- Design, synthesis and biological evaluation of brain-targeted thiamine disulfide prodrugs of ampakine compound LCX001
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: Ampakine compounds have been shown to reverse opiate-induced respiratory depression by activation of amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) glutamate receptors. However, their pharmacological exploitations are hindered by low blood-brain barrier (BBB) permeability and limited brain distribution. Here, we explored whether thiamine disulfide prodrugs with the ability of "lock-in" can be used to solve these problems. A series of thiamine disulfide prodrugs 7a-7f of ampakine compound LCX001 was synthesized and evaluated. The trials in vitro showed that prodrugs 7e, 7d, 7f possessed a certain stability in plasma and quickly decomposed in brain homogenate by the disulfide reductase. In vivo, prodrug 7e decreased the peripheral distribution of LCX001 and significantly increased brain distribution of LCX001 after i.v. administration. This compound showed 2.23- and 3.29-fold greater increases in the AUC0-t and MRT0-t of LCX001 in brain, respectively, than did LCX001 itself. A preliminary pharmacodynamic study indicated that the required molar dose of prodrug 7e was only one eighth that of LCX001 required to achieve the same effect in mice. These findings provide an important reference to evaluate the clinical outlook of ampakine compounds.
- Xiao, Dian,Meng, Fan-Hua,Dai, Wei,Yong, Zheng,Liu, Jin-Qiu,Zhou, Xin-Bo,Li, Song
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- Design, synthesis and biological evaluation of brain-specific glucosyl thiamine disulfide prodrugs of naproxen
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Glucosyl derivates exhibited favorable distribution to the brain. However, bidirectional transport of glucose transporter 1 might decrease concentrations of the prodrugs in brain before the release of parent drugs. To overcome this defect, glucosyl thiamine disulfide prodrugs 1a-1c incorporating naproxen were designed and synthesized. Furthermore, prodrug 2 and 3 were also prepared as control. The favorable physicochemical properties of these prodrugs were verified by stability and metabolism studies. Results from the in vivo distribution study indicated that 1a-1c, and 1b in particular, significantly increased the level of naproxen in brain when compared to 2 and 3. The study suggested glucosyl thiamine disulfide was a promising carrier to enhance the brain bioavailability of central nervous system active drugs.
- Fan, Wei,Wu, Yong,Li, Xian-Kun,Yao, Nian,Li, Xun,Yu, Yong-Guo,Hai, Li
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experimental part
p. 3651 - 3661
(2011/11/06)
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