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Comparison of Pharmacokinetics and Anti-Pulmonary Fibrosis-Related Effects of Sulforaphane and Sulforaphane N-acetylcysteine

Authors
Son, Eun SukFei, XiangYoon, Jin-HaSeo, Seung-YongMaeng, Han-JooJeong, Sung HwanKim, Yu Chul
Issue Date
Jul-2021
Publisher
MDPI
Keywords
Anti-pulmonary fibrosis effect; Metabolic stability; Pharmacokinetics; Sulforaphane; Sulforaphane N-acetylcysteine
Citation
Pharmaceutics, v.13, no.7
Journal Title
Pharmaceutics
Volume
13
Number
7
URI
https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/81781
DOI
10.3390/pharmaceutics13070958
ISSN
1999-4923
Abstract
Sulforaphane (SFN), belonging to the isothiocyanate family, has received attention owing to its beneficial activities, including chemopreventive and antifibrotic effects. As sulforaphane Nacetylcysteine (SFN-NAC), a major sulforaphane metabolite, has presented similar pharmacological activities to those of SFN, it is crucial to simultaneously analyze the pharmacokinetics and activities of SFN and SFN-NAC, to comprehensively elucidate the efficacy of SFN-containing products. Accordingly, the anti-pulmonary fibrotic effects of SFN and SFN-NAC were assessed, with simultaneous evaluation of permeability, metabolic stability, and in vivo pharmacokinetics. Both SFN and SFN-NAC decreased the levels of transforming growth factor-β1-induced fibronectin, alphasmooth muscle actin, and collagen, which are major mediators of fibrosis, in MRC-5 fibroblast cells. Regarding pharmacokinetics, SFN and SFN-NAC were metabolically unstable, especially in the plasma. SFN-NAC degraded considerably faster than SFN in plasma, with SFN being formed from SFN-NAC. In rats, SFN and SFN-NAC showed a similar clearance when administered intravenously; however, SFN showed markedly superior absorption when administered orally. Although the plasma SFN-NAC concentration was low owing to poor absorption following oral administration, SFN-NAC was converted to SFN in vivo, as in plasma. Collectively, these data suggest that SFN-NAC could benefit a prodrug formulation strategy, possibly avoiding the gastrointestinal side effects of SFN, and with improved SFN-NAC absorption. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
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