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Tuning the pharmacokinetic performance of quercetin by cocrystallization

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posted on 2023-07-11, 08:38 authored by Molly M. Haskins, Oisín N. Kavanagh, Rana SaniiRana Sanii, Sanaz Khorasani, Jia-Mei Chen, Zhi-Yuan Zhang, Xia-Lin Dai, Bo-Ying Ren, Tong-Bu Lu, Michael ZaworotkoMichael Zaworotko

Quercetin (QUE) is a widely studied nutraceutical with a number of potential therapeutic properties. Although QUE is abundant in the plant kingdom, its poor solubility (≤20 μg/mL) and poor oral bioavailability have impeded its potential utility and clinical development. In this context, cocrystallization has emerged as a useful method for improving the physicochemical properties of biologically active molecules. We herein report a novel cocrystal of the nutraceutical quercetin (QUE) with the coformer pentoxifylline (PTF) and a solvate of a previously reported structure between QUE and betaine (BET). We also report the outcomes of in vitro and in vivo studies of QUE release and absorption from a panel of QUE cocrystals: betaine (BET), theophylline (THP), l-proline (PRO), and novel QUEPTF. All cocrystals were found to exhibit an improvement in the dissolution rate of QUE. Further, the QUE plasma levels in Sprague–Dawley rats showed a 64-, 27-, 10- and 7-fold increase in oral bioavailability for QUEBET·MeOH, QUEPTF, QUEPRO, and QUETHP, respectively, compared to QUE anhydrate. We rationalize our in vivo and in vitro findings as the result of dissolution–supersaturation–precipitation behavior.

Funding

Institutional Strategic Support Fund

Wellcome Trust

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History

Publication

Cyrstal Growth and Design

Publisher

American Chemical Society

Other Funding information

This publication was supported by a research grant from Science Foundation Ireland (12/RC/2275/2). 12/RC/2275/2 is co-funded under the European Regional Development Fund. This research was also funded in part by the Wellcome Trust (204787/Z/16/Z)

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  • Bernal Institute

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  • Chemical Sciences

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