Phase I trial of apatinib and paclitaxel+oxaliplatin+5‐FU/levoleucovorin for treatment‐naïve advanced gastric cancer

Zhao, Shen; Su, LiYu; Huang, Feng; Zhuo, Changhua; Ye, Zaisheng; Li, Hui; Yin, Yi; Gao, Pengqiang; Zhu, Yong; Lin, Rongbo

doi:10.1111/cas.16110

Cancer Science

2024

DOI: 10.1111/cas.16110

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Phase I trial of apatinib and paclitaxel+oxaliplatin+5‐FU/levoleucovorin for treatment‐naïve advanced gastric cancer

Shen Zhao,

LiYu Su,

Feng Huang

et al.

Abstract: Chinese guidelines recommend POF (paclitaxel, oxaliplatin, and 5‐FU/levoleucovorin) as first‐line treatment for advanced gastric cancer (AGC). Apatinib can augment the antitumor effect of paclitaxel, oxaliplatin, or fluorouracil in preclinical studies of AGC. A phase I clinical trial was conducted to evaluate the anticancer activity and maximum tolerated dose (MTD) of apatinib plus POF in treatment‐naïve patients with AGC and to establish a recommended phase II dose. Participants received escalating doses of d… Show more

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Study on Cytochrome P450 Metabolic Profile of Paclitaxel on Rats using QTOF-MS

Meng,

Chen,

et al. 2024

CDM

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Background: Paclitaxel (PTX) is a key drug used for chemotherapy for various cancers. The hy-droxylation metabolites of paclitaxel are different between humans and rats. Currently, there is little infor-mation available on the metabolic profiles of CYP450 enzymes in rats. Objective: This study evaluated the dynamic metabolic profiles of PTX and its metabolites in rats and in vitro. Methods: Ultra-performance liquid chromatography coupled with quadrupole time-of-flight mass spectrome-try (UHPLC-Q-TOF-MS) and LC-MS/MS were applied to qualitative and quantitative analysis of PTX and its metabolites in rats’ liver microsomes and recombinant enzyme CYP3A1/3A2. Ten specific inhibitors [NF (CYP1A1), FFL (CYP1A2), MOP (CYP2A6), OND (CYP2B6), QCT (CYP2C8), SFP (CYP2C9), NKT (CYP2C19), QND (CYP2D6), MPZ (CYP2E1) and KTZ (CYP3A4)] were used to identify the metabolic pathway in vitro. Results: Four main hydroxylated metabolites of PTX were identified. Among them, 3'-p-OH PTX and 2-OH PTX were monohydroxylated metabolites identified in rats and liver microsome samples, and 6α-2-di-OH PTX and 6α-5"-di-OH PTX were dihydroxylated metabolites identified in rats. CYP3A recombinant enzyme studies showed that the CYP3A1/3A2 in rat liver microsomes was mainly responsible for metabolizing PTX into 3'-p-OH-PTX and 2-OH-PTX. However, 6α-OH PTX was not detected in rat plasma and liver microsome samples. Conclusion: The results indicated that the CYP3A1/3A2 enzyme, metabolizing PTX into 3'-p-OH-PTX and 2-OH-PTX, is responsible for the metabolic of PTX in rats. The CYP2C8 metabolite 6α-OH PTX in humans was not detected in rat plasma in this study, which might account for the interspecies metabolic differences between rats and humans. This study will provide evidence for drug-drug interaction research in rats.

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Study on Cytochrome P450 Metabolic Profile of Paclitaxel on Rats using QTOF-MS

Meng,

Chen,

et al. 2024

CDM

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show abstract

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Phase I trial of apatinib and paclitaxel+oxaliplatin+5‐FU/levoleucovorin for treatment‐naïve advanced gastric cancer

Cited by 1 publication

References 39 publications

Study on Cytochrome P450 Metabolic Profile of Paclitaxel on Rats using QTOF-MS

Study on Cytochrome P450 Metabolic Profile of Paclitaxel on Rats using QTOF-MS

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