TY - JOUR
T1 - Development of fluorescent-labeled trapping reagents based on cysteine to detect soft and hard electrophilic reactive metabolites
AU - Shibazaki, Chikako
AU - Ohe, Tomoyuki
AU - Takahashi, Kyoko
AU - Nakamura, Shigeo
AU - Mashino, Tadahiko
N1 - Funding Information:
This research was supported by the Platform Project for Supporting Drug Discovery and Life Science Research (Basis for Supporting Innovative Drug Discovery and Life Science Research) from AMED [Grant JP19am0101089 ]; JSPS KAKENHI [Grant 16K08379 ]; the Keio University Doctoral Student Grant-in-Aid Program 2019; the Keio University Faculty of Pharmacy Naomi Hoshino Memorial Grant-in-Aid Program; and a special grant generously provided by the Hoansha Foundation .
Publisher Copyright:
© 2021 The Japanese Society for the Study of Xenobiotics
PY - 2021/8
Y1 - 2021/8
N2 - Trapping assays are conducted at lead optimization stages to detect reactive metabolites (RMs) that can contribute to drug toxicity. The commonly used dansyl glutathione (dGSH) provides a sensitive analysis owing to the fluorescent label, however, it captures only soft electrophilic RMs. TRs for hard electrophilic RMs, few of which are labeled fluorescently, can detect hard electrophilic aldehydes only by forming unstable imine derivatives. In this study, we aimed to develop novel fluorescently labeled TRs that detect both soft and hard electrophilic RMs and form stable ring structures with aldehydes. We designed four dansylated TRs based on cysteine, which has both soft and hard nucleophilic groups. To evaluate the reactivity of the TRs, we incubated them with several substrates and found that one of the TRs (CysGlu-Dan) detected all the soft and hard electrophilic RMs. We also examined the inhibition potential of each TR for seven major CYPs involved in drug metabolism and found that CysGlu-Dan showed an inhibitory profile similar to that of dGSH. In conclusion, CysGlu-Dan can be used to evaluate the risk of RMs in drug discovery.
AB - Trapping assays are conducted at lead optimization stages to detect reactive metabolites (RMs) that can contribute to drug toxicity. The commonly used dansyl glutathione (dGSH) provides a sensitive analysis owing to the fluorescent label, however, it captures only soft electrophilic RMs. TRs for hard electrophilic RMs, few of which are labeled fluorescently, can detect hard electrophilic aldehydes only by forming unstable imine derivatives. In this study, we aimed to develop novel fluorescently labeled TRs that detect both soft and hard electrophilic RMs and form stable ring structures with aldehydes. We designed four dansylated TRs based on cysteine, which has both soft and hard nucleophilic groups. To evaluate the reactivity of the TRs, we incubated them with several substrates and found that one of the TRs (CysGlu-Dan) detected all the soft and hard electrophilic RMs. We also examined the inhibition potential of each TR for seven major CYPs involved in drug metabolism and found that CysGlu-Dan showed an inhibitory profile similar to that of dGSH. In conclusion, CysGlu-Dan can be used to evaluate the risk of RMs in drug discovery.
KW - Drug toxicity
KW - Fluorescent labeling
KW - Reactive metabolite
KW - Risk assessment
KW - Trapping reagent
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U2 - 10.1016/j.dmpk.2021.100386
DO - 10.1016/j.dmpk.2021.100386
M3 - Article
C2 - 34091122
AN - SCOPUS:85107263377
SN - 1347-4367
VL - 39
JO - Drug Metabolism And Pharmacokinetics
JF - Drug Metabolism And Pharmacokinetics
M1 - 100386
ER -