Calcitonin increases fatty acid synthetase activity dependently of calcium-calmodulin in the hepatic cytosol of fed rats

The effect of calcitonin (CT) on fatty acid synthetase activity in the hepatic cytosol was investigated after a single subcutaneous administration of the hormone to fed rats. Administration of CT (synthetic [Asu1,7] eel CT; 80 MRC mU/100 g body weight) produced significant increases in fatty acid synthetase activity and calcium concentration in the hepatic cytosol of intact and thyroparathyroidectomized rats. The hormonal effect on the enzyme activity was not observed in rats fasted for 24 h. The increase in fatty acid synthetase activity by CT administration was completely inhibited by treatment with 10 microM EGTA. This enzyme activity was restored by addition of calcium ion (2.5-10 microM). The increased enzyme activity of CT-treated rats was markedly reduced by addition of W-7 (15 microM), a calmodulin inhibitor, in the enzyme assay system. Moreover, the cytosolic enzyme activity of normal rat liver was markedly raised by in vitro addition of both calcium ion (5 microM) and calmodulin (2.5 micrograms). These results suggest that CT increases fatty acid synthetase activity in the hepatic cytosol of fed rats, and that this hormonal regulation may depend on calmodulin, and be mediated through raised calcium in the cytosol.     

Calcitonin and hepatic fatty acid synthesis: effect of thyroparathyroidectomy on the elevation of ATP citrate lyase activity by refeeding of starved rats

The effect of thyroparathyroidectomy (TPTX) on ATP citrate lyase regulation, a rate-limiting enzyme of fatty acid synthesis in hepatic cytosol, was investigated in rats refed after a 24 h fast. ATP citrate lyase activity in the hepatic cytosol was increased 2-fold by refeeding. This increase was suppressed about 50% by TPTX. The suppression of the enzyme activity by TPTX was completely restored by administration of calcitonin (CT; 80 MRC mU/100 g body weight). This hormonal effect was also observed at 20 MRC mU/100 g dose of CT. CT administration to refeeding-TPTX rats produced a significant increase in the calcium content of the liver tissue and the cytosol. The cytosolic ATP citrate lyase activity increase with CT administration was completely blocked by treatment of cytosol with EGTA (10 microM). This inhibition was clearly reversed by addition of calcium ion (1.25-5.0 microM). In addition, CT-induced rise in enzyme activity was markedly reduced by the presence of W-7 (5 and 50 microM), a calmodulin inhibitor, in the enzyme assay system. The present results suggest that CT plays a role in the elevation of hepatic ATP citrate lyase activity brought about by refeeding of fasted rats, and that this hormonal regulation might depend on Ca2+-calmodulin.     

Expression of calcium-binding protein regucalcin mRNA in rat liver is stimulated by calcitonin: The hormonal effect is mediated through calcium

The involvement of a hypocalcemic hormone calcitonin (CT) in the expression of hepatic Ca²⁺-binding protein regucalcin mRNA was investigated. The change of regucalcin mRNA levels was analyzed by Northern blotting using liver regucalcin complementary DNA (0.9 kb). A single oral administration of calcium chloride (100 mg Ca/100 g body weight) to rats induced a remarkable increase in the serum calcium concentration and a corresponding elevation of the liver calcium content during 120 min after the administration. Thyroparathyroidectomy (TPTX) did not cause a significant increase in the liver calcium content after calcium administration. Hepatic regucalcin mRNA level was markedly elevated by calcium administration; the level was about 180% of controls at 60 min after the administration. This increase was completely abolished by TPTX. A single subcutaneous administration of CT (synthetic eel CT; 25–100 MRC mU/100 g) to TPTX rats received oral administration of calcium (100 mg/100 g) produced a remarkable increase in hepatic regucalcin mRNA levels; the level was about 280% of controls with the dose of 25 MRC mU CT/100 g. The present finding suggests that the expression of hepatic mRNA is stimulated by CT, and that the hormonal effect is mediated through Ca²⁺ in rat liver.     

Calcitonin action on ATP citrate lyase activity in the hepatic cytosol of fed rats and its calcium-calmodulin dependency

The effect of calcitonin (CT) on ATP citrate lyase activity in the hepatic cytosol was investigated after a single subcutaneous administration of the hormone to fed rats. Administration of CT (synthetic [Asu107] eel CT; 80 MRC mU/100 g body weight) produced significant increases in ATP citrate lyase activity and calcium content in the hepatic cytosol of intact and thyroparathyroidectomized rats. Those alterations were also observed with the dose of CT at physiological level. The increased cytosolic ATP citrate lyase activity resulting from CT administration was prevented by treatment with 10 microM EGTA. This enzyme activity was restored by addition of calcium ion (2.5-10 microM). The rise in enzyme activity of CT-treated rats was markedly reduced by the presence of W-7 (10 and 100 microM), a calmodulin inhibitor, in the enzyme assay system, while that of control rats was not significantly altered by the drug. These results suggest that CT increases ATP citrate lyase activity in the hepatic cytosol of fed rats, and that this hormonal regulation may depend on calmodulin, and be mediated through raised calcium in the cytosol.     

Effect of calcitonin on Ca-ATPase activity of plasma membrane in liver of rats.

The effect of calcitonin (CT) on Ca-ATPase activity in the plasma membrane fraction of rat liver was investigated. CT (80 MRC mU/100 g BW) administered subcutaneously to rats, caused a significant decrease in serum calcium, while increasing liver calcium. The administration of CT produced a rapid decrease of Ca-ATPase activity in the plasma membrane fraction of liver, whereas CT did not cause a significant alteration of p-nitrophenyl phosphatase activity. The maximal response of CT was obtained with 80 MRC mU/100 g BW. Meanwhile, the administration of imidazole (30 mg/100 g BW) which has a hypocalcemic effect, like CT, produced a significant increase in liver calcium and a corresponding fall in Ca-ATPase activity of the plasma membrane fraction. The reduction of Ca-ATPase activity produced by imidazole was significantly potentiated by the simultaneous administration of CT, and the rise in liver calcium was enhanced slightly. The present results suggest that the action of CT on liver calcium involves the decrease of Ca-ATPase activity in the plasma membrane of rat liver.     

Effect of calcitonin on fructose 1,6-diphosphatase activity in rat liver: role of cytosolic calcium concentration

The effect of calcitonin (CT) on fructose 1,6-diphosphatase activity in the hepatic cytosol was investigated after a single subcutaneous administration of the hormone to rats. Administration of CT (synthetic [Asu1,7] eel CT; 80 MRC mU/100 g body weight) produced significant increase in fructose 1,6-diphosphatase activity and calcium content in the hepatic cytosol of intact and thyroparathyroidectomized rats. Those alterations were also observed with the dose of CT at physiological level. The binding of calcium by 10 microM EGTA in the hepatic cytosol caused a clear reduction of the increase in fructose 1,6-diphosphatase activity produced by CT administration. The enzyme activity of CT-treated rats was markedly reduced by W-7 (100 microM), calmodulin inhibitor, while that of control rats was not significantly altered by the drug. Meanwhile, fructose 1,6-diphosphatase activity in the hepatic cytosol obtained from normal rats was significantly enhanced by addition of calcium ion (0.1-5.0 microM). This increase was also clearly inhibited by W-7. These results suggest that CT increases fructose 1,6-diphosphatase activity in the hepatic cytosol of rats, and that this hormonal regulation may depend on calmodulin, mediated through calcium increased in the cytosol.     

Comparison of calcitonin, epinephrine and glucagon effects on plasma membrane Ca-ATPase activity and calcium content in liver of rats

The effects of calcitonin (CT), epinephrine and glucagon on the plasma membrane Ca-ATPase activity and the calcium content in the liver were investigated 30 min after a single subcutaneous administration of hormones to rats. Ca-ATPase activity in the plasma membrane fraction was significantly decreased by CT (80 MRC mU/100 g BW), while it was not significantly lowered by insulin (100 mU/100 g BW), epinephrine (100 micrograms/100 g BW), glucagon (50 micrograms/100 g BW), or parathyroid hormone (25 U/100 g BW). The calcium content in the liver was markedly increased by CT, while it was not significantly elevated by epinephrine or glucagon. Meanwhile, the decrease of Ca-ATPase activity in the plasma membrane fraction produced by CT was significantly prevented by simultaneous administration of epinephrine or glucagon, and also the increase in liver calcium was noticeably interfered with. The present results suggests that the action of CT on liver calcium may differ from that of epinephrine or glucagon which causes an increase in cyclic AMP in the liver cells.     

Monocytes and platelets share the glycoproteins IIb and IIIa that are absent from both cells in Glanzmann''s thrombasthenia type I.

The possibility that thyroxine (T4) itself exerts the hormonal effect in vivo on the rat liver nuclear receptor was studied with the aid of iopanoic acid (IOP), an inhibitor of the conversion of T4 into tri-iodothyronine (T3). After administration of 2.4 micrograms of T4/100 g body weight to hypothyroid rats for 7 days, T4 and T3 concentrations in serum and in the liver nuclear non-histone protein (NHP) were all increased to the hyperthyroid range. Hepatic mitochondrial alpha-glycerophosphate dehydrogenase (alpha-GPD) activity and DNA content increased significantly. The equilibrium association constant (Ka) of the nuclear T3 receptor was unchanged and the maximal binding capacity (Cmax.) increased 1.4-fold. Simultaneous administration of IOP (5 mg/100 g body weight) to the rats given 2.4 micrograms of T4/100 g body weight completely blocked the conversion into T3. The serum T4 was even more increased, whereas the serum T3 decreased to the hypothyroid range. Although the NHP-bound T4 was at a concentration comparable with the rats given T4 alone, no NHP-bound T3 was detected. Yet the alpha-GPD activity was elevated 2.8-fold and the DNA content increased to the same extent as observed in the rats given T4 alone. The Ka and Cmax. of the nuclear receptor were significantly decreased. After administration of 48 or 480 micrograms of T4/100 g body weight for 3 days, serum T4 and T3 were markedly increased. The NHP-bound T3 was also increased, but no NHP-bound T4 was detected. The alpha-GPD activity was markedly elevated, but the DNA content was unchanged. The Cmax. per g of liver was increased, whereas the Ka remained unchanged. Simultaneous administration of IOP to these animals could not completely block the T4 conversion. The observed hormonal effects in the absence of nuclear T3 indicate that T4 possesses the intrinsic hormonal activities on the rat liver. T4 is less potent in induction of alpha-GPD activity but as potent in increment of hepatic DNA as T3. Although the binding site for T4 is not fully characterized, it appears to be acidic NHP. T4 is an active hormone, yet is also a prohormone of T3, offering the closest analogy with testosterone.     

Effect of parathyroid hormone on the increase in serum glucose and insulin levels after a glucose load to thyroparathyroidectomized rats.

Thyroparathyroidectomy (TPTX) caused a significant increase in serum glucose and a corresponding fall in serum calcium in both fed and fasted rats. The increase in serum glucose, induced by TPTX, was markedly potentiated by a single intraperitoneal administration of calcium (2 mg/100 g BW) which caused a significant elevation of serum calcium in thyroparathyroidectomized rats. Parathyroid hormone (PTH; 20 U/100 g BW) administered subcutaneously to thyroparathyroidectomized rats, caused a significant decrease in serum glucose (0.1 g/100 g BW) to sham-operated rats significantly increased both serum glucose and insulin. The rise of serum glucose produced by a glucose load was markedly potentiated by TPTX, but the increase in serum insulin was not promoted significantly. The administration of PTH decreased both serum glucose and insulin levels increased by a glucose load to thyroparathyroidectomized rats, in a dose-dependent manner. The administration of calcitonin (80 MRC mU/100 g BW) significantly prevented the effect of PTH to decrease serum glucose after a glucose load to thyroparathyroidectomized rats, and calcitonin increased serum insulin. These results suggest that the effect of PTH on serum glucose does not involve insulin secretion.     

Effect of cold exposure on the concentration of triglyceride in the liver of the rat

The aim of the present study was to examine an effect of cold exposure on the concentration of triglycerides (TG) in the rat's liver. The rats were divided into the following groups: control, fed with oil, treated with hydrocortisone, fed with oil and treated with hydrocortisone, treated with noradrenaline. The rats exposed to cold were kept in wire cages (one rat in one cage) in the cold room at temperature +2 degrees C. They had free access to food (pellet diet for rodents) and water. In the control group the exposure to cold increased mildly (though significantly) the TG concentration after 1 and 3 h and had no effect after 2 and 24 h. It did not affect the concentration of plasma free fatty acids (FFA). At room temperature feeding with oil (2 ml/100 g of body weight) alone, and combined with hydrocortisone treatment (5 mg/100 g of body weight) as well as treatment with noradrenaline (0.1 mg/100 g of body weight) had no effect on the liver TG concentration, although the concentration of plasma FFA was increased. Exposure to cold for 3 h increased markedly the liver TG concentration in each of those groups. It is concluded that exposure to cold elicits a mechanism, which in the presence of elevated plasma FFA concentration induces accumulation of TG in the liver.     

Calcitonin increases pyruvate carboxylase activity in hepatic mitochondria of rats

The effect of calcitonin (CT) on calcium content and enzyme activity in the hepatic mitochondria of intact rats was investigated. A single subcutaneous administration of CT (80 MRC mU/100 g BW) produced a significant increase in the content of calcium, the activity of pyruvate carboxylase, succinate dehydrogenase and ATPase 15 min after the hormone treatment. The significant increases in calcium content and pyruvate carboxylase activity were also observed 30 min after CT administration, while succinate dehydrogenase and ATPase activity began to decrease. A physiological dose of CT (20 MRC mU/100 g BW) caused a marked increase in calcium content and pyruvate carboxylase activity but not succinate dehydrogenase of ATPase-activity. The removal of calcium by 10 mM EGTA washing of the mitochondria produced a remarkable reduction in pyruvate carboxylase activity increased by CT administration. The addition of calcium ion of 2.5 x 10(-2) - 2.5 x 10(1) nmoles Ca2+ per mg mitochondrial protein produced a marked increase in pyruvate carboxylase activity. The present results suggest that calcium taken up by the hepatic mitochondria after CT administration activates pyruvate carboxylase.     

Regulation of lipid flux between liver and adipose tissue during transient hepatic steatosis in carnitine-depleted rats

Rats with carnitine deficiency due to trimethylhydrazinium propionate (mildronate) administered at 80 mg/100 g body weight per day for 10 days developed liver steatosis only upon fasting. This study aimed to determine whether the transient steatosis resulted from triglyceride accumulation due to the amount of fatty acids preserved through impaired fatty acid oxidation and/or from up-regulation of lipid exchange between liver and adipose tissue. In liver, mildronate decreased the carnitine content by approximately 13-fold and, in fasted rats, lowered the palmitate oxidation rate by 50% in the perfused organ, increased 9-fold the triglyceride content, and doubled the hepatic very low density lipoprotein secretion rate. Concomitantly, triglyceridemia was 13-fold greater than in controls. Hepatic carnitine palmitoyltransferase I activity and palmitate oxidation capacities measured in vitro were increased after treatment. Gene expression of hepatic proteins involved in fatty acid oxidation, triglyceride formation, and lipid uptake were all increased and were associated with increased hepatic free fatty acid content in treated rats. In periepididymal adipose tissue, mildronate markedly increased lipoprotein lipase and hormone-sensitive lipase activities in fed and fasted rats, respectively. On refeeding, carnitine-depleted rats exhibited a rapid decrease in blood triglycerides and free fatty acids, then after approximately 2 h, a marked drop of liver triglycerides and a progressive decrease in liver free fatty acids. Data show that up-regulation of liver activities, peripheral lipolysis, and lipoprotein lipase activity were likely essential factors for excess fat deposit and release alternately occurring in liver and adipose tissue of carnitine-depleted rats during the fed/fasted transition.     

Hormonal regulation of biliary calcium excretion in rats: inhibition of calcitonin action by alpha 1-adrenergic stimulation

The effect of synthetic [Asu1,7] eel calcitonin (CT) and other hormones on biliary calcium excretion was investigated in rats cannulated bile duct. Administration of CT (80 mU/100 g body weight) produced a significant increase in liver calcium and a corresponding elevation of bile calcium content. The increase in bile calcium content was also caused by administration of insulin (0.1 U/100 g), epidermal growth factor (10 micrograms/100 g), glucagon (10 micrograms/100 g), epinephrine (10 micrograms/100 g), norepinephrine (10 micrograms/100 g), 4 beta-phorbol 12-myristate-13-acetate (10 micrograms/100 g) and ATP (1.0 mg/100 g), suggesting that this increase may be a receptors-mediated response. Of these hormones and drugs, norepinephrine, a alpha-receptor mediator, clearly prevented CT effect on biliary calcium excretion. Moreover, phenylephrine, a alpha 1-receptor agonist, caused an inhibition of the CT effect, while the agonist significantly increased biliary calcium excretion. The present study clearly demonstrates that biliary calcium excretion is stimulated by various hormones which increase calcium influx into liver cells, and suggests that the CT action may be inhibited by alpha 1-adrenergic stimulation.     

Traditional Chinese Medicine improves dysfunction of peroxisome proliferator-activated receptor alpha and microsomal triglyceride transfer protein on abnormalities in lipid metabolism in ethanol-fed rats

We report the effects of Traditional Chinese Medicine (TCM) on alcohol-induced fatty liver in rats. TCM consists of Astragalus membranaceus, Morus alba, Crataegus pinnatifida, Alisma oriental, Salvia miltiorrhiza and Pueraria lobata. The rats were separated randomly into five groups; the CD group (n=10), which was fed a control diet for 10 weeks, the ED group (n=10), which was fed an isocaloric liquid diet containing ethanol for 10 weeks and given daily oral doses of TCM (0.222 g/kg/day; TCM222, 0.667 g/kg/day; TCM667, and 2.000 g/kg/day; TCM2000, n=10, respectively) over the last four weeks of the study. The ED group developed fatty livers, as determined by their lipid profiles and liver histological findings. Compared with the control group, liver/body weight, plasma triglyceride (TG) and total cholesterol (TC), liver TG and TC, plasma alanine aminotransferase (ALT) and aspartic aminotransferase (AST) significantly increased in the ED group. Also, free fatty acids (FFA) levels increased in both plasma and liver during the administration of ethanol. On the other hand, when rats were administrated with TCM, their liver/body weight, plasma TG, TC and FFA, liver TG, TC and FFA, plasma ALT and AST decreased significantly and the degree of hepatic lipid droplets was markedly improved compared with those in the ED group. Proper function of the peroxisome proliferator-activated receptor alpha (PPARalpha) is essential for the regulation of hepatic fatty acid metabolism. Microsomal triglyceride transfer protein (MTP) is essential for the secretion of triglycerides from the liver. mRNAs for PPARalpha and MTP were reduced in the livers of ethanol-fed rats. TCM restored the mRNA levels of PPARalpha and MTP, and prevented development of fatty livers in ethanol-fed rats. Impairment of PPARalpha and MTP function during ethanol consumption contributes to the development of alcohol-induced fatty liver, which can be overcome by TCM.     

Effects of calcitonin and other hormones on bile calcium excretion in thyroparathyroidectomized rats.

The effects of calcitonin (CT) and other hormones on the bile calcium excretion after a single intraperitoneal administration of calcium (4.0 mg/100 g BW) was investigated in thyroparathyroidectomized rats. Porcine, salmon, and synthetic eel CT (80 MRCmU/100 g BW, respectively) markedly increased the bile calcium excretion in comparison with that of calcium-administered rats. Tetragastrin (7.5 microgram/100 g BW), and insulin (50 mU/100 g BW) did not alter significantly the bile calcium excretion, while epinephrine (100 microgram/100 g BW), glucagon (50 microgram/100 g BW), and parathyroid hormone (25 U/100 g BW) increased significantly. The increasable effect of CT on the bile calcium excretion was significantly prevented by epinephrine (10 and 100 microgram/100 g BW). The present results suggest that the bile calcium excretion may be increased by the hormones which causes the elevation of cyclic AMP in the liver cells of rats.     

Activation of rat liver branched-chain 2-oxo acid dehydrogenase in vivo by glucagon and adrenaline.

The activity of liver branched-chain 2-oxo acid dehydrogenase complex was measured in rats fed on low-protein diets and given adrenaline, glucagon, insulin or dibutyryl cyclic AMP in vivo. Administration of glucagon or adrenaline (200 micrograms/100 g body wt.) resulted in a 4-fold increase in the percentage of active complex. As with glucagon and adrenaline, treatment of rats with cyclic AMP (5 mg/100 g body wt.) resulted in marked activation of branched-chain 2-oxo acid dehydrogenase. Insulin administration (1 unit/100 g body wt.) also resulted in activation of enzyme; however, these effects were less than those observed with glucagon and adrenaline. In contrast with the results obtained with low-protein-fed rats, administration of adrenaline (200 micrograms/100 g body wt.) to rats fed with an adequate amount of protein resulted in only a modest (14%) increase in the activity of the complex. The extent to which these hormones activate branched-chain 2-oxo acid dehydrogenase appears to be correlated with their ability to stimulate amino acid uptake into liver.     

Study of absorption and retention of nitrogen in fast growing rats--II. Influence of IMAO (nialamide)

A study was made in fast growing rats (65 g) of the nutritive effects of protein and the effect on different organs when influenced by nialamide (IMAO), administered at a dosage of 10 mg/100 g diet, with food intake controlled (pair fed). The administration of nialamide reduces the protein absorbed and retained to a significant degree, both in males and females. No difference was observed between the sexes caused by the effect of the drug, due to the absence of the hormonal anabolizant situation caused by testosterone in adult rats. The administration of nialamide does not significantly modify nitrogen content per 100 g of body weight in any of the organs studied, with the exception of the longissimus dorsi.     

Expression of calcium-binding protein regucalcin mRNA in the kidney cortex of rats: The stimulation by calcium administration

The expression of calcium-binding protein regucalcin mRNA in the kidney cortex of rats was investigated. The change of regucalcin mRNA levels was analyzed by Northern blotting using liver regucalcin complementary DNA (0.9 kb of open-reading frame). Regucalcin mRNA was expressed in the kidney cortex, and this expression was clearly increased by a single intraperitoneal administration of calcium chloride solution (5–15 mg Ca/100 g body weight) in rats; this increase was remarkable at 60–120 min after the administration. Thyroparathyroidectomy (TPTX) caused a slight decrease of regucalcin mRNA levels in the kidney cortex. However, the administration of calcium (10 mg/100 g) in TPTX rats produced a clear increase of regucalcin mRNA levels in the kidney cortex. The subcutaneous administration of calcitonin (10–100 MRC mU/100 g) or parathyroid hormone [1–34] (1–10 U/100 g) in TPTX rats which received calcium (10 mg/100 g) administration did not cause an appreciable alteration of regucalcin mRNA levels in the kidney cortex, suggesting that the mRNA expression is not stimulated by calcium-regulating hormones. The administration of trifluoperazine (TFP; 5 mg/100 g), an inhibitor of Ca²⁺/calmodulin action, completely blocked the expression of regucalcin mRNA stimulated by calcium administration. Now, calcium content in the kidney cortex was significantly elevated by a single intraperitpneal administration of calcium (10 mg/100 g) in rats. The present study clearly demonstrates that the expression of regucalcin mRNA in the kidney cortex is stimulated by calcium administration in rats. This expression may be mediated through Ca²⁺/calmodulin action in the kidney cortex.     

Effect of glutamate on the control of fatty-acid synthesis in white adipose tissue of the rat. Inhibition of pyruvate dehydrogenase.

Glutamate (5mM) inhibited glucose conversion to fatty acids by approximately one-third in adipocytes from fed rats. This inhibition was significantly less in the pressence of pyruvate or 2-oxoglutarate. After incubation of adipose tissue from fed rats with glucose and insulin, pyruvate dehydrogenase activity was 180 plus or minus 17 mU/g wet weight. Addition of glutamine to the incubation medium decreased this activity significantly (118 plus or minus 14 mU/g wet weight). This inhibition by glutamate was also diminished when 2-oxoglutarate or pyruvate were present. Glutamate added to homohentates of adipose tissue had no effect on the activation of pyruvate dehydrogenase by Mg-2+. However, glutamate inhibited the active form of the enzyme and enhanced the rate of inactivation of the enzyme complex by ATP and Mg-2+. Aminooxyacetate, a transaminase inhibitor, did not reverse the effects of glutamate on pyruvate dehydrogenase nor fatty acid synthesis.     

Effect of α-Lipoic Acid on Lipid Profile in Rats Fed a High-Fructose Diet

This study investigated the effect of administration of α-lipoic acid (LA) on lipid metabolism in high fructose–fed insulin-resistant rats. High-fructose feeding (60 g/100 g diet) to normal rats resulted in a significant increase in the concentrations of cholesterol, triglycerides (TGs), free fatty acids (FFAs), and phospholipids in plasma, liver, kidney, and skeletal muscle. Reduced activities of lipoprotein lipase (LPL) and lecithin cholesterol acyl transferase (LCAT) and increased activity of the lipogenic enzyme hydroxymethylglutaryl–coenzyme A (HMG-CoA) reductase were observed in plasma and liver. High-density lipoprotein cholesterol (HDL-C) was significantly lowered and very low-density lipoprotein cholesterol (VLDL-C) and low-density lipoprotein cholesterol (LDL-C) were significantly elevated. Treatment with LA (35 mg/kg body weight intraperitoneal) reduced the effects of fructose. The rats showed near-normal levels of lipid components on plasma and tissues. Activities of key enzymes of lipid metabolism were also restored to normal values. Cholesterol distribution in the plasma lipoproteins was normalized, resulting in a favorable lipid profile. This study demonstrates that LA can alter lipid metabolism in fructose-fed insulin-resistant rats and may have implications in the treatment of insulin resistance.