Uptake and transport of B₁₂-conjugated nanoparticles in airway epithelium

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• 作者：Robyn Fowler ; Driton Vllasaliu ; Franco H. Falcone ; Martin Garnett ; Bryan Smith ; Helen Horsley ; Cameron Alex ; er ; Snow Stolnik
• 关键词：Vitamin B12 ; Airway epithelium ; Cubilin ; Calu-3 cells ; Epithelial nanoparticle transport
• 刊名：Journal of Controlled Release
• 出版年：28 November, 2013
• 年：2013
• 卷：172
• 期：1
• 页码：374-381
• 全文大小：992 K

文摘

Non-invasive delivery of biotherapeutics, as an attractive alternative to injections, could potentially be achieved through the mucosal surfaces, utilizing nanoscale therapeutic carriers. However, nanoparticles do not readily cross the mucosal barriers, with the epithelium presenting a major barrier to their translocation. The transcytotic pathway of vitamin B₁₂ has previously been shown to 鈥榝erry鈥?B₁₂-decorated nanoparticles across intestinal epithelial (Caco-2) cells. However, such studies have not been reported for the airway epithelium. Furthermore, the presence in the airways of the cell machinery responsible for transepithelial trafficking of B₁₂ is not widely reported. Using a combination of molecular biology and immunostaining techniques, our work demonstrates that the bronchial cell line, Calu-3, expresses the B₁₂-intrinsic factor receptor, the transcobalamin II receptor and the transcobalamin II carrier protein. Importantly, the work showed that sub-200 nm model nanoparticles chemically conjugated to B₁₂ were internalised and transported across the Calu-3 cell layers, with B₁₂ conjugation not only enhancing cell uptake and transepithelial transport, but also influencing intracellular trafficking. Our work therefore demonstrates that the B₁₂ endocytotic apparatus is not only present in this airway model, but also transports ligand-conjugated nanoparticles across polarised epithelial cells, indicating potential for B₁₂-mediated delivery of nanoscale carriers of biotherapeutics across the airways.