Delivery of PAMAM dendrimers and dendriplexes across natural barriers (blood–brain barrier and placental barrier) in healthy pregnant mice

IF 5.5 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Eric Kuhn, Bhairavi Srinageshwar, Darren T. Story, Douglas Swanson, Ajit Sharma, Gary L. Dunbar, Julien Rossignol
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引用次数: 0

Abstract

Gene therapy is an important tool for treating fetal diseases that allows for the delivery and integration of therapeutic genes into the genome of cells carrying mutations. Nanomolecules, like PAMAM dendrimers, have recently come into wider use for carrying vectors as they have several advantages over viral vectors. Namely, (1) tunable size and surface chemistry, (2) uniform size, (3) the ability to target specific tissues, and (4) the ability to carry large biomolecules and drugs. Recently, we demonstrated that 4th generation (G4) PAMAM dendrimer with a cystamine core and a non-toxic surface having 90% –OH and 10% –NH2 groups (D-Cys) could cross the blood–brain barrier following injection into the bloodstream. In the current study, as a proof of concept, we delivered the dendrimers alone (D-Cys) tagged with Cy5.5 (D-Cys-cy5.5) to healthy pregnant C57BL/6J mice to determine the fate of these dendrimers in the pregnant mice as well as in the fetus. Systematic diffusion of the D-Cys-cy5.5 was evaluated on gestational day 17 (3 days after injection) using in vivo imaging. This revealed that the dendrimer was taken up into circulation and away from the injection site. Analysis of sections by fluorescence microscopy showed that D-Cys-cy5.5 was able to successfully cross the maternal blood–brain barrier. However, analysis of the fetal brains failed to detect dendrimers in the central nervous system (CNS). Instead, they appeared to be retained in the placenta. This is one of the first studies to analyze the distribution of surface-modified PAMAM dendrimer in the pregnant mouse and fetus following systemic injection.

Abstract Image

在健康怀孕小鼠体内通过天然屏障(血脑屏障和胎盘屏障)输送 PAMAM 树枝状聚合物和树枝状复合物
基因疗法是治疗胎儿疾病的重要手段,它可以将治疗基因传递并整合到携带突变的细胞基因组中。纳米大分子(如 PAMAM 树枝状分子)与病毒载体相比具有多种优势,因此最近被广泛用于载体。即:(1) 尺寸和表面化学性质可调;(2) 尺寸均匀;(3) 可靶向特定组织;(4) 可携带大型生物分子和药物。最近,我们证明了第四代(G4)PAMAM 树枝状聚合物具有胱胺核心和无毒表面(90% -OH和10% -NH2基团(D-Cys)),注入血液后可穿过血脑屏障。在本研究中,作为概念验证,我们向健康的怀孕 C57BL/6J 小鼠注射了单独的(D-Cys)标记 Cy5.5(D-Cys-cy5.5)的树状分子,以确定这些树状分子在怀孕小鼠和胎儿体内的命运。在妊娠第17天(注射后3天),利用体内成像技术对D-Cys-cy5.5的系统扩散进行了评估。结果显示,树枝状聚合物被带入血液循环并远离注射部位。荧光显微镜对切片的分析表明,D-Cys-cy5.5 能够成功穿过母体的血脑屏障。然而,对胎儿大脑的分析未能在中枢神经系统(CNS)中检测到树枝状聚合物。相反,它们似乎保留在胎盘中。这是首次分析全身注射后表面修饰的 PAMAM 树突分子在怀孕小鼠和胎儿体内分布情况的研究之一。
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来源期刊
Nanoscale Research Letters
Nanoscale Research Letters 工程技术-材料科学:综合
CiteScore
11.30
自引率
0.00%
发文量
110
审稿时长
48 days
期刊介绍: Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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