diseases and demonstrated promising results. This review will focus on the therapeutic gene delivery using bioreducible polymers and the evaluation of therapeutic efficacy for cancer, myocardial infarction, diabetes and miscellaneous diseases. [ABSTRACT FROM AUTHOR]

Published

2014

14. Mannosylated bioreducible nanoparticle-mediated macrophage-specific TNF-α RNA interference for IBD therapy.

Author

Xiao, Bo, Laroui, Hamed, Ayyadurai, Saravanan, Viennois, Emilie, Charania, Moiz A., Zhang, Yuchen, and Merlin, Didier

Subjects

*INFLAMMATORY bowel disease treatment, *MACROPHAGES, *TUMOR necrosis factors, *RNA interference, *NANOPARTICLES, *POLYETHYLENE

Abstract

Abstract: The application of RNA interference (RNAi) for inflammatory bowel disease (IBD) therapy has been limited by the lack of non-cytotoxic, efficient and targetable small interfering RNA (siRNA) carriers. TNF-α is the major pro-inflammatory cytokine mainly secreted by macrophages during IBD. Here, a mannosylated bioreducible cationic polymer (PPM) was synthesized and further spontaneously assembled nanoparticles (NPs) assisted by sodium triphosphate (TPP). The TPP-PPM/siRNA NPs exhibited high uniformity (polydispersity index = 0.004), a small particle size (211−275 nm), excellent bioreducibility, and enhanced cellular uptake. Additionally, the generated NPs had negative cytotoxicity compared to control NPs fabricated by branched polyethylenimine (bPEI, 25 kDa) or Oligofectamine (OF) and siRNA. In vitro gene silencing experiments revealed that TPP-PPM/TNF-α siRNA NPs with a weight ratio of 40:1 showed the most efficient inhibition of the expression and secretion of TNF-α (approximately 69.9%, which was comparable to the 71.4% obtained using OF/siRNA NPs), and its RNAi efficiency was highly inhibited in the presence of mannose (20 mm). Finally, TPP-PPM/siRNA NPs showed potential therapeutic effects on colitis tissues, remarkably reducing TNF-α level. Collectively, these results suggest that non-toxic TPP-PPM/siRNA NPs can be exploited as efficient, macrophage-targeted carriers for IBD therapy. [Copyright &y& Elsevier]

Published

2013

15. The inhibition of metastasis and growth of breast cancer by blocking the NF-κB signaling pathway using bioreducible PEI-based/p65 shRNA complex nanoparticles.

Author

Xiao, Jisheng, Duan, Xiaopin, Yin, Qi, Miao, Zehong, Yu, Haijun, Chen, Chunying, Zhang, Zhiwen, Wang, Jun, and Li, Yaping

Subjects

*BREAST cancer treatment, *METASTASIS, *NF-kappa B, *CELLULAR signal transduction, *NANOMEDICINE, *TUMOR growth, *GENE expression

Abstract

Abstract: Metastasis is one of the greatest challenges in cancer treatment. In this study, a bioreducible polymer, Tween 85-s-s-polyethyleneimine 2K (TSP), was synthesized and used as a non-viral gene vector for p65 shRNA to block NF-κB signaling pathway, thereby inhibiting the growth and metastasis of breast cancer. The TSP/p65 shRNA complex nanoparticles (TSNs) could significantly down-regulate p65 expression in breast cancer cells due to the rapid degradation of TSP with prompt shRNA release, and consequently not only inhibit cell proliferation and invasion, but also induce cell apoptosis and disrupt the tube formation. Most importantly, TSNs showed high accumulation in tumor and almost completely inhibited the growth and metastasis of the breast cancer xenograft in nude mice induced by MDA-MB-435 cells. All these results indicated the promising of TSP as a non-viral gene vector to knock down p65 expression and inhibit the growth and metastasis of breast cancer. [Copyright &y& Elsevier]

Published

2013

16. A guanidinylated bioreducible polymer as a novel gene carrier to the corpus cavernosum of mice with high-cholesterol diet-induced erectile dysfunction.

Author

Ryu, J.‐K., Choi, M. J., Kim, T.‐I., Jin, H.‐R., Kwon, K.‐D., Batbold, D., Song, K.‐M., Kwon, M.‐H., Yin, G. N., Lee, M., Kim, S. W., and Suh, J.‐K.

Subjects

*HIGH cholesterol diet, *IMPOTENCE, *GENE therapy, *DRUG delivery systems, *GENE transfection, *IMMUNOHISTOCHEMISTRY, *ENDOTHELIAL cells, *LABORATORY mice

Abstract

A prerequisite for the successful clinical application of gene therapy in erectile dysfunction (ED) is the availability of safe and efficient gene delivery systems. The aim of this study was to examine the effectiveness of guanidinylated bioreducible polymer (GBP) polyplexes for gene delivery systems, which take advantage of the biodegradability of reducible disulfide bonds and the cell-penetrating ability of guanidine groups. For in vitro transfection experiments, we used mouse cavernous endothelial cells and A7r5 rat vascular smooth muscle cells. For in vivo experiments, we used a mouse model of hypercholesterolaemic ED in which 2-month-old male C57BL/6 mice were fed a diet containing 4% cholesterol and 1% cholic acid for 3 months. Animals or cells were treated with pCMV-Luc, poly(ethyleneimine) (PEI)25k/pCMV-Luc polyplex (weight ratio: 1) and GBP/pCMV-Luc polyplexes (weight ratio: 20, 40, 60 and 80). Gene expression was evaluated by luciferase assay, and the gene expression area was evaluated by immunohistochemistry. GBP had greater transfection efficiency as the weight ratio increased. GBP had sevenfold higher gene delivery efficiency in A7r5 cells at a weight ratio of 80 than did PEI25k. Moreover, the gene expression was more profoundly induced by GBP/pCMV-Luc than by pCMV-Luc in both the corpus cavernosum tissue of hypercholesterolaemic mice and in mouse cavernous endothelial cells, although the expression levels induced by the GBP gene delivery system were lower than those induced by the PEI25k gene delivery system. GBP revealed no considerable cytotoxicity to A7r5 cells and mouse cavernous endothelial cells (relative cell viability: 95 and 88% respectively), whereas PEI25k resulted in high cytotoxicity. Interestingly, immunofluorescent double staining revealed that luciferase expression induced by the GBP polyplex mainly overlapped with cavernous endothelial cells, but rarely with smooth muscle cells. The GBP-based non-viral gene expression system may be useful for the development of gene therapy in vasculogenic ED. [ABSTRACT FROM AUTHOR]

Published

2013

17. Paclitaxel-conjugated PEG and arginine-grafted bioreducible poly (disulfide amine) micelles for co-delivery of drug and gene

Author

Nam, Kihoon, Nam, Hye Yeong, Kim, Pyung-Hwan, and Kim, Sung Wan

Subjects

*POLYETHYLENE glycol, *PACLITAXEL, *DRUG delivery systems, *INTERLEUKIN-12, *MICELLES, *GENE transfection, *BIOCONJUGATES, *CRITICAL micelle concentration

Abstract

Abstract: We developed a paclitaxel-conjugated polymeric micelle, ABP-PEG3.5k-Paclitaxel (APP) consisting of poly (ethylene glycol) (PEG) and arginine-grafted poly (cystaminebisacrylamide-diaminohexane) (ABP) for the co-delivery of gene and drug. The APP polymer self-assembled into cationic polymeric micelles with a critical micelle concentration (CMC) value of approximately 0.062 mg/mL, which was determined from measurements of the UV absorption of pyrene. The micelles have an average size of about 3 nm and a zeta potential of about +14 mV. Due to the positive surface charge, APP micelles formed polyplexes with plasmid DNA approximately 200 nm in diameter. The luciferase gene and mouse interleukin-12 (IL-12) gene was used to monitor gene delivery potency. APP polyplexes showed increased gene delivery efficiency and cellular uptake with higher anticancer potency than paclitaxel alone. These results demonstrate that an APP micelle-based delivery system is well suitable for the co-delivery of gene and drug. [Copyright &y& Elsevier]

Published

2012

18. Dendrimer type bio-reducible polymer for efficient gene delivery

Author

Nam, Hye Yeong, Nam, Kihoon, Lee, Minhyung, Kim, Sung Wan, and Bull, David A.

Subjects

*GENE therapy, *DENDRIMERS, *ARGININE, *MOLECULAR weights, *DNA, *PLASMIDS

Abstract

Abstract: Arginine-grafted bio-reducible poly(disulfide amine) (ABP) was incorporated into the poly(amido amine) (PAMAM) dendrimer, creating a high molecular weight bio-reducible polymer, PAM-ABP, to overcome the limitations of the low molecular weight ABP. The newly synthesized PAM-ABP was studied to determine its efficacy as a gene delivery carrier. The PAM-ABP demonstrated superior condensing ability for plasmid DNA through the formation of compact nanosized polyplexes. These compact polyplexes enhanced cellular uptake and were less susceptible to reducing agents, resulting in greater transfection efficiency compared to ABP alone. Based on these results, this newly developed PAM-ABP polyplex is a promising delivery system for clinical gene therapy. [Copyright &y& Elsevier]

Published

2012

19. Linearized oncolytic adenoviral plasmid DNA delivered by bioreducible polymers

Author

Kim, Jaesung, Kim, Pyung-Hwan, Nam, Hye Yeong, Lee, Jung-Sun, Yun, Chae-Ok, and Kim, Sung Wan

Subjects

*ADENOVIRUSES, *POLYMERIC drug delivery systems, *CANCER treatment, *PLASMIDS, *ARGININE, *IMMUNE response, *DNA

Abstract

Abstract: As an effort to overcome limits of adenovirus (Ad) as a systemic delivery vector for cancer therapy, we developed a novel system using oncolytic Ad plasmid DNA with two bioreducible polymers: arginine-grafted bioreducible poly(disulfide amine)polymer (ABP) and PEG5k-conjugated ABP (ABP5k) in expectation of oncolytic effect caused by progeny viral production followed by replication. The linearized Ad DNAs for active viral replication polyplexed with each polymer were able to replicate only in human cancer cells and produce progeny viruses. The non-immunogenic polymers delivering the DNAs markedly elicited to evade the innate and adaptive immune response. The biodistribution ratio of the polyplexes administered systemically was approximately 99% decreased in liver when compared with naked Ad. Moreover, tumor-to-liver ratio of the Ad DNA delivered by ABP or ABP5k was significantly elevated at 229- or 419-fold greater than that of naked Ad, respectively. The ABP5k improved the chance of the DNA to localize within tumor versus liver with 1.8-fold increased ratio. In conclusion, the innovative and simple system for delivering oncolytic Ad plasmid DNA with the bioreducible polymers, skipping time-consuming steps such as generation and characterization of oncolytic Ad vectors, can be utilized as an alternative approach for cancer therapy. [Copyright &y& Elsevier]

Published

2012

20. Erythropoietin gene delivery using an arginine-grafted bioreducible polymer system

Author

Nam, Hye Yeong, Lee, Youngsook, Lee, Minhyung, Shin, Sug Kyun, Kim, Tae-il, Kim, Sung Wan, and Bull, David A.

Subjects

*ERYTHROPOIETIN, *GENE transfection, *ARGININE, *ERYTHROCYTES, *ISCHEMIA, *ENDOTHELIUM, *SERUM, *ETHYLENE glycol, *GRAFT copolymers

Abstract

Abstract: Erythropoietin (EPO) plays a key regulatory role in the formation of new red blood cells (RBCs). Erythropoietin may also have a role as a therapeutic agent to counteract ischemic injury in neural, cardiac and endothelial cells. One of the limitations preventing the therapeutic application of EPO is its short half-life. The goal of this study was to develop a gene delivery system for the prolonged and controlled release of EPO. The arginine grafted bioreducible polymer (ABP) and its PEGylated version, ABP-PEG10, were utilized to study the expression efficiency and therapeutic effectiveness of this erythropoietin gene delivery system in vitro. Poly(ethylene glycol) (PEG) modification of the ABP was employed to inhibit the particle aggregation resulting from the interactions between cationic polyplexes and the negatively charged proteins typically present in serum. Both the ABP and the ABP-PEG10 carriers demonstrated efficient transfection and long-term production of EPO in a variety of cell types. The expressed EPO protein stimulated hematopoietic progenitor cells to form significant numbers of cell colonies in vitro. These data confirm that this EPO gene delivery system using a bioreducible polymeric carrier, either ABP or ABP-PEG 10, merits further testing as a potential therapeutic modality for a variety of clinically important disease states. [Copyright &y& Elsevier]

Published

2012

21. Bioreducible poly(amidoamine)s as carriers for intracellular protein delivery to intestinal cells

Author

Cohen, Shmuel, Coué, Grégory, Beno, Delila, Korenstein, Rafi, and Engbersen, Johan F.J.

Subjects

*DENDRIMERS, *CARRIER proteins, *DRUG delivery systems, *MOLECULAR self-assembly, *BASIC proteins, *ACRYLAMIDE, *MULTIDRUG resistance

Abstract

Abstract: An effective intracellular protein delivery system was developed based on linear poly(amidoamine)s (PAAs) that form self-assembled cationic nanocomplexes with oppositely charged proteins. Two differently functionalized PAAs were synthesized by Michael-type polyaddition of 4-amino-1-butanol (ABOL) to cystamine bisacrylamide (CBA) and to bisacryloylpiperazine (BAP), yielding p(CBA-ABOL) and p(BAP-ABOL), respectively. These water-soluble PAAs efficiently condense human serum albumin (HSA) by self-assembly into stable nanoscaled and positively-charged complexes. The disulfide-containing p(CBA-ABOL)/HSA nanocomplexes exhibited high mucoadhesive properties and, while stable under neutral (extracellular) conditions, rapidly destabilized in a reductive (intracellular) environment due to the cleavage of the repetitive disulfide linkages in the CBA units of the polymer. Human-derived intestinal Caco-2/TC7 cells and HT29-MTX mucus secreting cells were exposed to these PAAs/HSA nanoparticles and the extent of their uptake and the localization within endosomal compartments were examined. The higher uptake of p(CBA-ABOL)/HSA than that of p(BAP-ABOL)/HSA suggests that the mucoadhesive properties of the p(CBA-ABOL) are beneficial to the uptake process. The transported HSA was located within early endosomes, lysosomes and the cytosol. The enhanced uptake of the p(CBA-ABOL)/HSA nanoparticles, observed in the presence of Cyclosporin A, a non-specific Multi Drug Resistance (MDR) blocker, indicates the possible efflux of these nanoparticles through MDR transporters. The results show that bioreducible PAAs have excellent properties for intracellular protein delivery, and should be applicative in oral protein delivery. [Copyright &y& Elsevier]

Published

2012

22. Role of boronic acid moieties in poly(amido amine)s for gene delivery

Author

Piest, Martin and Engbersen, Johan F.J.

Subjects

*GENE transfection, *BORIC acid, *AMINES, *GENETIC vectors, *PLASMIDS, *MEDICAL polymers

Abstract

Abstract: The effects of the presence of two different types of phenylboronic acids as side groups in disulfide-containing poly(amido amine)s (SS-PAA) were investigated in the application of these polymers as gene delivery vectors. To this purpose, a para-carboxyphenylboronic acid was grafted on a SS-PAA with pending aminobutyl side chains, resulting in p(DAB–4CPBA) and an ortho-aminomethylphenylboronic acid was incorporated through copolymerization, resulting in p(DAB–2AMPBA). Both polymers have 30% of phenylboronic acid side chains and 70% of residual aminobutyl side chains and were compared with the non-boronated benzoylated analogue p(DAB–Bz) of similar Mw. It was found that the presence of phenylboronic acid moieties improved polyplex formation with plasmid DNA since smaller and more monodisperse polyplexes were formed as compared to their non-boronated counterparts. The transfection efficiency of polyplexes of p(DAB–4CPBA) was approximately similar to that of p(DAB–Bz) and commercial PEI (Exgen), both in the absence and the presence of serum, indicating that p(DAB–4CPBA) and p(DAB–Bz) are potent gene delivery vectors. However, the polymers with phenylboronic acid functionalities showed increased cytotoxicity, which is stronger for the ortho-aminophenylboronic acid containing polyplexes of p(DAB–2AMPBA) than for the p(DAB–4CPBA) analog. The cytotoxic effect may be caused by increased membrane disruptive interaction as was indicated by the increased hemolytic activity observed for these polymers. [Copyright &y& Elsevier]

Published

2011

23. Active targeting of RGD-conjugated bioreducible polymer for delivery of oncolytic adenovirus expressing shRNA against IL-8 mRNA

Author

Kim, Jaesung, Nam, Hye Yeong, Kim, Tae-il, Kim, Pyung-Hwan, Ryu, Jihoon, Yun, Chae-Ok, and Kim, Sung Wan

Subjects

*BIOCONJUGATES, *POLYMERS, *ADENOVIRUSES, *MESSENGER RNA, *GENE therapy, *CANCER treatment, *BIODEGRADATION, *APOPTOSIS

Abstract

Abstract: Even though oncolytic adenovirus (Ad) has been highlighted in the field of cancer gene therapy, transductional targeting and immune privilege still remain difficult challenges. The recent reports have noted the increasing tendency of adenoviral surface shielding with polymer to overcome the limits of its practical application. We previously reported the potential of the biodegradable polymer, poly(CBA-DAH) (CD) as a promising candidate for efficient gene delivery. To endow the selective-targeting moiety of tumor vasculature to CD, cRGDfC well-known as a ligand for cell-surface integrins on tumor endothelium was conjugated to CD using hetero-bifunctional cross-linker SM (PEG)n. The cytopathic effects of oncolytic Ad coated with the polymers were much more enhanced dose-dependently when compared with that of naked Ad in cancer cells selectively. Above all, the most potent oncolytic effect was assessed with the treatment of Ad/CD-PEG500-RGD in all cancer cells. The enhanced cytopathic effect of Ad/RGD-conjugated polymer was specifically inhibited by blocking antibodies to integrins, but not by blocking antibody to CAR. HT1080 cells treated with Ad/CD-PEG500-RGD showed strong induction of apoptosis and suppression of IL-8 and VEGF expression as well. These results suggest that RGD-conjugated bioreducible polymer might be used to deliver oncolytic Ad safely and efficiently for tumor therapy. [Copyright &y& Elsevier]

Published

2011

24. Cell penetrating peptide conjugated bioreducible polymer for siRNA delivery

Author

Nam, Hye Yeong, Kim, Jaesung, Kim, Soojin, Yockman, James W., Kim, Sung Wan, and Bull, David A.

Subjects

*BIOCONJUGATES, *SMALL interfering RNA, *HEART cells, *PEPTIDES, *POLYMERS, *GENE transfection, *APOPTOSIS, *BIOMEDICAL materials

Abstract

Abstract: The primary cardiomyocyte–specific peptide (PCM) and the cell-penetrating peptide (CPP), HIV-Tat (49–57), were incorporated into the polymer, cystamine bisacrylamide-diaminohexane (CBA-DAH), to increase the delivery of RNAi to target cells, specifically cardiomyocytes. Interestingly, the impact of PCM and Tat conjugation on cellular uptake and transfection efficiency was greater in H9C2 rat cardiomyocytes than in NIH 3T3 cells. We examined the potential for siRNA targeting SHP-1 or Fas to inhibit the apoptosis of cardiomyocytes under hypoxic conditions using PCM and Tat-modified poly(CBA-DAH), (PCM-CD-Tat). To evaluate for efficacy in inhibiting apoptosis, either Fas siRNA/polymer or SHP-1 siRNA/polymer were transfected into cardiomyocytes treated under hypoxic and serum-deprived conditions. After incubation under hypoxic conditions, treatment with either the SHP-1 siRNA complex or the Fas siRNA complex resulted in an increase in cell viability and a reduction in LDH-cytotoxicity. The cells transfected with either of the siRNA polyplexes had a lower incidence of apoptosis as demonstrated by Annexin V–FITC/PI staining. Both the SHP-1 siRNA/PCM-CD-Tat complex and the Fas siRNA/PCM-CD-Tat complex warrant further investigation as therapeutic agents to inhibit the apoptosis of cardiomyocytes. [Copyright &y& Elsevier]

Published

2011

25. Bioreducible polymers with cell penetrating and endosome buffering functionality for gene delivery systems

Author

Kim, Tae-il, Rothmund, Thomas, Kissel, Thomas, and Kim, Sung Wan

Subjects

*MEDICAL polymers, *GENETIC carriers, *ARGININE, *CELL-mediated cytotoxicity, *GENE therapy, *MONOMERS, *IMIDAZOLES, *ZETA potential

Abstract

Abstract: Bioreducible cationic polymers (p(DAH a -R/API b )s) composed of different ratios (a:b=2:1, 1:1, 1:2) between arginine-grafted diaminohexane (DAH-R) (cell penetrating functionality) and 1-(3-aminopropyl) imidazole (API) (endosome buffering functionality) monomers were synthesized by Michael reaction of N,N′-cystaminebisacrylamide (CBA) with them, in order to study the effect of endosome buffering moiety on arginine-grafted bioreducible polymeric gene carriers. Several experiments displayed a distinct correlation between monomer composition ratios of p(DAH-R/API)s and the polymer features. Increased endosome buffering capacities proportional to API portions was evaluated for p(DAH-R/API)s due to the imidazole group (pKa=6) of API. Increased portions of API non-ionized at physiological pH and resultant decrease of arginine residues also reduced cytotoxicities of the polymers due to less interaction of cellular compartments with less positively charged polymers but decreased pDNA condensing abilities, Zeta-potential values, cellular uptakes of polyplexes, and finally transfection efficiencies as well. Thus, the predominance of arginine residues over endosome buffering moieties was revealed regarding efficient gene delivery for p(DAH-R/API)s. From transfection results with chloroquine or nigericin, it can be deduced that the endosomal escape of p(DAH-R/API) polyplexes occurs by direct endosome membrane penetration of arginine moieties as well as endosome buffering of the polymers after cellular uptake, which emphasizes the importance of arginine moieties for polymeric gene delivery systems. [Copyright &y& Elsevier]

Published

2011

26. Primary cardiomyocyte-targeted bioreducible polymer for efficient gene delivery to the myocardium

Author

Nam, Hye Y., McGinn, Arlo, Kim, Pyung-Hwan, Kim, Sung W., and Bull, David A.

Subjects

*HEART cells, *MEDICAL polymers, *GENE therapy, *MYOCARDIUM, *SMALL interfering RNA, *APOPTOSIS, *CELL-mediated cytotoxicity

Abstract

Abstract: A cardiomyocyte-targeted Fas siRNA delivery system was developed using primary cardiomyocyte (PCM) specific peptide-modified polymers with high transfection efficiency and low cytotoxicity. Primary cardiomyocyte (PCM) specific peptide, selected by phage display, was conjugated to bioreducible poly(cystamine bisacrylamide-diaminohexane, CBA-DAH) (PCD). The specificity of the PCM-modified polymer to cardiomyocytes was confirmed by competition study with free PCM ligand and by delivery to non-cardiomyocyte NIH 3T3 fibroblasts. The cellular binding and uptake of the PCM-polymer/pDNA polyplex was inhibited by addition of free PCM peptide. The impact of PCM conjugation on cellular uptake and transfection efficiency was greater in H9C2 rat cardiomyocytes than in NIH 3T3 cells. Fas siRNA/PCM-polymer polyplexes exhibited significant Fas gene silencing in rat cardiomyocytes under hypoxic conditions, leading to inhibition of cardiomyocyte apoptosis. These findings demonstrate the utility of the addition of a primary cardiomyocyte (PCM) specific peptide modification to a bioreducible polymer for targeted delivery of Fas siRNA to inhibit cardiomyocyte apoptosis. [ABSTRACT FROM AUTHOR]

Published

2010

27. A guanidinylated bioreducible polymer with high nuclear localization ability for gene delivery systems

Author

Kim, Tae-il, Lee, Minhyung, and Kim, Sung Wan

Subjects

*BIOPOLYMERS, *GENE therapy, *GENETIC transformation, *CELL-mediated cytotoxicity, *GENE transfection, *GUANIDINE, *CYTOLOGY, *NANOPARTICLES

Abstract

Abstract: Guanidinylated bioreducible polymer (GBP) was developed for gene delivery systems utilizing cellular penetrating ability of guanidine groups. GBP could retard pDNA from a weight ratio of 5 completely in agarose gel electrophoresis but pDNA was released from GBP polyplexes even at a weight ratio of 20 in reducing condition (2.5mm DTT) due to their biodegradation. GBP also could construct 200 nm-sized and positively charged (∼30mV) polyplex nanoparticles with pDNA. The cytotoxicity of GBP was found to be minimal and GBP showed about 8 folds improved transfection efficiency than a scaffold polymer, poly(cystaminebisacrylamide-diaminohexane) (poly(CBA-DAH)) and even higher transfection efficiency than PEI25k in mammalian cell lines. Its high cellular uptake efficiency (96.1%) and strong nuclear localization ability for pDNA delivery due to the structural advantage of bioreducible polymer and guanidine groups were also identified, suggesting GBP is a promising candidate for efficient gene delivery systems. [Copyright &y& Elsevier]

Published

2010

28. Arginine-grafted bioreducible poly(disulfide amine) for gene delivery systems

Author

Kim, Tae-il, Ou, Mei, Lee, Minhyung, and Kim, Sung Wan

Subjects

*DRUG delivery systems, *MEDICAL polymers, *POLYAMINES, *CELL-mediated cytotoxicity, *ARGININE, *CYTOPLASM, *GENE therapy, *GENE transfection

Abstract

Abstract: Arginine-grafted bioreducible poly(disulfide amine) (ABP) polymer was synthesized for non-viral gene delivery systems. Its Mw was measured to be 4.45×103 Da/mole by FPLC-SEC and its PDI value was 1.49. ABP was able to retard pDNA from a weight ratio of 2 but ABP could not retard pDNA even at a weight ratio of 10 in the presence of DTT, showing that it can be biodegraded in reducing environment such as cytoplasm. ABP was examined to form positively charged nano-sized particles (<200nm) with pDNA. ABP showed no significant cytotoxicity and greatly enhanced transfection efficiency in comparison with unmodified poly(cystaminebisacrylamide-diaminohexane) (poly(CBA-DAH)) and PEI25k in mammalian cells. The transfection efficiency of ABP was not much reduced even in the serum condition. Chloroquine treatment was not found to improve the transfection efficiency of ABP. The cellular uptake pattern of ABP polyplexes was almost similar with poly(CBA-DAH), suggesting that greatly enhanced transfection efficiency of ABP is not induced by its high cellular penetrating ability but may be mediated by other factors such as good nuclear localization ability. [Copyright &y& Elsevier]

Published

2009

29. Effect of chemical functionalities in poly(amido amine)s for non-viral gene transfection

Author

Lin, Chao and Engbersen, Johan F.J.

Subjects

*GENE therapy, *AMINES, *MEDICAL polymers, *DRUG delivery systems, *CATIONS, *VIRAL genetics, *CELL-mediated cytotoxicity

Abstract

Abstract: The development of safe and efficient gene delivery vectors is an essential prerequisite for successful gene therapy. As viral vectors suffer from inherent disadvantages, cationic polymers as non-viral vectors have great potential in gene delivery, but their practical application so far is seriously hampered due to their relatively low transfection efficiency caused by multiple extra- and intracellular gene delivery barriers. Therefore, it is important to provide cationic polymers with functionalities that can seriously influence polymeric properties which are important to overcome gene delivery barriers. In this paper, we aim to contribute to the understanding of the effect of functionalities in cationic polymers on their gene delivery properties and transfection activity. As poly(amido amine)s can be easily provided with a large variety of chemical functionalities, we have focused on this class of cationic polymers. It is shown that various structural characteristics in these peptidomimetic polymers such as charge density, rigidity, basicity, hydrophilicity/hydrophobicity, degradability and type of amino groups influence one or more gene delivery properties such as DNA binding capability, colloidal stability, endosomal escape (buffer capacity), vector unpacking, cytotoxicity, and eventual transfection efficiency. Optimal combination of the functionalities in the poly(amido amine)s may lead to significant increase of the level of gene expression. This indicates that multifunctionalized polymers like the poly(amido amine)s can evolve to the next generation of non-viral gene delivery system for gene therapy. [Copyright &y& Elsevier]

Published

2008

30. Bioreducible Polymer Micelles Based on Acid-Degradable Poly(ethylene glycol)-poly(amino ketal) Enhance the Stromal Cell-Derived Factor-1α Gene Transfection Efficacy and Therapeutic Angiogenesis of Human Adipose-Derived Stem Cells

Author

Min Suk Shim, Soo-Hong Lee, Dong-Ik Kim, Suk Ho Bhang, Taekyung Yu, Kyunghee Choi, and Tae-Jin Lee

Subjects

0301 basic medicine, Vascular Endothelial Growth Factor A, Angiogenesis, Genetic enhancement, Apoptosis, Polyethylene Glycols, lcsh:Chemistry, chemistry.chemical_compound, angiogenesis, Mice, Ischemia, lcsh:QH301-705.5, Spectroscopy, Cells, Cultured, Micelles, Chemistry, Gene Transfer Techniques, General Medicine, Transfection, gene therapy, Computer Science Applications, Cell biology, Hindlimb, Vascular endothelial growth factor, bioreducible polymer, hADSCs, SDF-1α, Female, Stem cell, Neovascularization, Physiologic, Biodegradable Plastics, Gene delivery, Mesenchymal Stem Cell Transplantation, Catalysis, Article, Inorganic Chemistry, 03 medical and health sciences, Animals, Humans, Therapeutic angiogenesis, Physical and Theoretical Chemistry, Molecular Biology, Organic Chemistry, Mesenchymal Stem Cells, Genetic Therapy, Chemokine CXCL12, Transplantation, Fibroblast Growth Factors, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999

Abstract

Adipose-derived stem cells (ADSCs) have the potential to treat ischemic diseases. In general, ADSCs facilitate angiogenesis by secreting various pro-angiogenic growth factors. However, transplanted ADSCs have a low therapeutic efficacy in ischemic tissues due to their poor engraftment and low viability. Stromal cell-derived factor-1α (SDF-1α) improves the survival rate of stem cells transplanted into ischemic regions. In this study, we developed acid-degradable poly(ethylene glycol)-poly(amino ketal) (PEG-PAK)-based micelles for efficient intracellular delivery of SDF-1α plasmid DNA. The SDF-1α gene was successfully delivered into human ADSCs (hADSCs) using PEG-PAK micelles. Transfection of SDF-1α increased SDF-1α, vascular endothelial growth factor, and basic fibroblast growth factor gene expression and decreased apoptotic activity in hADSCs cultured under hypoxic conditions in comparison with conventional gene transfection using polyethylenimine. SDF-1α-transfected hADSCs also showed significantly increased SDF-1α and VEGF expression together with reduced apoptotic activity at 4 weeks after transplantation into mouse ischemic hindlimbs. Consequently, these cells improved angiogenesis in ischemic hindlimb regions. These PEG-PAK micelles may lead to the development of a novel therapeutic modality for ischemic diseases based on an acid-degradable polymer specialized for gene delivery.

Published

2018

31. Crosslinked Polypropylenimine Dendrimers With Bioreducible Linkages for Gene Delivery Systems and Their Reductive Degradation Behaviors.

Author

Lee GJ, Ryu K, Kim K, Choi JY, and Kim TI

Subjects

HeLa Cells, Humans, Biodegradable Plastics chemistry, Biodegradable Plastics pharmacology, Materials Testing, Nanoparticles chemistry, Polypropylenes chemistry, Polypropylenes pharmacology, Transfection methods

Abstract

Crosslinked bioreducible polypropylenimine-cystaminebisacrylamides (PPI-CBAs) were synthesized for gene delivery systems. They formed nano-sized polyplexes with high stability even in reducing condition probably due to the re-crosslinking. PPI-CBAs displayed high transfection efficiency comparable to PEI25k in serum condition. However, cytotoxicity increase, glutathione (GSH) decrease, and reactive oxygen species (ROS) increase were observed in cells with the elevation of PPI-CBAs concentration and crosslinking degree. These results suggest that the cytotoxicity of bioreducible polymers may be closely related with their structures and that reduction of GSH by degradation of re-crosslinked bioreducible polymers and the following increase of ROS may induce cytotoxicity by oxidative stress., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

32. Effective gene delivery into human stem cells with a cell-targeting Peptide-modified bioreducible polymer.

Author

Beloor J, Ramakrishna S, Nam K, Seon Choi C, Kim J, Kim SH, Cho HJ, Shin H, Kim H, Kim SW, Lee SK, and Kumar P

Subjects

Animals, Arginine chemistry, Cytoplasm metabolism, DNA chemistry, Embryonic Stem Cells cytology, Fibroblasts metabolism, Flow Cytometry, Green Fluorescent Proteins chemistry, Humans, Ligands, Lipids chemistry, Mesenchymal Stem Cells cytology, Mice, Oxidation-Reduction, Phenotype, Plasmids metabolism, Polymers chemistry, Receptors, Nicotinic metabolism, Transfection, Biocompatible Materials chemistry, Gene Transfer Techniques, Genetic Vectors chemistry, Peptides chemistry, Stem Cells cytology

Abstract

Stem cells are poorly permissive to non-viral gene transfection reagents. In this study, we explored the possibility of improving gene delivery into human embryonic (hESC) and mesenchymal (hMSC) stem cells by synergizing the activity of a cell-binding ligand with a polymer that releases nucleic acids in a cytoplasm-responsive manner. A 29 amino acid long peptide, RVG, targeting the nicotinic acetylcholine receptor (nAchR) was identified to bind both hMSC and H9-derived hESC. Conjugating RVG to a redox-sensitive biodegradable dendrimer-type arginine-grafted polymer (PAM-ABP) enabled nanoparticle formation with plasmid DNA without altering the environment-sensitive DNA release property and favorable toxicity profile of the parent polymer. Importantly, RVG-PAM-ABP quantitatively enhanced transfection into both hMSC and hESC compared to commercial transfection reagents like Lipofectamine 2000 and Fugene. ∼60% and 50% of hMSC and hESC were respectively transfected, and at increased levels on a per cell basis, without affecting pluripotency marker expression. RVG-PAM-ABP is thus a novel bioreducible, biocompatible, non-toxic, synthetic gene delivery system for nAchR-expressing stem cells. Our data also demonstrates that a cell-binding ligand like RVG can cooperate with a gene delivery system like PAM-ABP to enable transfection of poorly-permissive cells., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

33. Synthesis of bioreducible and acid labile poly(amido amine)s via Michael-addition reactions and their application in gene delivery

Author

Yu, Zhiqiang, Yan, Junjie, and You, Yezi

Subjects

*BIODEGRADATION, *POLYMERS, *MICHAEL reaction, *POLYMERIZATION, *GENE transfection, *CHEMICAL reduction, *GENE therapy, *POLYAMINES

Abstract

Summary: Reducible poly(amido amine)s (HPAAs) with acid labile groups have been prepared via Michael addition polymerization. These PAAs are very sensitive to reducing agents such as dithiothreitol (DTT) and glutathione (GSH), and sensitive to pH. The polymers show good condensing property for DNA and good gene transfection efficiency. [ABSTRACT FROM AUTHOR]

Published

2011