Brain and hippocampus fatty acid composition in phospholipid classes of aged-relative cognitive deficit rats.

The aim of this work was to study the composition of long chain fatty acids and the n-6 and n-3 fatty acid ratios in aged and young Wistar rats in brain and hippocampus, related to relative cognitive deficits. The aged animals showed cognitive deficits during acquisition of a memory task (delayed alternation). In brain, results showed a decrease in palmitoleic and palmitic acid percentages in all the studied phospholipid classes and in the phosphatidylserine and phosphatidylcholine classes, respectively, in old rats, compared to the young ones. There was also an increase in oleic and stearic acid amounts in the sphingomyelin, phosphatidylserine and phosphatidylinositol classes and in the phosphatidylserine and phosphatidylcholine classes, respectively. Arachidonic acid amount was decreased in old rats, compared to the young ones, in the phosphatidylserine and phosphatidylinositol classes. Total n-6 and n-3 fatty acid amounts were both decreased in all phospholipid classes, with a stable n-6/n-3 ratio. Our results confirm that arachidonic acid concentration is decreased in aged rats and that this reduction, more significant in phosphatidylserine and phosphatidylinositol classes, should be related to the fact that low concentrations of arachidonic acid are observed during activation of glutamate receptor.

Adrenic acid delta 4 desaturation and fatty acid composition in liver microsomes of spontaneously diabetic Wistar BB rats.

We examined the delta 4 (n-6) desaturation and the fatty acid composition of liver microsomes in the insulin-dependent spontaneously diabetic Wistar Bio-Breeding (BB) rat. The desaturation of adrenic acid to n-6 docosapentaenoic acid was decreased in the normo- and hyperglycemic diabetic rats. Insulin treatment with 1.0 IU. 100 g body weight-1 twice a day for 2 days restored the reduced activity during the hypoglycemic period. The pattern of responses was similar to that of linoleic acid delta 6 and dihomo-gamma-linolenic acid delta 5 desaturases, with a non-parallel relationship between the desaturation system and the glycemia. The microsomal fatty acid composition of BB rat liver reflected only partially to the delta 4 desaturation at different states of glycemia. Factors other than impaired desaturation system are involved in the fatty acid metabolism of spontaneously diabetic rats.

Effect of sodium loading (3% NaCl) on arachidonic acid biosynthesis in rat liver microsomes.

Sodium loading increases arachidonic acid (AA) metabolism by way of the prostaglandins(PGs) from series 2. Its effect on AA biosynthesis remains unknown. The purpose of the present study was to investigate the influence of sodium loading on the fatty acid composition of liver and liver microsomes, and the liver microsomal delta-6 and delta-5 desaturations of linoleic acid (LA) into AA. We found a decrease of LA and dihomo-gamma-linolenic acid (DGLA) levels in liver total lipids of Wistar rats receiving hypernatriuretic drinking water (NaCl 3%) for 60 days. At the same time AA increased. DGLA decreased and AA increased in liver microsomal total lipids. 1(14) C-LA delta-6 desaturase and 2(14) C-DGLA delta-5 desaturase activities increased in liver microsomes. These results show that, in addition to its influence on the regulation of glomerular filtration, sodium loading is involved in the regulation of liver AA biosynthesis.

Spontaneous diabetes in bio-breeding rats: evidence for insulin dependent liver microsomal delta 9 stearic acid desaturation.

We studied liver microsomal delta 9 stearic acid desaturase activity and fatty acid composition of liver phospholipids and microsomal total lipids in the insulin-dependent spontaneously diabetic adult male Bio-Breeding rat. The diabetic Bio-Breeding rats (3 weeks of diabetes) were killed 48, 17 and 3 h after the last insulin injection (1.0 IU, 100 g body weight-1 day-1). Under these experimental conditions, delta 9 desaturase activity was defective during the normo- and hyper-glycaemic periods and restored during the hypoglycaemic period which followed the insulin injection to the diabetic rats. The fatty acid composition of diabetic rat liver phospholipids and microsomal total lipids were not consistent with delta 9 desaturase activity at the different periods of glycaemia and may be explained by factors other than disturbances of this desaturation.

Altered desaturase activities and fatty acid composition in liver microsomes of spontaneously diabetic Wistar BB rat.

We examined the activities of delta 9, delta 6 and delta 5 desaturases and fatty acid composition of liver microsomes in the insulin-dependent spontaneously diabetic adult female Wistar Bio-Breeding (BB) rat. The diabetic BB rats were subcutaneously injected with different doses of protamine zinc insulin in order to be killed in hyper-, normo- or hypo-glycemic states. Desaturase activities, which are partially inhibited by spontaneous diabetes during the normo- and hyper-glycemic periods, were similarly affected by the various insulin treatment; delta 9 desaturase activity being more depressed than the desaturase activities of either delta 6 of delta 5. Insulin treatment with 10 I.U./kg body weight twice a day for 2 days was able to restore the delta 9, delta 6 and delta 5 desaturase activities to control levels during the hypoglycemic period. The microsomal fatty acid composition of BB rats liver was not consistent with the desaturase activities, particularly delta 9 desaturase activity, during the different states of glycemia, indicating that they are not closely linked in a direct cause-effect relationship.

Evidence for insulin dependent hepatic microsomal gamma-linolenic acid chain elongation in spontaneously diabetic Wistar BB rats.

We studied hepatic microsomal gamma-linolenoyl-CoA elongation and fatty acid composition of liver microsomes in spontaneously diabetic Wistar BB rats. The liver microsomal gamma-linolenoyl-CoA elongation was decreased in diabetic Wistar BB rats during both normo- and hyperglycemic periods and restored during the hypoglycemic period following insulin treatment. These results are in agreement with our previously reported data on linoleic acid delta 6 and delta 5 desaturations and support the non-parallel relationship between the chain elongation system and the glycemia. The fatty acid composition of BB rat liver microsomes was only partially consistent with the gamma-linolenoyl-CoA elongation activity at the different periods of glycemia, probably because factors other than elongation impairments were involved in the evolution of fatty acid composition.

Elongation and desaturation of arachidonic and eicosapentaenoic acids in rat liver. Effect of clofibrate feeding.

The fatty acid elongation-desaturation ability of 5,8,11,14-eicosatetraenoic (20:4(n-6)) and 5,8,11,14,17-eicosapentaenoic (20:5(n-3)) acids was determined in both liver microsomal and light mitochondrial (rich in peroxisomes) fractions of untreated and clofibrate treated rats. The elongation and the subsequent desaturation steps were performed in the corresponding favorable media. 20:5(n-3) elongation was about 2-times more extensive than that of 20:4(n-6). Clofibrate feeding for 10 days resulted in a marked decrease in the elongation rate with the two substrates, while the delta 4 desaturation rate was increased. There were small differences in the elongation rate between the microsomal and light mitochondrial fractions, however, the relative delta 4 desaturation rate was higher in the light mitochondrial fraction than microsomes.

Liver fatty acid composition in the spontaneously diabetic BB rat.

The purpose of the present experiment was to investigate if the modulation by insulin of liver microsomal desaturase activities in the spontaneously diabetic adult male Bio-Breeding (BB) rat, with destructive insulitis resembling the lesions described in the human Type I (insulin-dependent) diabetes, corresponds to modifications in fatty acid composition, reflect of changes in fatty acid desaturation. We observed no significant differences between BB rats, during the hyper-(48 h), the normo-(17 h) and the hypo-glycemic (3 h) periods which followed the insulin injection, and control rats for the fatty acid composition of liver total lipids, phosphatidylethanolamines, phosphatidylcholines, triacylglycerols, cholesterol esters and non esterified fatty acids. On the other hand, linoleic acid of BB rats liver phospholipids increased, comparatively to control rats, while arachidonic acid decreased, in agreement with previously reported results on chemical diabetes and consistent with a defective delta 6 desaturation, particularly during the normo-and hyper-glycemic periods, and the fact that control of membrane lipid composition is multifactorial.

Spontaneous diabetes in BB rats: evidence for insulin dependent liver microsomal delta 6 and delta 5 desaturase activities.

We studied linoleic acid delta 5 and dihomo-gamma-linolenic acid delta 5 desaturations, and fatty acid composition, of liver microsomes in the insulin-dependent spontaneously diabetic adult female BB rat. These desaturations were defective along the normo- and hyper-glycemic period and restored during the hypoglycemic period which followed the insulin injection to the diabetic rats. The fatty acid composition of BB rats microsomes was not consistent with the desaturase activities at the different periods of glycemia, probably because other factors than desaturation impairments were involved in the evolution of fatty acid composition.

[Hepatic microsomal delta 9 desaturation of stearic acid in the spontaneously diabetic female BB rat]. / delta 9 désaturation microsomale hépatique de l'acide stéarique chez la ratte spontanément diabétique BB.

delta 9 desaturation of stearic (1-14C) acid has been estimated from incubation of liver microsomes of adult female spontaneously diabetic BB rat, an animal model resembling the spontaneous juvenile diabetes in humans, comparatively to adult female control Wistar rat. The animals were sacrificed, when hyperglycemic, 24 hours after the last insulin injection to the BB rats. Stearic acid delta 9 desaturase activity is drastically depressed in the BB rats when fatty acid composition of liver phospholipids and microsomal total liver lipids are changed in spite of the daily injection of insulin necessary for the BB rats survival.