Abstract
Encapsulation of azidothymidine (AZT) or its phosphorylated derivatives (AZT-MP and AZT-TP) has been performed using nanoparticles of the porous crystalline iron(iii) trimesate metal-organic framework MIL-100(Fe). The number of phosphate groups per nucleoside analogue has a high impact on the drug loading capacity, and their interaction with the Lewis acid sites from the nanoMOFs is also discussed through a combination of techniques such as UV-vis absorption, circular dichroism, isothermal titration calorimetry, HPLC and molecular simulations. Finally, the effect of the differences in terms of host-guest interactions is discussed through the release in physiological buffers of AZT, AZT-MP and AZT-TP. New perspectives for the nanoencapsulation of monophosphorylated nucleoside analogues for effective anti-cancer and anti-viral therapies are then discussed.
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