The Next Generation Non-competitive Active Polyester Nanosystems for Transferrin Receptor-mediated Peroral Transport Utilizing Gambogic Acid as a Ligand

P. Saini; R. Ganugula; M. Arora; M. N. V. Ravi Kumar

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The Next Generation Non-competitive Active Polyester Nanosystems for Transferrin Receptor-mediated Peroral Transport Utilizing Gambogic Acid as a Ligand

机译：下一代非竞争活性聚酯纳米系统，用于转铁蛋白受体介导的运动介导的流动运输作为配体

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The current methods for targeted drug delivery utilize ligands that must out-compete endogenous ligands in order to bind to the active site facilitating the transport. To address this limitation, we present a non-competitive active transport strategy to overcome intestinal barriers in the form of tunable nanosystems (NS) for transferrin receptor (TfR) utilizing gambogic acid (GA), a xanthanoid, as its ligand. The NS made using GA conjugated poly(lactide-co-glycolide) (PLGA) have shown non-competitive affinity to TfR evaluated in cell/cell-free systems. The fluorescent PLGA-GA NS exhibited significant intestinal transport and altered distribution profile compared to PLGA NS in vivo. The PLGA-GA NS loaded with cyclosporine A (CsA), a model peptide, upon peroral dosing to rodents led to maximum plasma concentration of CsA at 6?h as opposed to 24?h with PLGA-NS with at least 2-fold higher levels in brain at 72?h. The proposed approach offers new prospects for peroral drug delivery and beyond.

机译：目前靶向药物递送的方法利用必须超出竞争源性配体的配体，以结合促进运输的活性位点。为了解决这种限制，我们提出了一种不竞争的主动运输策略，以克服用于转铁蛋白受体（TFR）的可调谐纳米系统（NS）形式的肠道屏障（TFR），利用甘氨酸（GA），黄嘌呤，作为其配体。使用Ga缀合的聚（丙交酯 - 共乙酰基）（PLGA）制备的NS显示了对细胞/无细胞系统中的TFR的非竞争亲和力。与体内PLGA NS相比，荧光PLGA-GA NS表现出显着的肠道输送和改变的分布曲线。用环孢菌素A（CSA），模型肽加入到啮齿动物的PLGA-GA NS，其在啮齿动物中导致CSA的最大血浆浓度为6ΩH，与24ΩH为24ΩH，具有至少2倍的PLGA-NS脑中的水平为72？h。该拟议的方法为情人药物交付和超越提供了新的前景。

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《Scientific reports.》 |2016年第1期|共页
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P. Saini; R. Ganugula; M. Arora; M. N. V. Ravi Kumar;
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1. Gambogic acid as a non-competitive inhibitor of ATP-binding cassette transporter B1 reverses the multidrug resistance of human epithelial cancers by promoting ATP-binding cassette transporter B1 protein degradation. [J] . Xu Wang, Rongxin Deng, Yan Lu, Basic & clinical pharmacology & toxicology. . 2013,第1期

机译：藤黄酸作为ATP结合盒转运蛋白B1的非竞争性抑制剂，可通过促进ATP结合盒转运蛋白B1蛋白的降解来逆转人类上皮癌的多药耐药性。
2. Pandey MK, Sung B, Ahn KS, Kunnumakkara AB, Chaturvedi MM, Aggarwal BB. Gambogic acid, a novel ligand for transferrin receptor, potentiates TNF-induced apoptosis through modulation of the nuclear factor-κB signaling pathway. Blood. 2007;110(10):3517-3525. [J] . Blood: The Journal of the American Society of Hematology . 2013,第18期

机译：Pandey Mk，Sung B，Ahn Ks，Kunnumakkara Ab，Chaturvedi mm，Aggarwal BB。 Gambogic acid，一种用于转移素受体的新型配体，通过调节核因子-κB信号通路来增强TNF诱导的凋亡。血液。 2007; 110（10）：3517-3525。
3. Pandey MK, Sung B, Ahn KS, Kunnumakkara AB, Chaturvedi MM, Aggarwal BB. Gambogic acid, a novel ligand for transferrin receptor, potentiates TNF-induced apoptosis through modulation of the nuclear factor-κB signaling pathway. Blood. 2007;110(10):3517-3525. [J] . Blood: The Journal of the American Society of Hematology . 2013,第18期

机译：Pandey MK，Sung B，Ahn KS，Kunnumakkara AB，Chaturvedi MM，Aggarwal BB。藤黄酸是运铁蛋白受体的新型配体，它通过调节核因子-κB信号通路来增强TNF诱导的细胞凋亡。血液。 2007; 110（10）：3517-3525。
4. Characterization of drug delivery systems utilizing receptor-mediated transport [C] . Brewer Erik, Lowman Anthony Bioengineering Conference (NEBEC), 2012 38th Annual Northeast . 2012

机译：利用受体介导的转运来表征药物输送系统
5. Reactions at coordinated ligands: Redox-active ligands and coordination of Lewis acids. [D] . Ringenberg, Mark R. 2011

机译：在配体上的反应：氧化还原活性配体和路易斯酸的配位。
6. The Next Generation Non-competitive Active Polyester Nanosystems for Transferrin Receptor-mediated Peroral Transport Utilizing Gambogic Acid as a Ligand [O] . P. Saini, R. Ganugula, M. Arora, -1

机译：利用藤黄酸作为配体的转铁蛋白受体介导的经口转运的下一代非竞争性活性聚酯纳米系统
7. The Next Generation Non-competitive Active Polyester Nanosystems for Transferrin Receptor-mediated Peroral Transport Utilizing Gambogic Acid as a Ligand [O] . P. Saini, R. Ganugula, M. Arora, 2016

机译：下一代非竞争活性聚酯纳米系统，用于转铁蛋白受体介导的运动介导的流动运输作为配体
8. Ecut: Energy Conversion and Utilization Technologies Program Biocatalysis Research Activity. Generation of Chemical Intermediates by Catalytic Oxidative Decarboxylation of Dilute Organic Acids [R] . Distefano, S., Gupta, A., Ingham, J. D. 1983

机译：Ecut：能源转换和利用技术计划生物催化研究活动。稀有机酸催化氧化脱羧生成化学中间体

The Next Generation Non-competitive Active Polyester Nanosystems for Transferrin Receptor-mediated Peroral Transport Utilizing Gambogic Acid as a Ligand

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