Patent ID: 8431369
Filing Date: 2013-04-30
Classification: A61K,C12P

Abstract:
1. A method for the preparation of polyunsaturated fatty acid-containing phosphatidylserine, the method comprising: blending about 500 grams of frozen tuna fish liver into small pieces via an electronic blender; mixing the about 500 grams of the resultant blended tuna fish liver with 20 volumes of cold acetone to obtain a mixture; stirring the mixture for about 30 min at about 4° C.; removing the liquid from the resultant stirred mixture to obtain liver fragments; drying the liver fragments under nitrogen to obtain dried liver fragments; homogenizing the dried liver fragments with 50 volumes (v/v) of ethyl acetate/ethanol at a ratio of 2/1 v/v) and stirring for more than about 5 hours at the room temperature to obtain a homogenized mixture; filtering the homogenized mixture to produce a filtered mixture; evaporating the filtered mixture to obtain a lipid extract; mixing the lipid extract with about 30 volumes (v/v) of acetone to obtain an acetone mixture; stirring the acetone mixture at about 35° C. for about 1 hour to obtain a stirred mixture; rapidly filtering the stirred mixture; keeping the resulting clear solution at about −20° C. for about 8 hours, thereby precipitating tuna fish liver phospholipid; rapidly filtering and then drying under vacuum the tuna fish liver phospholipid to obtain fish liver phospholipids of about 70% purified fish liver phosphatidylcholine, about 10% of lysophosphatidylcholine and about 20% of other lipids; preparing about 80 mL of 0.2 M acetate buffer at a pH 5.5 containing 40 mM of calcium chloride and 40 grams of L-serine at 45° C. and then placing the resultant mixture in a jacketed reactor with a stirring mixer and a reflux condenser; adding about 10 grams of the fish liver phospholipids having about 70% fish liver phosphatidylcholine into the jacketed reactor; starting a reaction by adding 100 Units of phospholipse D from allowing the reaction to complete; unloading the jacketed reactor with 1000 mL of methyl-tert-butyl ether at 45° C. and stirring about 5 min, leading to the formation of two separated phases; taking off the lower phase, wherein a phospholipid mixture is left in the upper-phase, drawing off the upper phase and drying the upper phase and dissolving the resultant phospholipid product in an amount of about 9.7 grams in chloroform/methanol at a ratio of 60:40 (v/v) and applying the resultant mixture onto a column containing about 200 mL anion-exchange resin; and washing with (i) 2×3 bed volumes of chloroform/methanol/1 M sodium acetate in a ratio of 30:60:8 (v/v), (ii) 2×3 bed volumes of chloroform/methanol/water in a ratio of 30:60:8 (v/v), and (iii) 2×5 bed volumes of chloroform/methanol in a ratio of 60:40 (v/v); eluting fish liver phosphatidylcholine, sphingomylie, lysophosphatidylcholine, and phosphatidylethanolamine by 3 bed volumes of chloroform/methanol in a ratio of 60:40 (v/v), followed by 1 bed volume of chloroform/methanol in a ratio of 40:60 (v/v); eluting a phospholipid mixture contain transphosphatidylated fish liver phosphatidylserine with 3 bed volumes of acetic acid/chloroform in a ration of 5:1 (v/v); leaving a by-product phosphatidic acid on the resin; lyophilizing the phospholipid mixture to obtain an acid-free powder of the phospholipid mixture wherein transphosphatidylated fish liver polyunsaturated fatty acids-containing phosphatidylserine is approximately 85% by weight; and precipitating the resultant liver polyunsaturated fatty acids-containing phosphatidylserine salt by the slow addition of an about 4.5 M sodium acetate solution in water in ethanol.