Abstract: This invention provides an inhibitor of multidrug resistance-associated proteins with 12 transmembrane domains containing, as an active ingredient, a compound for treatment of hyperuricemia or a salt thereof. In an embodiment, the compound is represented by Formula I wherein R1 represents a halogen atom, a nitro group (—NO2), a cyano group (—CN), a formyl group (—CHO), or a trifluoromethyl group (—CF3), R2 represents a hydrogen atom or an alkoxy group having C1-10 linear or branched alkyl group, X represents a carboxyl group (—CO2H), a carbamoyl group (—CONH2), or an alkoxycarbonyl group having C1-5 linear or branched alkoxy group, and Y represents a hydrogen atom or a C1-4 linear or branched alkyl group. In an embodiment, the multidrug resistance-associated protein with 12 transmembrane domains is ABCC11. In particular, the inhibitor of the present invention can be used in a pharmaceutical or cosmetic composition for the prevention or treatment of axillary osmidrosis.

Abstract: To specify a molecule associated with the onset of gout so as to provide a method for evaluating a diathesis of uric acid-related diseases and a diathesis of inflammation-related diseases, an evaluation kit for carrying out the method, an inspection object, and a drug, on the basis of the molecule specified above, for contributing to the early treatment and prevention of the uric acid-related diseases and inflammation-related diseases. The molecule includes any one protein and cDNA of CNIH2-PACS1, ALDH2, MYL2-CUX2, GCKR, MAP3K11, NPT4, ABCG2, HIST1H2BF/HIST1H4E, HIST1H2BE/HIST1H4D and FAM35A, or proteins of combination thereof with GLUT9, NPT1, URAT1, or NXRN2, and is capable of selectively inducing gout. A molecule includes protein and cDNA of an ABCG2 variant and is capable of selectively and ATP-dependently decreasing urate excretion.

Abstract: To specify a molecule associated with the onset of gout so as to provide a method for evaluating a diathesis of uric acid-related diseases and a diathesis of inflammation-related diseases, an evaluation kit for carrying out the method, an inspection object, and a drug, on the basis of the molecule specified above, for contributing to the early treatment and prevention of the uric acid-related diseases and inflammation-related diseases. The molecule includes any one protein and cDNA of CNIH2-PACS1, ALDH2, MYL2-CUX2, GCKR, MAP3K11, NPT4, ABCG2, HIST1H2BF/HIST1H4E, HIST1H2BE/HIST1H4D and FAM35A, or proteins of combination thereof with GLUT9, NPT1, URAT1, or NXRN2, and is capable of selectively inducing gout. A molecule includes protein and cDNA of an ABCG2 variant and is capable of selectively and ATP-dependently decreasing urate excretion.

Abstract: Methods of treating, or at least inhibiting the onset of, urate transport failure are provided. The methods can include a step for detecting variations in genes that encode ABCG2 protein. When a subject has an SNP of V12M, R113X, Q126X, Q141K, F208S, G268R, E334X, S441N, L447V, S486N, F506SfsX4, R575X, and/or C608X, it can be concluded that the subject has a factor that is capable of inducing urate transport failure, or a state or disease attributable to that failure. When a subject has an SNP of V12M, it can be concluded that, unlike the other SNPs, there is a possibility that the subject does not possess such a factor because, although this variation itself does not lead to a change in urate transport capability, said variation is related to linkage disequilibrium with other SNPs.

Abstract: To specify a molecule associated with the onset of gout so as to provide a method for evaluating a diathesis of uric acid-related diseases and a diathesis of inflammation-related diseases, an evaluation kit for carrying out the method, an inspection object, and a drug, on the basis of the molecule specified above, for contributing to the early treatment and prevention of the uric acid-related diseases and inflammation-related diseases. The molecule includes any one protein and cDNA of CNIH2-PACS1, ALDH2, MYL2-CUX2, GCKR, MAP3K11, NPT4, ABCG2, HIST1H2BF/HIST1H4E, HIST1H2BE/HIST1H4D and FAM35A, or proteins of combination thereof with GLUT9, NPT1, URAT1, or NXRN2, and is capable of selectively inducing gout. A molecule includes protein and cDNA of an ABCG2 variant and is capable of selectively and ATP-dependently decreasing urate excretion.

Abstract: A method and evaluation kit are provided, in which a high-capacity urate transporter is identified to assist in the early treatment and prevention of urate transport-related disease and inflammation-related disease. The method can include a step for detecting variations in genes that encode ABCG2 protein. When a subject has an SNP of V12M, R113X, Q126X, Q141K, F2085, G268R, E334X, S441N, L447V, S486N, F506SfsX4, R575X, and/or C608X, it can be concluded that the subject has a factor that is capable of inducing urate transport failure, or a state or disease attributable to that failure. When a subject has an SNP of V12M, it can be concluded that, unlike the other SNPs, there is a possibility that the subject does not possess such a factor because, although this variation itself does not lead to a change in urate transport capability, said variation is related to linkage disequilibrium with other SNPs.

Abstract: A method and evaluation kit are provided, in which a high-capacity urate transporter is identified to assist in the early treatment and prevention of urate transport-related disease and inflammation-related disease. The method can include a step for detecting variations in genes that encode ABCG2 protein. When a subject has an SNP of V12M, R113X, Q126X, Q141K, F208S, G268R, E334X, S441N, L447V, S486N, F506SfsX4, R575X, and/or C608X, it can be concluded that the subject has a factor that is capable of inducing urate transport failure, or a state or disease attributable to that failure. When a subject has an SNP of V12M, it can be concluded that, unlike the other SNPs, there is a possibility that the subject does not possess such a factor because, although this variation itself does not lead to a change in urate transport capability, said variation is related to linkage disequilibrium with other SNPs.

Abstract: A method and evaluation kit are provided, in which a high-capacity urate transporter is identified to assist in the early treatment and prevention of urate transport-related disease and inflammation-related disease. The method can include a step for detecting variations in genes that encode ABCG2 protein. When a subject has an SNP of V12M, R113X, Q126X, Q141K, F208S, G268R, E334X, S441N, L447V, S486N, F506SfsX4, R575X, and/or C608X, it can be concluded that the subject has a factor that is capable of inducing urate transport failure, or a state or disease attributable to that failure. When a subject has an SNP of V12M, it can be concluded that, unlike the other SNPs, there is a possibility that the subject does not possess such a factor because, although this variation itself does not lead to a change in urate transport capability, said variation is related to linkage disequilibrium with other SNPs.