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ABSTRACT: The objective of this study is to develop a sustained release system of small interfering RNA (siRNA) inside cells aiming at a prolonged time period of gene suppression. Gelatin aqueous solution containing luciferase siRNA was coacelvated by acetone addition, followed by the glutaraldehyde (GA) crosslinking of gelatin to prepare gelatin nanospheres incorporating siRNA. The nanospheres were degraded with time in phosphate-buffered saline solution containing collagenase to release siRNA incorporated. The nanospheres were degraded more slowly as the GA concentration become higher, and consequently the rate of siRNA become lower. siRNA was released from the nanospheres as a result of nanospheres degradation. The nanospheres were internalized into colon 26 cells luciferase stably expressed, irrespective of the GA concentration. The gene expression was suppressed by the nanospheres incorporating siRNA capable for the longer-term release, and subsequently the time period of gene suppression was prolonged. The siRNA release inside the cell was observed, while the release period became longer for the slow-degraded nanospheres. It is possible that the intracellular siRNA release for a longer time period contributes to the prolonged time period of gene suppression.
Biomaterials 09/2012; 33(35):9097-104. · 7.40 Impact Factor
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ABSTRACT: The objective of this study was to design and prepare a new contrast agent of magnetic resonance (MR) imaging for the evaluation of therapeutic angiogenesis. Diethylenetriaminepentaacetic acid (DTPA) residue of a chelator was chemically introduced to dextran with a molecular weight of 74,000 (dextran-DTPA). Cyclic peptide containing an arginine-glycine-aspartic acid (RGD) sequence (cyclic RGD) with an inherent affinity for the α(v)β(3) integrin was then introduced to dextran-DTPA (Cyclic RGD-dextran-DTPA). Gd(3+) was added to cyclic RGD-dextran-DTPA to prepare a dextran-based MR contrast agent (Cyclic RGD-dextran-DTPA-Gd). Cyclic RGD-dextran-DTPA-Gd had affinity for cells expressing the α(v)β(3) integrin and showed a higher longitudinal relaxivity compared with DTPA-Gd of an MR contrast agent clinically used. Right femoral, external iliac, and deep femoral and circumflex arteries and veins were surgically ligated to prepare a mouse model of hindlimb ischemia. A laser Doppler analysis and histological evaluation confirmed that hindlimb ischemia healed naturally and was accompanied by angiogenesis, while α(v)β(3) integrin was expressed in the ischemic-angiogenic region without any treatment. Mice at 7 days after vascular ligation were used as an angiogenesis model. When intravenously injected into mice with hindlimb ischemia, cyclic RGD-dextran-DTPA accumulated in the ischemic-angiogenic region and showed the MR ability to detect the ischemic-angiogenic region. It is concluded that cyclic RGD-dextran-DTPA-Gd is a promising material for evaluation of therapeutic angiogenesis.
Tissue Engineering Part A 07/2012; · 4.64 Impact Factor
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ABSTRACT: The objective of this study is to design a new multimodal imaging system for the evaluation of bone regeneration process. Pamidronate (PA) of bisphosphonates with a high affinity for hydroxyapatite, was introduced to pullulan with different molecular weights (PA-pullulan). Then, two probes for fluorescence and magnetic resonance (MR) imagings were introduced into the PA-pullulan to prepare the PA-pullulan conjugates containing both the imaging probes (PA-pullulan-F/M). The PA-pullulan-F/M conjugates had an affinity for hydroxyapatite. A gelatin hydrogel incorporating bone morphogentic protein (BMP)-2 was prepared and implanted subcutaneously into mice to obtain an animal model of bone regeneration. When intravenously injected into mice with the bone tissue ectopically formed by the BMP-2-incorporated hydrogel to fluorescently evaluate their body distribution, the PA-pullulan-F/M conjugates were accumulated in the bone tissue regenerated. The time profile of fluorescent intensity well corresponded with that of calcium amount in the bone tissue newly formed. In addition, the PA-pullulan-F/M conjugates showed an MR ability similar to Gd-DTPA (gadopentetate dimeglumine) of a MR imaging agent clinically used. The MR signal around the bone tissue newly formed was enhanced for mice injected with PA-pullulan-F/M prepared from pullulan with the molecular weight of 6000. It is concluded that the PA-pullulan-F/M conjugate is a useful multimodal agent of polymeric delivery system to evaluate the process of bone regeneration.
Journal of Controlled Release 02/2012; 157(3):398-405. · 5.73 Impact Factor
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ABSTRACT: The objective of this study is to investigate the anti-fibrotic effect of combined mesencymal stem cells (MSCs) and gene therapy on liver fibrosis. When transfected by the complex with a plasmid DNA of hepatocyte growth factor (HGF) and the spermine-introduced pullulan of gene carrier, MSCs secreted HGF protein over 1 week. The HGF secreted from transfected MSC had the biological activity to promote the albumin production of hepatocytes. After intravenous injection, the HGF-secreting MSCs (HGF-MSC) accumulated in the liver. The injection of HGF-MSC decreased the fibrosis area in a rat model of liver fibrosis to a significantly great extent compared with that of original MSC. In the in vitro experiment, the higher number of HGF-transfected MSCs was migrated by stromal cell-derived factor (SDF)-1α more strongly than the original MSC. Considering the promotion of SDF-1α secretion in the liver fibrosis, it is possible that, when transplanted, genetically-engineered MSCs are accumulated in the liver due to their higher response to SDF-1α. It is concluded that the intravenous injection of genetically-engineered MSCs is a promising therapy for liver fibrosis.
Journal of Biomaterials Science Polymer Edition 12/2011; · 1.69 Impact Factor
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ABSTRACT: This study is undertaken to design a novel nano-sized delivery system of tissue-type plasminogen activator (t-PA) which has a suppressed thrombolytic activity of t-PA, but recovered the activity only when exposed to ultrasound. Various amounts of ethylenediamine were chemically introduced into gelatin (cationized gelatins) to complex with t-PA. To modify the surface of complexes with polyethylene glycol (PEG), PEG was chemically grafted to the anionic gelatin (PEG-gelatin). The simple mixing with the PEG-gelatin enabled the t-PA-cationized gelatin complex to form a nano-sized delivery complex with PEG chains on the surface. The t-PA activity of PEG-modified complexes was significantly suppressed to be 45% of original t-PA. However, when exposed to ultrasound in vitro, the t-PA activity was fully recovered. A cell culture experiment demonstrated no cytotoxicity of PEG-modified complexes. The body distribution study indicated that the half-life of t-PA in the blood circulation was prolonged about 3 times. In a rabbit thrombosis model, the intravenous administration of PEG-modified complexes followed by ultrasound irradiation resulted in complete recanalization, in remarked contrast to the complex administration alone. It is concluded that the PEG-modified complex is a promising t-PA delivery system to enhance the biological activity at the site necessary only by a local ultrasound irradiation.
Journal of Controlled Release 10/2010; 147(2):269-77. · 5.73 Impact Factor
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ABSTRACT: The objective of this study was to design three-dimensional scaffolds of bone marrow-derived stem cells capable of their gene transfection and evaluate the transfection extent. Three-dimensional scaffolds of gelatin and β-tricalcium phosphate (β-TCP) were prepared. Spermine-introduced pullulan (spermine-pullulan) was prepared as the non-viral carrier of gene transfection. The spermine-pullulan was mixed with a luciferase plasmid DNA to prepare their polyion complex. The scaffolds were treated with succinylated gelatin (suc-gel) at different concentrations, treated in different methods of freeze-drying and dehydrothermal treatment, and placed in the aqueous of complexes to prepare various scaffolds containing the complex. When the stem cells were seeded into the scaffolds to evaluate the gene transfection of cells, the level of plasmid DNA transfection depended on the method of complex containing scaffolds preparation. The complexes were released with time from the scaffolds although the release profile depended on the type of scaffolds. The order of gene transfection for the stem cells in the scaffolds was in good accordance with that of plasmid DNA released. It is possible that cells were transfected with the complexes released from the scaffolds.
Biomaterials 10/2010; 32(3):919-25. · 7.40 Impact Factor
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ABSTRACT: The objective of this study is to prepare a non-viral carrier of gene transfection from various polysaccharides and evaluate the feasibility in gene expression for mesenchymal stem cells (MSCs). Various amounts of spermine were chemically introduced into pullulan, dextran and mannan with a molecular weight of around 40 000 or pullulan with different molecular weights to prepare cationized polysaccharides with different extents of spermine introduced (spermine-polysaccharide). Each cationized polysaccharide was complexed with a plasmid DNA at various ratios and in vitro gene transfection was investigated for rat bone marrow-derived MSCs. The level of gene expression depended on the type of cationized polysaccharide. The highest level was observed for the complex of spermine-pullulan and plasmid DNA. Additionally, the level also depended on the molecular weight of pullulan and the extent of spermine introduced to pullulan. Suppression of gene expression with chlorpromazine and methyl-beta-cyclodextrin of endocytosis inhibitors demonstrated that the cellular uptake of spermine-pullulan-plasmid DNA complexes was mediated by clathrin- and raft/caveolae-dependent endocytic pathways. The cationized pullulan is a promising non-viral carrier of plasmid DNA for MSCs.
Journal of Biomaterials Science Polymer Edition 01/2010; 21(2):185-204. · 1.69 Impact Factor
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ABSTRACT: The objective of this study is to prepare a non-viral carrier of gene expression from the polysaccharide dextran and evaluate the effect of amine compounds introduced to dextran on the level of gene expression. Dextran with a molecular weight of 74 x 10(3) was cationized by the chemical introduction of different amine compounds. The cationized dextran was complexed with a plasmid DNA and the vitro gene transfection was investigated for HeLa cells. The level of gene expression depended on the amine compound introduced to dextran. The highest level was observed for the complex of spermine-introduced dextran and plasmid DNA. The highest cellular internalization and the best buffering effect were observed among every cationized dextran. Every complex did not show any cytotoxicity. It is concluded that the superior properties of spermine-introduced dextran enabled the plasmid DNA to enhance the expression level to a great extent compared with other cationized dextrans. Cationized dextran is a promising non-viral carrier of plasmid DNA.
Journal of Biomaterials Science Polymer Edition 01/2010; 21(2):225-36. · 1.69 Impact Factor
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ABSTRACT: The objective of this study was to genetically engineer dendritic cells (DC) for biological activation and evaluate their anti-tumor activity in a tumor-bearing mouse model. Mouse DC were incubated on the surface of culture dishes which had been coated with the complexes of a cationized dextran and luciferase plasmid DNA complexes plus a cell adhesion protein, Pronectin, for gene transfection (reverse transfection). When compared with the conventional transfection where DC were transfected in the medium containing the complexes, the level of gene expression by the reverse method was significantly higher and the time period of gene expression was prolonged. Following the reverse transfection of DC by a plasmid DNA of mouse interleukin-12 (mIL-12) complexed with the cationized dextran, the mIL-12 protein was secreted at higher amounts for a longer time period. When injected intratumorally into mice carrying a mass of B16 tumor cells, the DC genetically activated showed significant anti-tumor activity.
Journal of Biomaterials Science Polymer Edition 01/2010; 21(5):659-75. · 1.69 Impact Factor
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ABSTRACT: The objective of this study is to prepare iron oxide nanoparticles with different sizes and surface potentials and evaluate the labeling efficiency of bone marrow-derived mesenchymal stem cells (MSC). The ferric and ferrous ions were co-precipitated in the presence of pullulan or the cationized and anionized derivatives to prepare iron oxide-pullulan nanoparticles of a contrast agent of magnetic resonance imaging (MRI). The size and surface potential of iron oxide-pullulan nanoparticles were changed by altering the mixing molar ratio of pullulan OH groups to ferric ions and the mixing percentage of pullulan derivatives, respectively. When MSC were labeled with the iron oxide-pullulan nanoparticles by the co-culture for 1h, the labeling efficiency and (1)H MRI relaxivity were greatly influenced by the particle size and surface potential, while the labeling procedure did not affect the viability and differentiation ability of MSC. These findings indicate that iron oxide-pullulan nanoparticle is a promising tool for the MRI labeling of MSC.
Journal of Controlled Release 11/2009; 142(3):465-73. · 5.73 Impact Factor
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ABSTRACT: The objective of this study is to investigate the possibility of small interfering RNA (siRNA) complexed with a cationized dextran of nonviral carrier to biologically modify the adipogenesis extent of bone marrow-derived mesenchymal stem cells (MSC). Spermine was chemically introduced to the hydroxyl groups of dextran to prepare the cationized dextran (spermine-dextran). The spermine-dextran could form a complex with siRNA, and the physicochemical properties were changed by the molecular weight of dextran, the molar percentage of spermine introduced to dextran, and the molar ratio of nitrogen molecule of spermine-dextran to the phosphorous ones of siRNA (N/P ratio). The gene expression level of luciferase or green fluorescence protein was significantly suppressed by transfection with the complex of spermine-dextran and siRNA. The gene expression level by the complex decreased with an increase in the extent of complex internalized. Biochemical experiments revealed that culture in an adipogenic differentiation medium allowed MSC to differentiate into adipogenic cells. However, upon culturing with siRNA of anti-transcription coactivator containing PDZ-binding motif (TAZ) for osteogenic differentiation complexed with the spermine-dextran, the adipogenesis of MSC was further promoted. It is concluded that the spemine-dextran was a promising nonviral carrier to suppress the expression level of differentiation gene, resulting in the modification of cell differentiation direction.
Tissue Engineering Part A 08/2009; 16(1):21-31. · 4.64 Impact Factor
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Yasuhiro Takemoto,
Hiroyuki Kawata,
Tsunenari Soeda,
Keiichi Imagawa,
Satoshi Somekawa,
Yukiji Takeda,
Shiro Uemura,
Masanori Matsumoto,
Yoshihiro Fujimura, Jun-ichiro Jo,
Yu Kimura,
Yasuhiko Tabata,
Yoshihiko Saito
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ABSTRACT: In-stent thrombosis is mainly triggered by adenosine diphosphate (ADP)-dependent platelet aggregation after percutaneous coronary stent implantation. Ectonucleoside triphosphate diphosphohydrolase (E-NTPDase) rapidly hydrolyzes ADP to adenosine monophosphate, inhibiting platelet aggregation. We tested the hypothesis that local delivery of human placental E-NTPDase (pE-NTPDase) gene into injured arteries via gene-eluting stent could prevent subacute in-stent thrombosis.
We generated gene-eluting stents by coating bare metal stents with cationic gelatin hydrogel containing pE-NTPDase cDNA (pE-NTPDase stent), and implanted the stents into rabbit femoral arteries (FA) prone to production of platelet-rich thrombi due to repeated balloon injury at 4-week intervals. After the second injury, E-NTPDase gene expression was severely decreased; however, the implantation of pE-NTPDase stent increased E-NTPDase mRNA levels and NTPDase activity to higher level than normal FA. The FAs with pE-NTPDase stents maintained patency in all rabbits (P<0.01), whereas the stent-implanted FAs without pE-NTPDase gene showed low patency rates (17% to 25%). The occlusive platelet-rich thrombi, excessive neointimal growth, and infiltration of macrophages were inhibited in stent implanted FA with pE-NTPDase gene, but not without pE-NTPDase gene.
Human pE-NTPDase gene transfer via cationic gelatin-coated stents inhibited subacute in-stent thrombosis and suppressed neointimal hyperplasia and inflammation without antiplatelet drugs.
Arteriosclerosis Thrombosis and Vascular Biology 04/2009; 29(6):857-62. · 6.37 Impact Factor
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ABSTRACT: The recent rapid progress of molecular biology together with the steady progress of genome projects has given us some essential and revolutionary information about DNA and RNA to elucidate various biological phenomena at a genetic level. Under these circumstances, the technology and methodology of gene transfection have become more and more important to enhance the efficacy of gene therapy for several diseases. In addition, gene transfection is a fundamental technology indispensable to the further research development of basic biology and medicine regarding stem cells. Stem cells genetically manipulated will enhance the therapeutic efficacy of cell transplantation. In this paper, the carrier and technology of gene delivery are briefly overviewed while the applications to the basic researches of biology and medicine as well as regenerative medical therapy are introduced. A new non-viral carrier and the cell culture system are described to efficiently manipulate stem cells.
European Journal of Pharmaceutics and Biopharmaceutics 02/2008; 68(1):90-104. · 4.27 Impact Factor
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ABSTRACT: The objective of this study is to prepare a novel gene carrier from pullulan, a polysaccharide with an inherent affinity for the liver, and evaluate the feasibility in gene transfection. Various amounts of spermine were chemically introduced into pullulan with molecular weights of 22,800, 47,300, and 112,000 to prepare cationized pullulan derivatives with different percentages of spermine introduced. Each cationized pullulan derivative was complexed with a plasmid DNA at various ratios and applied to HepG2 cells for in vitro gene transfection. The level of gene expression depended on the percent spermine introduced of cationized pullulan derivatives and the molecular weight of pullulan. However, when compared at the complexation molar ratio of pullulan derivative to the plasmid DNA, the expression level became maximum around the ratio of 10(2), irrespective of the pullulan molecular weight. Pre-treatment of cells with asialofetuin of asialoglycoprotein receptor ligand decreased the level of gene expression by the complexes. The cationized pullulan derivative with an appropriate physicochemical character is a promising non-viral carrier which promotes the receptor-mediated internalization of plasmid DNA and consequently enhances the expression level.
Journal of Controlled Release 05/2007; 118(3):389-98. · 5.73 Impact Factor
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ABSTRACT: A new non-viral method of gene transfection was designed to enhance the level of gene expression for rat mesenchymal stem cells (MSCs). Pullulan was cationized using chemical introduction of spermine to prepare cationized pullulan of non-viral carrier (spermine-pullulan). The spermine-pullulan was complexed with a plasmid deoxyribonucleic acid (DNA) of luciferase and coated on the surface of culture substrate together with Pronectin of artificial cell adhesion protein. MSCs were cultured and transfected on the complex-coated substrate (reverse transfection), and the level and duration of gene expression were compared with those of MSCs transfected by culturing in the medium containing the plasmid DNA-spermine-pullulan complex (conventional method). The reverse transfection method enhanced and prolonged gene expression significantly more than did the conventional method. The reverse method permitted the transfection culture of MSCs in the presence of serum, in contrast to the conventional method, which gave cells a good culture condition to lower cytotoxicity. The reverse transfection was carried out for a non-woven fabric of polyethylene terephthalate (PET) coated with the complex and Pronectin using agitation and stirring culture methods. The two methods enhanced the level and duration of gene expression for MSCs significantly more than did the static method. It is possible that medium circulation improves the culture conditions of cells in terms of oxygen and nutrition supply and waste excretion, resulting in enhanced gene expression.
Tissue Engineering 03/2007; 13(2):245-51. · 4.02 Impact Factor
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ABSTRACT: It is expected that mesenchymal stem cells (MSCs) will be a cell source for cardiac reconstruction because of their differentiation potential and ability to supply growth factors. However, poor viability at the transplanted site often hinders the therapeutic potential of MSCs. Here, in a trial designed to address this problem, a non-viral carrier of cationized polysaccharide is introduced for genetic engineering of MSCs. Spermine-introduced dextran of cationized polysaccharide (spermine-dextran) was internalized into MSCs by way of a sugar-recognizable receptor to enhance the expression level of plasmid deoxyribonucleic acid (DNA). When genetically engineered by the spermine-dextran complex with plasmid DNA of adrenomedullin (AM), MSCs secreted a large amount of AM, an anti-apoptotic and angiogenic peptide. Transplantation of AM gene-engineered MSCs improved cardiac function after myocardial infarction significantly more than MSCs alone. Thus, this genetic engineering technology using the non-viral spermine-dextran is a promising strategy to improve MSC therapy for ischemic heart disease.
Tissue Engineering 03/2007; 13(2):313-22. · 4.02 Impact Factor
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ABSTRACT: The objective of this study was to prepare a novel gene carrier from pullulan, a polysaccharide with an inherent affinity for the liver, and evaluate the feasibility in gene transfection. Pullulan with different molecular weights was cationized by chemical introduction of spermine. The cationized pullulan derivative was complexed with a plasmid DNA and applied to HepG2 cells for in vitro gene transfection. The level of gene expression depended on the molecular weight of cationized pullulan derivatives and the highest level was observed for the cationized pullulan derivative with a molecular weight of 47.3 x 10(3). Pre-treatment of cells with asialofetuin decreased the level of gene expression by the complexes. These findings indicate that the cationized pullulan derivative is a promising non-viral carrier of plasmid DNA which is internalized in a receptor-mediated fashion.
Journal of Biomaterials Science Polymer Edition 02/2007; 18(7):883-99. · 1.69 Impact Factor
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Isao Kanatani,
Tomonori Ikai,
Arimichi Okazaki, Jun-Ichiro Jo,
Masaya Yamamoto,
Masaaki Imamura,
Akihiro Kanematsu,
Shingo Yamamoto,
Noriyuki Ito,
Osamu Ogawa,
Yasuhiko Tabata
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ABSTRACT: The feasibility and mechanism of gene delivery by pullulan-spermine, a recently developed cationic polysaccharide, were investigated. Pullulan-spermine-mediated transfection of plasmid DNA resulted in greatly reduced cytotoxicity and a 10-fold increase in the level of gene expression when compared to Lipofectamine 2000, a commercially available cationic lipid. Additionally, after transfection of p53-expressing plasmid DNA by pullulan-spermine but not Lipofectamine 2000, the in vitro proliferation of T24 cells was significantly reduced. Pullulan-spermine-mediated gene expression was inhibited by both chlorpromazine of clathrin-mediated endocytosis inhibitor and methyl-beta-cyclodextrin and filipin of raft/caveolae inhibitors. We conclude that pullulan-spermine is a promising carrier for gene transfection, and that cellular uptake of pullulan-spermine-plasmid DNA complexes is mediated by clathrin- and raft/caveolae-dependent endocytotic pathways.
Journal of Controlled Release 12/2006; 116(1):75-82. · 5.73 Impact Factor
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ABSTRACT: The objective of this study is to prepare a novel gene carrier from pullulan, a polysaccharide with an inherent affinity for the liver and evaluate the feasibility in gene transfection in the mice liver. Pullulan with a weight-average molecular weight of 22,800 was cationized by the chemical introduction of spermine (spermine-pullulan). The cationized pullulan derivative was complexed with a plasmid DNA and intravenously injected for in vivo gene transfection. The level of gene expression by the spermine-pullulan in the liver depended on the extent of spermine introduced and the highest level was observed for the spermine-pullulan with an introduction extent of 5.60. When a plasmid DNA coding NK4 of a hepatocyte growth factor (HGF)/scatter factor antagonist complexed with the spermine-pullulan was intravenously injected to mice 1 day before the inoculation of RLmale1 tumor cells, the tumor-bearing mice survived for a longer time period, while the GPT level and the number of tumor cells grown in the liver were low compared with those of free plasmid DNA injection. These findings indicate that the liver targeting of NK4 plasmid DNA by complexation with the spermine-pullulan specifically enhanced the liver expression level, resulting in augmented suppression effect on tumor growth therein.
Journal of Nanoscience and Nanotechnology 6(9-10):2853-9. · 1.56 Impact Factor
