- 3-(4-AMINOPHENYL)-2-FURANCARBOXYLIC ACID DERIVATIVE AND PHARMACEUTICALLY ACCEPTABLE SALT THEREOF
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Disclosed is a compound represented by Formula (I) or a pharmaceutically acceptable salt thereof: wherein R1 is 1: a C3-8 cycloalkyl C1-4 alkyl group,2: a C7-14 aralkyl group, in which the aryl moiety thereof is
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Page/Page column 20
(2012/03/26)
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- S1P RECEPTORS MODULATORS
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The invention relates to novel compounds that have S1P receptor modulating activity and, preferably, apoptotic activity and/or anti proliferative activity against cancer cells and other cell types. Further, the invention relates to a pharmaceutical comprising at least one compound of the invention for the treatment of diseases and/or conditions caused by or associated with inappropriate S1P receptor modulating activity or expression, for example, cancer. A further aspect of the invention relates to the use of a pharmaceutical comprising at least one compound of the invention for the manufacture of a medicament for the treatment of diseases and/or conditions caused by or associated with inappropriate S1P receptor modulating activity or expression such as cancer.
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Page/Page column 109
(2010/04/30)
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- 2-FURANCARBOXYLIC ACID HYDRAZIDES AND PHARMACEUTICAL COMPOSITIONS CONTAINING THE SAME
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The present invention provides 2-furancarboxylic acid hydrazide compounds represented by General Formula(I) below, and prodrugs, physiologically acceptable salts, hydrates, solvates thereof, methods for producing them and pharmaceutical compositions containing them: wherein A is a group represented by Formula (a) or the like: (wherein either R4 or R5 represents cyano, nitro or the like, and the other represents a hydrogen atom or the like); either R1 or R2 represents a group: -D-(X)m-R6 or the like, and the other represents a group: -E-(Y)n-R7, hydrogen atom, aryl or the like; R3 is a hydrogen atom or the like; D and E independently represent aryl; X and Y independently represent 0 or the like; R6 and R7 independently represent alkyl, aryl, arylalkyl or the like; and m and n are independently 0 or 1, provided that the aryl is optionally substituted. Such compounds exhibit a potent antagonistic activity on glucagon receptor and are of use as preventive and/or therapeutic agents for symptoms and diseases in which glucagon is involved.
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- Optimization of alkylidene hydrazide based human glucagon receptor antagonists. Discovery of the highly potent and orally available 3-cyano-4-hydroxybenzoic acid [1-(2,3,5,6-tetramethylbenzyl)-1h-indol-4ylmethylene]hydrazide
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Highly potent human glucagon receptor (hGluR) antagonists have been prepared employing both medicinal chemistry and targeted libraries based on modification of the core (proximal) dimethoxyphenyl group, the benzyl ether linkage, as well as the (distal) benzylic aryl group of the lead 2, 3-cyano-4-hydroxybenzoic acid (3,5-dimethoxy-4-isopropylbenzyloxybenzylidene)hydrazide. Electron-rich proximal aryl moieties such as mono- and dimethoxy benzenes, naphthalenes, and indoles were found to be active. The SAR was found to be quite insensitive regarding the linkage to the distal aryl group, since long and short as well as polar and apolar linkers gave highly potent compounds. The presence of a distal aryl group was not crucial for obtaining high binding affinity to the hGluR. In many cases, however, the affinity could be further optimized with substituted distal aryl groups. Representative compounds have been tested for in vitro metabolism, and structure - metabolism relationships are described. These efforts lead to the discovery of 74, NNC 25-2504, 3-cyano-4-hydroxybenzoic acid [1-(2,3,5,6tetramethylbenzyl)-1H-indol-4-ylmethylene]hydrazide, with low in vitro metabolic turnover. 74 was a highly potent noncompetitive antagonist of the human glucagon receptor (IC50 = 2.3 nM, KB = 760 pM) and of the isolated rat receptor (IC50 = 430 pM, KB = 380 pM). Glucagonstimulated glucose production from isolated primary rat hepatocytes was inhibited competitively by 74 (Ki = 14 nM). This compound was orally available in dogs (Fpo = 15%) and was active in a glucagon-challenged rat model of hyperglucagonemia and hyperglycemia.
- Madsen, Peter,Ling, Anthony,Plewe, Michael,Sams, Christian K.,Knudsen, Lotte B.,Sidelmann, Ulla G.,Ynddal, Lars,Brand, Christian L.,Andersen, Birgitte,Murphy, Douglas,Teng, Min,Truesdale, Larry,Kiel, Dan,May, John,Kuki, Atsuo,Shi, Shenghua,Johnson, Michael D.,Teston, Kimberly Ann,Feng, Jun,Lakis, James,Anderes, Kenna,Gregor, Vlad,Lau, Jesper
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p. 5755 - 5775
(2007/10/03)
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- Human glucagon receptor antagonists based on alkylidene hydrazides.
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A series of alkylidene hydrazide derivatives containing an alkoxyaryl moiety was optimized. The resulting hydrazide-ethers were competitive antagonists at the human glucagon receptor. Pharmacokinetic experiments showed fast clearance of most of the compou
- Ling, Anthony,Plewe, Michael,Gonzalez, Javier,Madsen, Peter,Sams, Christian K,Lau, Jesper,Gregor, Vlad,Murphy, Doug,Teston, Kimberly,Kuki, Atsuo,Shi, Shenghua,Truesdale, Larry,Kiel, Dan,May, John,Lakis, James,Anderes, Kenna,Iatsimirskaia, Eugenia,Sidelmann, Ulla G,Knudsen, Lotte B,Brand, Christian L,Polinsky, Alex
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p. 663 - 666
(2007/10/03)
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- Bicyclo [3.1.0] hexyl-substituted ethylamino carbonyl phenoxy cardiovascular agents
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1-Alkylamino-3-(3- or 4-[2-(endobicyclo[3.1.0]-hex-6-yl)ethylaminocarbonyl]-1-phenoxy)-2-propanol and substituted derivatives thereof and methods for preparing such compounds are disclosed. 5-(3- Or 4-[2-(endobicyclo[3.1.0]hex-6-yl)ethylaminocarbonyl]-phenoxy)methyl 3-alkyl-2-optionally substituted oxazolidine and derivatives thereof, and methods for preparing such compounds are also disclosed. These compounds exhibit cardiovascular acitivity and are useful in the treatment of abnormal heart condition as well as hypertension in mammals. The former compounds are prepared by treatment of the corresponding 1,2-epoxy-3-(3- or 4-[2-(endobicyclo[3.1.0]hex-6-yl)-ethylaminocarbonyl]phenoxy)propane with the desired alkylamine or by base or acid hydrolysis of the corresponding 5-(3- or 4-[2-(endobicyclo[3.1.0]hex-6-yl)-ethylaminocarbonyl)-3-alkyl oxazolidine. The latter compounds are prepared from the corresponding 1-alkylamino-3-(3- or 4-[2-(endobicyclo[3.1.0]hex-6-yl)ethylaminocarbonyl]-1-phenoxy)-2-propanol by treatment with an aldehyde having the desired optional substituent or by treating a 3- or 4-(2-(endobicyclo[3.1.0]hex-6-yl)ethylaminocarbonyl)-optionally substituted phenol with a 5-tosyloxy or mesyloxymethyl 3-alkyl)-methyloxazolidine-2-optionally substituted oxazolidine.
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