Your search keyword '"Agrofoglio, Luigi A."' showing total 3 results

1. Synthesis of LAVR-289, a new [(Z)-3-(acetoxymethyl)-4-(2,4-diaminopyrimidin-6-yl)oxy-but-2-enyl]phosphonic acid prodrug with pronounced antiviral activity against DNA viruses

Author

Bessières, Maximes, Roy, Vincent, Abuduani, Tuniyazi, Favetta, Patrick, Snoeck, Robert, Andrei, Graciela, Moffat, Jennifer, Gallardo, Franck, and Agrofoglio, Luigi A.

Published

2024

2. Molecularly Imprinted Polymeric Nanoparticles as Drug Delivery System for Tenofovir, an Acyclic Nucleoside Phosphonate Antiviral.

Author

Mathieu, Thomas, Favetta, Patrick, and Agrofoglio, Luigi A.

Subjects

POLYMERIC drug delivery systems, ANTI-HIV agents, POLYMERIZATION kinetics, ADSORPTION isotherms, BODY temperature, IMPRINTED polymers

Abstract

A molecularly imprinted polymer of Tenofovir (1), an FDA-approved acyclic nucleoside phosphonate with antiviral activity, was synthesized using a non-covalent approach. A pre-polymerization complex was formed between (1) and DMAEMA and in-house synthetic N1-[(2-methacryloyloxy)ethyl] thymine, with EGDMA as a cross-linker in an MeCN/H2O (9:1, 1:1) mixture as a porogen, giving an imprinting factor (IF) of 5.5 at 2.10−5 mol/L. Binding parameters were determined by the Freundlich–Langmuir model, Qmax and Ka, and well as the particle morphology for MIP and NIP. Finally, the release profiles, for MIP and NIP, were obtained at 25 °C and 37 °C, which is body temperature, in a phosphate buffer saline, pH 7.4, mimicking the blood pH value, to determine the potential sustained release of our polymeric materials. [ABSTRACT FROM AUTHOR]

Published

2024

3. Lyotropic liquid crystal emulsions of LAVR-289: Influence of internal mesophase structure on cytotoxicity and in-vitro antiviral activity.

Author

Brouillard, Mathias, Mathieu, Thomas, Guillot, Samuel, Méducin, Fabienne, Roy, Vincent, Marcheteau, Elie, Gallardo, Franck, Caire-Maurisier, François, Favetta, Patrick, and Agrofoglio, Luigi A.

Subjects

*LYOTROPIC liquid crystals, *DRUG delivery systems, *VACCINIA, *DRUG carriers, *CYTOTOXINS

Abstract

[Display omitted] Emerging and reemerging viruses pose significant public health threats, underscoring the urgent need for new antiviral drugs. Recently, a novel family of antiviral acyclic nucleoside phosphonates (ANP) composed of a 4-(2,4-diaminopyrimidin-6-yl)oxy-but-2-enyl phosphonic acid skeleton (O -DAPy nucleobase) has shown promise. Among these, LAVR-289 stands out for its potent inhibitory effects against various DNA viruses. Despite its efficacy, LAVR-289s poor water solubility hampers effective drug delivery. To address this, innovative delivery systems utilizing lipidic derivatives have been explored for various administration routes. Submicron lyotropic liquid crystals (LLCs) are particularly promising drug carriers for the encapsulation, protection, and delivery of lipophilic drugs like LAVR-289. This study focuses on developing submicron-sized lipid mesophase dispersions, including emulsified L 2 phase, cubosomes, and hexosomes, by adjusting lipidic compounds such as Dimodan® U/J, Lecithins E80, and Miglyol® 812 N. These formulations aim to enhance the solubility and bioavailability of LAVR-289. In vitro evaluations demonstrated that LAVR-289-loaded LLCs at a concentration of 1 µM efficiently inhibited vaccinia virus in infected human cells, with no observed cytotoxicity. Notably, hexosomes exhibited the most favorable antiviral outcomes, suggesting that the internal mesophase structure plays a critical role in optimizing the therapeutic efficacy of this drug class. [ABSTRACT FROM AUTHOR]

Published

2024