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Cellular Analysis and Chemotherapeutic Potential of a Bi-Functionalized Halloysite Nanotube

Yangyang Luo, Ahmed Humayun, Teresa A. Murray, Benjamin S. Kemp, A. McFarland, Xuan Liu, David K. Mills

2020Pharmaceutics27 citationsDOIOpen Access PDF

Abstract

The surface of halloysite nanotubes (HNTs) was bifunctionalized with two ligands-folic acid and a fluorochrome. In tandem, this combination should selectively target cancer cells and provide a means for imaging the nanoparticle. Modified bi-functionalized HNTs (bi-HNTs) were then doped with the anti-cancer drug methotrexate. bi-HNTs were characterized and subjected to in vitro tests to assess cellular growth and changes in cellular behavior in three cell lines-colon cancer, osteosarcoma, and a pre-osteoblast cell line (MC3T3-E1). Cell viability, proliferation, and cell uptake efficiency were assessed. The bi-HNTs showed cytocompatibility at a wide range of concentrations. Compared with regular-sized HNTs, reduced HNTs (~6 microns) were taken up by cells in more significant amounts, but increased cytotoxicity lead to apoptosis. Multi-photon images confirmed the intracellular location of bi-HNTs, and the method of cell entry was mainly through caveolae-mediated endocytosis. The bi-HNTs showed a high drug loading efficiency with methotrexate and a prolonged period of release. Most importantly, bi-HNTs were designed as a drug carrier to target cancer cells specifically, and imaging data shows that non-cancerous cells were unaffected after exposure to MTX-doped bi-HNTs. All data provide support for our nanoparticle design as a mechanism to selectively target cancer cells and significantly reduce the side-effects caused by off-targeting of anti-cancer drugs.

Topics & Concepts

HalloysiteHeLaEndocytosisCancer cellCytotoxicityIntracellularCell growthCellViability assayCell cultureMethotrexateApoptosisChemistryIn vitroBiophysicsCancer researchMaterials scienceCancerMedicineBiochemistryBiologyImmunologyInternal medicineComposite materialGeneticsClay minerals and soil interactionsTherapeutic Uses of Natural ElementsPharmacological Effects and Toxicity Studies
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