A subchronic 90-day oral rat toxicity study and in vitro genotoxicity studies with a conjugated linoleic acid product.

Conjugated linoleic acid (CLA) is the term given to a group of positional and geometric isomers of the essential fatty acid linoleic acid. CLA is found naturally in foods such as dairy and meat products. CLA is reported to have a number of beneficial effects including anticarcinogenic activity. However, safety data are limited. Clarinol G80 is a commercial preparation containing equal amounts of the 9cis,11trans and 10trans,12cis CLA isomers in the form of glycerides. In order to support the safety-in-use of Clarinol G80 as an ingredient in food, the preparation was tested in two in vitro mutagenicity assays, an Ames test and an in vitro cytogenetics assay, and a 90-day repeat-dose oral toxicity rat study. Clarinol G80 was non-mutagenic in both in vitro assays. In the 90-day study, Clarinol G80 produced hepatocellular hypertrophy in female rats at the highest dose level (15% w/w). This effect was an adaptive effect in response to feeding high levels of Clarinol G80 in the diet and was reversible upon withdrawal of test material. An increase in plasma insulin levels was also observed female rats fed 15% w/w Clarinol G80 but there was no effect on plasma glucose levels. A No Observed Adverse Effect Level of 2433 mg/kg bw/day for male and 2728 mg/kg bw/day female rats was identified in the study.

Teratogenic actions of thermally-stressed culinary oils in rats.

Lipid oxidation products (LOPs), generated in culinary oils during episodes of thermal stressing can give rise to cellular damage. The aims of this study were to determine whether orally-administered, LOP-containing thermally-stressed safflower oil exerts teratogenic actions in rats, and whether this effect could be prevented by co-administration of alpha-tocopherol (alpha-TOH). Safflower oil was heated for a period of 20 min according to standard frying practices and stored at -20 degrees C under N2. Four experimental groups of pregnant Wistar rats were employed; two received 0.30 ml of pre-heated oil (HO), one of which was also supplemented with 150 mg of alpha-TOH (HOE), and two served as controls, one treated with the non-heated oil (O) and the other without any treatment (C). The oil was administered daily by gavage from day 1 of pregnancy to day 11.5, when the animals were killed and the embryos examined. LOPs and alpha-TOH were determined both in the heated and non-heated oils. The percentage of embryo malformations and reabsorptions were determined in the above four experimental groups. Heating the oil substantially increased its concentration of LOPs and decreased its alpha-TOH content. The percentage of embryo malformations in the HO group was 21.73%, compared with 5.6 and 7% in the O and C groups, respectively. Supplementation of the pre-heated oil with alpha-TOH was found to decrease the percentage of malformations to 7%. The results obtained from these investigations indicate that LOPs detectable at millimolar levels in the heated cooking oils administered (e.g. saturated and alpha,beta-unsaturated aldehydes, and/or their conjugated hydroperoxydiene precursors) exert potent teratogenic actions in experimental animals which are at least partially circumventable by co-administration of the chain-breaking antioxidant alpha-TOH. Plausible mechanisms for these processes and their health relevance to humans regarding diet and methods of frying/cooking are discussed.

Accelerative effect of olive oil on liver glycogen synthesis in rats subjected to water-immersion restraint stress.

The effects of dietary oils on stress-induced changes in the liver glycogen metabolism of male Wistar rats at 6 weeks of age were investigated. The rats were subjected to repetitive water-immersion restraint and fed with a 20% saturated fatty acid mixture (PSC), olive oil (OLI), safflower oil (SAF), or linseed oil (LIS) diet. Stress loading decresed the body weight gain, although the food intake was hardly changed, and the weights of the liver and spleen generally declined regardless of the elapsed time after stress loading and the type of dietary oil. The adrenal weight was generally enhanced by stress in all deitary groups, and particularly tended to be greater in the OLI and PSC groups than in the other two. The plasma corticosterone concentration increased immediately after stressing (Stress-1), but approached the level of the rats with no stress (No stress) 2 h after releasing the stress load (Stress-2) in all groups. The enhancement of corticosterone level in the Stress-1 animals was large in the PSC and OLI groups, and the decline of this level in the Stress-2 animals was small in the OLI group when compared with the other groups. Although the concentrations of total cholesterol (T-CHOL) and triacylglycerol (TG) in the plasma were decreased by stress loading in all groups, these concentrations in the PSC and OLI groups were nearly always higher than in the other groups. The liver serine dehydratase (SDH) activity enhanced by stress was high in the OLI group and tended to be high in the PSC group when compared with the other groups. The contents of liver glycogen were reduced in the Stress-1 animals and extremely elevated in the Stress-2 animals of all groups, and particularly in the OLI group, the reduction in the Stress-1 animals was smaller and the enhancement in the Stress-2 animals was greater than in the other groups. These results suggest that feeding oleic acid to rats exposed to water-immersion restraint further accelerated liver glycogen synthesis through the rise in liver SDH activity due to increased corticosterone secretion when compared with the effect from linoleic and alpha-linolenic acids.

Chronic study of diacylglycerol oil in rats.

The objective of the present study was to evaluate the effects of diacylglycerol oil following long-term administration to rats. Diacylglycerol oil is an edible oil with comparable taste and physicochemical properties of several naturally occurring oils. Diacylglycerol oil can be used as a replacement for any generally used edible oil in the home and has been approved for use in cooking oil in Japan. Male and female Sprague-Dawley rats were divided into four groups and fed low-fat (1.7%) basal diets containing an edible oil composed of rapeseed, corn, high linoleic safflower and high oleic safflower oils at 5.3% (control group 1); an edible oil composed of rapeseed and soybean oils at 5.3% (control group 2); diacylglycerol oil at 2.65% plus edible oil composed of rapeseed, corn, high linoleic safflower and high oleic safflower oils at 2.65% (low-dose group); and diacylglycerol oil at 5.3% (high-dose group) for 2 years. Interim sacrifices were conducted at weeks 30 and 77 and the study was terminated following 105 weeks of feeding. No compound-related effects were noted on clinical signs, body weights, food consumption, cumulative survival rates, hematology, blood chemistry, urinalysis, organ weights or on microscopic non-neoplastic changes. Compared to control group 2, but not control group 1, there was a significant increase in the number of high-dose group females with either benign or malignant epithelial mammary gland neoplasms. These changes were not considered biologically significant, because the tumor incidence was not similar in control group 1 and 2, and the neoplastic findings were not dose related. In summary, the two-year chronic rat study revealed no toxicologically significant or treatment-related effects of diacylglycerol oil consumption at levels of up to 5.3% in the diet.

The effects of intravenous Triton WR-1339 on factor VII coagulant activity and plasma lipoproteins in normocholesterolaemic and hypercholesterolaemic rabbits.

The hypothesis that lipolysis of large lipoproteins by lipoprotein lipase (LPL) has an important influence on the activation of the contact system of coagulation and subsequently on factor VII activation was tested in rabbits rendered hyperlipidaemic by dietary means and/or by injection of Triton WR-1339. The dietary treatment involved a control diet and two isocaloric diets containing either a 0.5% cholesterol or 0.5% cholesterol and 7.5% safflower oil supplement. Other groups of rabbits were given either a standard diet or the standard diet supplemented with 1% cholesterol. All supplemented diets increased many-fold the concentrations of cholesterol associated with the chylomicron, very low-(VLDL), intermediate-(IDL) and low-density (LDL) lipoprotein fractions. Factor VII coagulant activity (FVIIc) increased significantly in all groups of rabbits fed the cholesterol supplement. The intravenous injection of Triton WR-1339 into rabbits fed either the standard or 1% cholesterol-supplemented diet resulted in increases of plasma cholesterol and triglyceride concentrations up to 36-48 h thereafter, followed by decreases up to completion of the experiment at 72 h. Most of these increases in plasma lipids were associated with the chylomicron and VLDL fractions. Following injection of Triton into rabbits fed either the standard or cholesterol-supplemented diet, changes in FVIIc were biphasic with a decrease in activity in the early intervals when rates of accumulation of plasma lipid were constant, and a progressive increase in activity at later intervals when rates of lipid accumulation declined and then reversed.(ABSTRACT TRUNCATED AT 250 WORDS)

Adjuvant oils induce arthritis in the DA rat. I. Characterization of the disease and evidence for an immunological involvement.

An intradermal injection of Freund's incomplete adjuvant oil (FIA) without further additives was shown to induce erosive polyarthritis in dark Agouti (DA) rats, but not in Lewis rats. Histological examination revealed joint inflammation, first with polymorphonuclear cells and synovial hyperplasia, and subsequently, with multinucleated giant cells. Both constituents of FIA, mineral oil and Arlacel A, as well as Pristane oil were arthritogenic, whereas vegetable oil were not. Re-administration of adjuvant oil after recovery failed to induce arthritis, thus making possible a role of specific immunity in this new form of arthritis in rats.

Dietary olive and safflower oils in promotion of DMBA-induced mammary tumorigenesis in rats.

Interpretation of studies comparing the efficacy of different dietary fat sources in promoting 7,12-dimethylbenz[a]-anthracene (DMBA)-induced rat mammary tumorigenesis often ignores the fact that about 4% (wt/wt) linoleic acid (18:2n-6) is required for optimal tumor promotion. We therefore fed DMBA-intubated or placebo-intubated female, Sprague-Dawley rats 20% fat diets containing 18:2n-6 (wt/wt) from either high-linoleic safflower oil (SL, 14.6% 18:2n-6), high-oleic safflower oil (SO, 3.4% 18:2n-6), olive oil (OO, 1.1% 18:2n-6), or OO supplemented with 18:2n-6 (OL, 3.4% 18:2n-6) for 16 weeks. Results indicated that OO-fed rats had longer tumor-free time, fewer tumors per rat, and lower tumor incidence compared with SO and OL. Addition of 2.3% 18:2n-6 to OO enhanced tumor promotion (p less than 0.04); SL, SO, and OL demonstrated similar tumor-enhancement effect. About 74% of observed mammary tumors were adenocarcinomas; a greater number of tumors appeared in the thoracic and inguinal than in the cervical and abdominal regions irrespective of diet. These results indicate that once an optimal amount of linoleic acid is provided in the diet, oleic- or linoleic-rich oils have similar effects on promotion of mammary tumors in the rat.