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甲磺酸赖氨酸右苯丙胺的吸收及其酶促转化为右旋苯丙胺。

Absorption of lisdexamfetamine dimesylate and its enzymatic conversion to d-amphetamine.

机构信息

Biosciences Department, Shire Pharmaceutical Development Ltd, Basingstoke, UK.

出版信息

Neuropsychiatr Dis Treat. 2010 Jun 24;6:317-27. doi: 10.2147/ndt.s9749.

DOI:10.2147/ndt.s9749
PMID:20628632
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2898170/
Abstract

These studies investigated the absorption and metabolic conversion of lisdexamfetamine dimesylate (LDX), a prodrug stimulant that requires conversion to d-amphetamine for activity. Oral absorption of LDX was assessed in rat portal and jugular blood, and perfusion of LDX into isolated intestinal segments of anesthetized rats was used to assess regional absorption. Carrier-mediated transport of LDX was investigated in Caco-2 cells and Chinese hamster ovary (CHO) cells expressing human peptide transporter-1 (PEPT1). LDX metabolism was studied in rat and human tissue homogenates and human blood fractions. LDX was approximately10-fold higher in portal blood versus systemic blood. LDX and d-amphetamine were detected in blood following perfusion of the rat small intestine but not the colon. Transport of LDX in Caco-2 cells had permeability apparently similar to cephalexin and was reduced with concurrent PEPT1 inhibitor. Affinity for PEPT1 was also demonstrated in PEPT1-transfected CHO cells. LDX metabolism occurred primarily in whole blood (rat and human), only with red blood cells. Slow hydrolysis in liver and kidney homogenates was probably due to residual blood. The carrier-mediated absorption of intact LDX, likely by the high-capacity PEPT1 transporter, and subsequent metabolism to d-amphetamine in a high-capacity system in blood (ie, red blood cells) may contribute to the consistent, reproducible pharmacokinetic profile of LDX.

摘要

这些研究调查了赖氨酸右旋苯丙胺二甲硫酸盐(LDX)的吸收和代谢转化,LDX 是一种前药兴奋剂,需要转化为 d-苯丙胺才能发挥作用。LDX 的口服吸收在大鼠门静脉和颈静脉血液中进行评估,并通过麻醉大鼠的离体肠段灌注来评估局部吸收。在表达人肽转运蛋白 1(PEPT1)的 Caco-2 细胞和中国仓鼠卵巢(CHO)细胞中研究了 LDX 的载体介导转运。在大鼠和人组织匀浆以及人血液部分中研究了 LDX 代谢。与全身血液相比,LDX 在门静脉血液中的浓度约高 10 倍。在灌注大鼠小肠后,血液中检测到 LDX 和 d-苯丙胺,但在灌注结肠后未检测到。LDX 在 Caco-2 细胞中的转运渗透性与头孢氨苄明显相似,并且与同时存在的 PEPT1 抑制剂一起降低。PEPT1 转染的 CHO 细胞中也证明了对 LDX 的亲和力。LDX 代谢主要发生在全血(大鼠和人)中,仅发生在红细胞中。肝脏和肾脏匀浆中缓慢的水解可能是由于残留的血液。完整 LDX 的载体介导吸收,可能通过高容量的 PEPT1 转运蛋白,以及随后在血液(即红细胞)中高容量系统中代谢为 d-苯丙胺,可能有助于 LDX 的一致、可重现的药代动力学特征。

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