Repurposing of Antifungal Drug Flucytosine/Flucytosine Cocrystals for Anticancer Activity against Prostate Cancer Targeting Apoptosis and Inflammatory Signaling Pathways

Kanagavel, Manimurugan; Sparjan Samuvel, Rajan Marystella; Ramalingam, Vaikundamoorthy; Nechipadappu, Sunil Kumar

doi:10.1021/acs.molpharmaceut.4c00156

Mol. Pharmaceutics

2024

DOI: 10.1021/acs.molpharmaceut.4c00156

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Repurposing of Antifungal Drug Flucytosine/Flucytosine Cocrystals for Anticancer Activity against Prostate Cancer Targeting Apoptosis and Inflammatory Signaling Pathways

Manimurugan Kanagavel,

Rajan Marystella Sparjan Samuvel,

Vaikundamoorthy Ramalingam

et al.

Abstract: This study aimed to repurpose the antifungal drug flucytosine (FCN) for anticancer activity together with cocrystals of nutraceutical coformers sinapic acid (SNP) and syringic acid (SYA). The cocrystal screening experiments with SNP resulted in three cocrystal hydrate forms in which two are polymorphs, namely, FCN-SNP F−I and FCN-SNP F−II, and the third one with different stoichiometry in the asymmetric unit (1:2:1 ratio of FCN:SNP:H 2 O, FCN-SNP F−III). Cocrystallization with SYA resulted in two hydrated cocr… Show more

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Cited by 2 publications

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Valorization of deoiled herb of Mentha arvensis via phytochemical investigation and anticancer activity against breast cancer

Sravanthi,

Sparjan Samuvel,

Pratyusha

et al. 2025

Industrial Crops and Products

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Valorization of deoiled herb of Mentha arvensis via phytochemical investigation and anticancer activity against breast cancer

Sravanthi,

Sparjan Samuvel,

Pratyusha

et al. 2025

Industrial Crops and Products

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Variable stoichiometry and a salt–cocrystal intermediate in multicomponent systems of flucytosine: structural elucidation and their impact on stability

Kanagavel,

Balasubramanian,

Nechipadappu

2024

Acta Crystallogr B Struct Sci Cryst Eng Mater

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New cocrystals and a salt–cocrystal intermediate system involving the antifungal drug flucytosine (FCY) and various coformers including caffeic acid (CAF), 2-chloro-4-nitrobenzoic acid (CNB), hydroquinone (HQN), resorcinol (RES) and catechol (CAL), are reported. The crystal structures of the prepared multicomponent systems were determined through SC-XRD analysis and characterized by different solid-state techniques. All FCY multicomponent systems crystallize in anhydrous form with different stoichiometric ratios. The cocrystals FCY–HQN, FCY–RES and FCY–CAL crystallize in 2:0.5, 2:0.5 and 3:2 stoichiometric ratios respectively. In contrast, FCY–CAF and FCY–CNB crystallize in a 1:1 stoichiometric ratio. The FCY–CAF cocrystal is formed via an acid–pyrimidine heterosynthon. Due to the partial proton transfer from the acid group of CNB to FCY, a three-point homosynthon is observed between two FCY molecules and the molecules interact via an N—H...O hydrogen bond between FCY and CNB. In FCY phenolic cocrystals, a single-point O—H...O hydrogen bond is observed. The formation of cocrystals and salt–cocrystal intermediate was further confirmed by difference Fourier map analysis and bond angle differences. Except for FCY–CAL, all the multicomponent systems were reproduced in the bulk scale for further characterization. A detailed Crystal Structural Database search was carried out on the multicomponent systems of FCY with acid coformers and we evaluated the formation of cocrystals/salt based on the ΔpKa values, the difference in the bond distances and bond angles. Additionally, the prepared multicomponent systems exhibited hydration stability for one month under accelerated conditions [40 (2) °C and relative humidity 90–95 (5)%].

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Repurposing of Antifungal Drug Flucytosine/Flucytosine Cocrystals for Anticancer Activity against Prostate Cancer Targeting Apoptosis and Inflammatory Signaling Pathways

Cited by 2 publications

References 61 publications

Valorization of deoiled herb of Mentha arvensis via phytochemical investigation and anticancer activity against breast cancer

Valorization of deoiled herb of Mentha arvensis via phytochemical investigation and anticancer activity against breast cancer

Variable stoichiometry and a salt–cocrystal intermediate in multicomponent systems of flucytosine: structural elucidation and their impact on stability

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