Bovine AAV transcytosis inhibition by tannic acid results in functional expression of CFTR in vitro and altered biodistribution in vivo.

G Di Pasquale; L Ostedgaard; D Vermeer; W D Swaim; P Karp; J A Chiorini

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Bovine AAV transcytosis inhibition by tannic acid results in functional expression of CFTR in vitro and altered biodistribution in vivo.

机译：单宁酸对牛AAV转胞吞作用的抑制作用导致体外CFTR的功能性表达以及体内生物分布的改变。

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Bovine adeno-associated virus (BAAV) can enter a cell either through a transcytosis or transduction pathway. We previously demonstrated that particles entering via the transcytosis pathway can be redirected to transduce the cell by blocking particle exocytosis with tannic acid (TA). To investigate whether this approach is useful in lung gene therapy applications, we tested the effect of TA on BAAV transduction in cystic fibrosis airway epithelia in vitro, and in mouse lung in vivo. Our findings suggest that BAAV transcytosis can occur in vivo and that treatment with TA reduces transcytosis and increases lung transduction. TA treatment did not impair the sorting and the activity of the BAAV expressed cystic fibrosis transmembrane regulator membrane protein.

机译：牛腺相关病毒（BAAV）可以通过转胞吞作用或转导途径进入细胞。先前我们证明，通过单宁酸（TA）阻止颗粒胞吐作用，可以将通过转胞吞途径进入的颗粒重新定向以转导细胞。为了研究这种方法是否在肺基因治疗应用中有用，我们测试了TA在体外和体内小鼠肺囊性纤维化气道上皮细胞中对BAAV转导的作用。我们的发现表明，BAAV转胞吞作用可在体内发生，而TA的治疗可减少转胞吞作用并增加肺转导。 TA处理不损害BAAV表达的活性和囊性纤维化跨膜调节膜蛋白的活性。

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《Gene therapy 》 |2012年第5期| 共6页
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G Di Pasquale; L Ostedgaard; D Vermeer; W D Swaim; P Karp; J A Chiorini;
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1. Bovine AAV transcytosis inhibition by tannic acid results in functional expression of CFTR in vitro and altered biodistribution in vivo. [J] . G Di Pasquale, L Ostedgaard, D Vermeer, Gene therapy . 2012 ,第5期

机译：单宁酸对牛AAV转胞吞作用的抑制作用导致体外CFTR的功能性表达以及体内生物分布的改变。
2. Effect of heating and ionic strength on the interaction of bovine serum albumin and the antinutrients tannic and phytic acids, and its influence on in vitro protein digestibility [J] . Kaspchak Elaine, Mafra Luciana Igarashi, Mafra Marcos Rogerio Food Chemistry . 2018 ,第JUNa30期

机译：加热和离子强度对牛血清白蛋白与抗营养性单宁酸和植酸的相互作用的影响及其对体外蛋白质消化率的影响
3. Characterization of tannic acid- and gallic acid-functionalized single- and multiwalled carbon nanotubes and an in?vitro evaluation of their antioxidant properties [J] . Krishnamoorthy Rajavel, Rajkumar Gomathi, Sellamuthu Manian, Journal of Taibah University Medical Sciences . 2016 ,第5期

机译：单宁酸和没食子酸官能化的单壁和多壁碳纳米管的表征，并通过体外评估其抗氧化性能
4. Nanomolar CFTR Inhibition by Pore- Occluding Divalent Polyethylene Glycol- Malonic Acid Hydrazides [C] . Nitin. D. Sonawane, Dan Zhao, Alan S. Verkman PMSE Symposia . 2008

机译：纳摩尔CFTR通过孔隙闭塞二价聚乙二醇 - 丙二酸肼抑制
5. The expression of heat shock protein 70, heat shock protein 90 and heat shock factor 1 within the bovine midcycle corpus luteum after stimulation with temperature in vitro and PGF2alpha in vitro and in vivo. [D] . Kopka, Melissa N. 2006

机译：热激蛋白70，热激蛋白90和热激因子1在体外温度和体外及体内PGF2α刺激后在牛黄体中体中的表达。
6. Bovine AAV Transcytosis Inhibition by Tannic Acid Results in Functional Expression of CFTR in Vitro and Altered Bio-Distribution in Vivo [O] . Giovanni Di Pasquale, Lynda Ostedgaard, Daniel Vermeer, -1

机译：牛aaV转胞吞抑制作用鞣酸结果在体外体内CFTR的功能性表达和改变生物分布
7. Bovine AAV transcytosis inhibition by tannic acid results in functional expression of CFTR in vitro and altered biodistribution in vivo [O] . G Di Pasquale, L Ostedgaard, D Vermeer, 2011

机译：由单宁酸的牛AAV转胞增多症抑制导致CFTR的功能表达体外和体内生物分布改变

Bovine AAV transcytosis inhibition by tannic acid results in functional expression of CFTR in vitro and altered biodistribution in vivo.

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