Uric acid-lowering agent

The invention claimed is: 1. A composition for lowering a uric acid level, comprising a uric acid-lowering agent, wherein the uric acid-lowering agent comprises one or more tyrosine-comprising cyclic dipeptides selected from a first group consisting of cyclotyrosyltyrosine, cyclophenylalanyltyrosine and cycloleucyltyrosine, or salts thereof, and one or more tyrosine-comprising cyclic dipeptides selected from a second group consisting of cyclotryptophanyltyrosine, cycloseryltyrosine, cycloprolyltyrosine, cyclotyrosylglycine, cyclolysyltyrosine, cyclohistidyltyrosine, cycloalanyltyrosine, cycloglutamyltyrosine, cyclovalyltyrosine, cycloisoleucyltyrosine, cyclothreonyltyrosine, cycloaspartyltyrosine, cycloasparaginyltyrosine, cycloglutaminyltyrosine, cycloarginyltyrosine, cyclomethionyltyrosine, and cyclotyrosylcysteine, or salts thereof, and wherein a total amount of the tyrosine-comprising cyclic dipeptides from the first group in the uric acid-lowering agent is from 5% by weight to 90% by weight relative to a total amount of the uric acid-lowering agent, so that the tyrosine-comprising cyclic dipeptides from the first group are present in an effective amount for lowering the uric acid level, wherein the one or more tyrosine-comprising cyclic dipeptides from the first group comprises cyclophenylalanyltyrosine, and the one or more tyrosine-comprising cyclic dipeptides from the second group comprises cyclotyrosylglycine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosylglycine is from 90/10 to 30/70. 2. The composition for lowering a uric acid level according to claim 1 , wherein the composition is a treated product obtained by heat-treating a solution comprising a soybean peptide. 3. A composition for inhibiting a xanthine oxidase comprising a xanthine oxidase inhibitor, wherein the xanthine oxidase inhibitor comprises one or more tyrosine-comprising cyclic dipeptides selected from a first group consisting of cyclotyrosyltyrosine, cyclophenylalanyltyrosine, and cycloleucyltyrosine, or salts thereof, and one or more tyrosine-comprising cyclic dipeptides selected from a second group consisting of cyclotryptophanyltyrosine, cycloseryltyrosine, cycloprolyltyrosine, cyclotyrosylglycine, cyclolysyltyrosine, cyclohi stidyltyrosine, cycloalanyltyrosine, cycloglutamyltyrosine, cyclovalyltyrosine, cycloi soleucyltyrosine, cyclothreonyltyrosine, cycloaspartyltyrosine, cycloasparaginyltyrosine, cycloglutaminyltyrosine, cycloarginyltyrosine, cyclomethionyltyrosine, and cyclotyrosylcysteine, or salts thereof, and wherein a total amount of the tyrosine-comprising cyclic dipeptides from the first group in the xanthine oxidase inhibitor is from 5% by weight to 90% by weight relative to a total amount of the xanthine oxidase inhibitor, so that the tyrosine-comprising cyclic dipeptides from the first group are present in an effective amount for inhibiting the xanthine oxidase, wherein the one or more tyrosine-comprising cyclic dipeptides from the first group comprises cyclophenylalanyltyrosine, and the one or more tyrosine-comprising cyclic dipeptides from the second group comprises cyclotyrosylglycine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosylglycine is from 90/10 to 30/70. 4. The composition for inhibiting a xanthine oxidase according to claim 3 , wherein the composition is a treated product obtained by heat-treating a solution comprising a soybean peptide. 5. A method for lowering a uric acid level, comprising the step of administering an effective amount of a composition comprising a uric acid-lowering agent to an individual in need of lowering the uric acid level, wherein the uric acid-lowering agent comprises one or more tyrosine-comprising cyclic dipeptides selected from a first group consisting of cyclotyrosyltyrosine, cyclophenylalanyltyrosine and cycloleucyltyrosine, or salts thereof, and one or more tyrosine-comprising cyclic dipeptides selected from a second group consisting of cyclotryptophanyltyrosine, cycloseryltyrosine, cycloprolyltyrosine, cyclotyrosylglycine, cyclolysyltyrosine, cyclohistidyltyrosine, cycloalanyltyrosine, cycloglutamyltyrosine, cyclovalyltyrosine, cycloisoleucyltyrosine, cyclothreonyltyrosine, cycloaspartyltyrosine, cycloasparaginyltyrosine, cycloglutaminyltyrosine, cycloarginyltyrosine, cyclomethionyltyrosine, and cyclotyrosylcysteine, or salts thereof. 6. The composition for lowering a uric acid level according to claim 1 , wherein the one or more tyrosine-comprising cyclic dipeptides from the first group further comprises cyclotyrosyltyrosine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosyltyrosine in the uric acid-lowering agent is from 95/5 to 35/65. 7. The composition for lowering a uric acid level according to claim 1 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the uric acid-lowering agent is at least 10% by weight relative to the total amount of the uric acid-lowering agent. 8. The composition for lowering a uric acid level according to claim 1 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the uric acid-lowering agent is at most 60% by weight relative to the total amount of the uric acid-lowering agent. 9. The composition for inhibiting a xanthine oxidase according to claim 3 , wherein the one or more tyrosine-comprising cyclic dipeptides from the first group further comprises cyclotyrosyltyrosine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosyltyrosine in the xanthine oxidase inhibitor is from 95/5 to 35/65. 10. The composition for inhibiting a xanthine oxidase according to claim 3 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the xanthine oxidase inhibitor is at least 10% by weight relative to the total amount of the xanthine oxidase inhibitor. 11. The composition for inhibiting a xanthine oxidase according to claim 3 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the xanthine oxidase inhibitor is at most 60% by weight relative to the total amount of the xanthine oxidase inhibitor. 12. The method for lowering a uric acid level according to claim 5 , wherein the composition is a treated product obtained by heat-treating a solution comprising a soybean peptide. 13. The method for lowering a uric acid level according to claim 5 , wherein the one or more tyrosine-comprising cyclic dipeptides from the first group comprises cyclophenylalanyltyrosine and cyclotyrosyltyrosine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosyltyrosine in the uric acid-lowering agent is from 95/5 to 35/65. 14. The method for lowering a uric acid level according to claim 5 , wherein the one or more tyrosine-comprising cyclic dipeptides from the first group comprises cyclophenylalanyltyrosine, and the one or more tyrosine-comprising cyclic dipeptides from the second group comprises cyclotyrosylglycine, and wherein a ratio of cyclophenylalanyltyrosine to cyclotyrosylglycine is from 90/10 to 30/70. 15. The method for lowering a uric acid level according to claim 5 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the uric acid-lowering agent is at least 10% by weight relative to the total amount of the uric acid-lowering agent. 16. The method for lowering a uric acid level according to claim 5 , wherein the total amount of the tyrosine-comprising cyclic dipeptides from the first group in the uric acid-lowering agent is at most 60% by weight relative to the total amount of the uric acid-lowe