Browsing by Author "Wang, Yuying"
Now showing 1 - 3 of 3
Results Per Page
Sort Options
Item Chimeric agents derived from the functionalized amino acid, lacosamide, and the α-aminoamide, safinamide: evaluation of their inhibitory actions on voltage-gated sodium channels, and antiseizure and antinociception activities and comparison with lacosamide and safinamide(American Chemical Society, 2015-02-18) Park, Ki Duk; Yang, Xiao-Fang; Dustrude, Erik T.; Wang, Yuying; Ripsch, Matthew S.; White, Fletcher A.; Khanna, Rajesh; Kohn, Harold; Department of Psychiatry, IU School of MedicineThe functionalized amino acid, lacosamide ((R)-2), and the α-aminoamide, safinamide ((S)-3), are neurological agents that have been extensively investigated and have displayed potent anticonvulsant activities in seizure models. Both compounds have been reported to modulate voltage-gated sodium channel activity. We have prepared a series of chimeric compounds, (R)-7-(R)-10, by merging key structural units in these two clinical agents, and then compared their activities with (R)-2 and (S)-3. Compounds were assessed for their ability to alter sodium channel kinetics for inactivation, frequency (use)-dependence, and steady-state activation and fast inactivation. We report that chimeric compounds (R)-7-(R)-10 in catecholamine A-differentiated (CAD) cells and embryonic rat cortical neurons robustly enhanced sodium channel inactivation at concentrations far lower than those required for (R)-2 and (S)-3, and that (R)-9 and (R)-10, unlike (R)-2 and (S)-3, produce sodium channel frequency (use)-dependence at low micromolar concentrations. We further show that (R)-7-(R)-10 displayed excellent anticonvulsant activities and pain-attenuating properties in the animal formalin model. Of these compounds, only (R)-7 reversed mechanical hypersensitivity in the tibial-nerve injury model for neuropathic pain in rats.Item Substituted N-(Biphenyl-4′-yl)methyl (R)-2-Acetamido-3-methoxypropionamides: Potent Anticonvulsants That Affect Frequency (Use) Dependence and Slow Inactivation of Sodium Channels(American Chemical Society, 2014-07-24) Lee, Hyosung; Park, Ki Duk; Torregrosa, Robert; Yang, Xiao-Fang; Dustrude, Erik T.; Wang, Yuying; Wilson, Sarah M.; Barbosa, Cindy; Xiao, Yucheng; Cummins, Theodore R.; Khanna, Rajesh; Kohn, Harold; Department of Pharmacology and Toxicology, IU School of Medicine, We prepared 13 derivatives of N-(biphenyl-4′-yl)methyl (R)-2-acetamido-3-methoxypropionamide that differed in type and placement of a R-substituent in the terminal aryl unit. We demonstrated that the R-substituent impacted the compound’s whole animal and cellular pharmacological activities. In rodents, select compounds exhibited excellent anticonvulsant activities and protective indices (PI = TD50/ED50) that compared favorably with clinical antiseizure drugs. Compounds with a polar, aprotic R-substituent potently promoted Na+ channel slow inactivation and displayed frequency (use) inhibition of Na+ currents at low micromolar concentrations. The possible advantage of affecting these two pathways to decrease neurological hyperexcitability is discussed.Item Sustained relief of ongoing experimental neuropathic pain by a CRMP2 peptide aptamer with low abuse potential(Wolters Kluwer, 2016-09) Xie, Jennifer Y.; Chew, Lindsey A.; Yang, Xiaofang; Wang, Yuying; Qu, Chaoling; Wang, Yue; Federici, Lauren M.; Fitz, Stephanie D.; Ripsch, Matthew S.; Due, Michael R.; Moutal, Aubin; Khanna, May; White, Fletcher A.; Vanderah, Todd W.; Johnson, Philip L.; Porreca, Frank; Khanna, Rajesh; Anesthesia, School of Medicine