The effect of gamma-linolenic acid and zinc supplementation on the growth of normal and tumour cells in vitro

The effects of zinc, gamma-linolenic acid (GLA) and zinc combined and GLA supplementations on the growth of a benign monkey kidney, cell line (LLCMK) and a malignant tumour murine melanoma, cell line (BL-6) cells in vitro were studied. Cell growth was indicated by both cell counts and 3H-thymidine incorporation into DNA. The addition of zinc to the cells resulted in a general trend of overall reduction in the growth of tumour cells but not in the normal cells. The addition of GLA at high concentrations resulted in a general decrease in cell growth of both the benign and malignant tumour cells while the addition of lower concentrations of GLA had less effect. The combined effect of supplementary zinc and GLA resulted in an inhibitory effect on the growth of the malignant cells while a less and variable effect on the non-malignant cells was found. Some interaction between zinc and GLA in reducing tumour cell growth is suggested by the results.     

Retinol supplementation induces oxidative stress and modulates antioxidant enzyme activities in rat Sertoli cells

Recent intervention studies revealed that supplementation with retinoids resulted in a higher incidence of lung cancer. Recently the causal mechanism has begun to be clarified. We report here that retinol caused cellular oxidative stress and modulated superoxide dismutase, catalase and glutathione peroxidase activities. Retinol (7 μM) significantly increased TBARS, conjugated dienes, and hydroperoxide-initiated chemiluminescence in cultured Sertoli cells. In response to retinol treatment superoxide dismutase, catalase and glutathione peroxidase activities increased. TBARS content and catalase activities were decreased by a free radical scavenger. These findings suggest that retinol may induce oxidative stress and modulate antioxidant enzyme activities in Sertoli cells.     

Retinol supplementation induces oxidative stress and modulates antioxidant enzyme activities in rat sertoli cells

Recent intervention studies revealed that supplementation with retinoids resulted in a higher incidence of lung cancer. Recently the causal mechanism has begun to be clarified. We report here that retinol caused cellular oxidative stress and modulated superoxide dismutase, catalase and glutathione peroxidase activities. Retinol (7 μM) significantly increased TBARS, conjugated dienes, and hydroperoxide-initiated chemiluminescence in cultured Sertoli cells. In response to retinol treatment superoxide dismutase, catalase and glutathione peroxidase activities increased. TBARS content and catalase activities were decreased by a free radical scavenger. These findings suggest that retinol may induce oxidative stress and modulate antioxidant enzyme activities in Sertoli cells.     

Effects of gamma-linolenic acid supplementation on lipogenesis regulation in pregnant zinc-deficient rat and fetus

In the liver of zinc-deficient pregnant rats fatty acid synthetase and delta 9-desaturase activities decreased and diet supplementation with gamma-linolenic acid potentiated this effect. However, in liver microsomes from the foetuses of zinc-deficient mothers, HMG CoA reductase and delta 9-desaturase activities declined but fatty acid activity rose. The same applied to foetuses from mothers whose diet was supplemented with gamma-linolenic acid and here again, the effect of zinc deficiency was potentiated. The fact that delta 9 activity dropped whereas fatty acid synthetase activity rose implied a defect in the mechanism regulating the functioning of these enzymes. In the non zinc-deficient group of pregnant females, gamma-linolenic acid supplementation had no effect on fatty acid synthetase and delta 9-desaturase activities but significantly increased HMG CoA reductase activity. In foetuses from the same group, the activities of MHG CoA reductase, delta 9-desaturase and fatty acid synthetase all increased.     

Role of gamma-linolenic acid in counteracting doxorubicin-induced damage in cultured rat cardiomyocytes

The clinical usefulness of doxorubicin is limited by cardiotoxicity. We have demonstrated that doxorubicin has a dual negative effect on myocardial lipids, acting against highly unsaturated fatty acids (HUFAs) directly and desaturating/elongating enzymes required for their biosynthesis, thus decreasing linoleic and alpha -linolenic conversion to higher metabolites. Primary cultures of rat cardiomyocytes were challenged with different doxorubicin concentrations and doxorubicin exposure was followed by a 24-h recovery period in the absence or presence of serum, and of gamma -linolenic acid. Serum in the recovery medium did not appear to be essential for the restoration of the desaturating/elongating activities, and gamma -linolenic acid supplementation influenced only alpha -linolenic acid conversion. Serum, and particularly gamma-linolenic acid, were very important in increasing HUFA levels behind the pure biosynthesis. HUFA biosynthesis plays a role in counteracting doxorubicin toxicity, but it cannot completely overcome the depletion of these fatty acids; serum and exogenous gamma-linolenate are critical in filling the decreased HUFA pool.     

Delta-6 desaturase from borage converts linoleic acid to gamma-linolenic acid in HEK293 cells

Gamma-linolenic acid (GLA, 18:3 n6) is an essential polyunsaturated fatty acid of the omega-6 family and is found to be effective in prevention and/or treatment of various health problems. In this study, we evaluated the possibility of increasing γ-linolenic acid contents in mammalian cells using the delta-6 gene from Borago officinalis. The borage Δ6-desaturase gene (sDelta-6) was codon-optimized and introduced into HEK293 cells by lipofectin transfection. Co-expression of GFP with sDelta-6 and RT-PCR analysis indicated that sDelta-6 could be expressed in mammalian cells. Subsequently, the heterologous expression of borage Δ6-desaturase was evaluated by fatty acid analysis. Total cellular lipid analysis of transformed cells fed with linoleic acid (LA 18:2 n6) as a substrate showed that the expression of sDelta-6 resulted in an 228–483% (p < 0.05) increase of GLA when compared with that in the control cells. The highest conversion efficiency of LA into GLA in sDelta-6⁺ cells was 6.9 times higher than that in the control group (11.59% vs. 1.69%; p < 0.05). Our present work demonstrated that the sDelta-6 gene from borage could be functionally expressed in mammalian cells, and could convert LA into GLA. Furthermore, this study may pave the way to generate transgenic livestock that can synthesise GLA.     

Murine monoclonal antibodies cytotoxic to human glioma cells in vitro.

Six monoclonal antibodies (mABs) against human glioma cells (T2) were produced. T2 cells grown as solid tumors in nude mice, were dissociated and used to immunize Balb/c mice. After fusion of splenocytes with myeloma cells, eight hybrids secreting mABs were selected according to their ability to react immunohistochemically with T2 cells, but not with normal adult human brain. Cytotoxicity of mABs was tested using (3H)-thymidine incorporation assays in vitro. Four mABs showed complement-mediated cytotoxicity for T2 cells, other human glioma cells (T1), and a human melanoma cell line. Incubation with one antibody, mAb2A1, lowered (3H)-thymidine incorporation in the T2 and T1 cells to ca. 10%, and in melanoma cells to ca. 35% of control levels. Another antibody, mAb3B2, displayed a similar cytotoxicity for T2 and T1 cells, but did not show measurable cytotoxicity for melanoma cells and rat primary astrocyte cultures. Moreover, this antibody did not crossreact with haematopoietic cells from patients bearing CNS tumors or normal subjects. MAb3B2, therefore, appears to recognize and epitope associated to human gliomas, will be a useful glioma tumor marker and may have some potential therapeutical value.     

Role of accessory cells in the induction of a secondary cytotoxic response to Moloney murine sarcoma virus-induced tumors

The role of Ia-positive accessory cells in the generation of a secondary cytotoxic response to tumor-associated antigens induced by Moloney murine sarcoma virus (M-MSV) was evaluated. Spleen cells from M-MSV-immune A.TL mice, depleted of accessory cells by anti-Iak serum plus C treatment and stimulated in secondary mixed leukocyte tumor cell culture (MLTC) with syngeneic Ia-negative A6ATL Moloney leukemic cells, failed to generate virus-specific cytotoxic T lymphocytes (CTL). CTL generation in Ia-depleted MLTC may be reconstituted by the addition of nonimmune Ia-positive spleen or peritoneal cells obtained not only from syngeneic A.TL but also from I-incompatible A.TH mice. This lack of restriction observed in accessory cell function is explained in terms of a nonspecific mechanism of CTL triggering mediated by soluble factors. In fact, IL 2 as well as supernatants obtained from I region-incompatible cultures consisting of M-MSV-immune, Ia-depleted A.TL spleen cells and A.TH Ia-positive cells, reconstituted secondary virus-specific CTL generation.     

Docosahexaenoic acid supplementation induces dose and time dependent oxidative changes in C6 glioma cells

In view of the promising use of n-3 polyunsaturated fatty acids (PUFAs) in the prevention and treatment of neurological diseases, it is necessary to ascertain the lack of detrimental oxidative effects. We evaluated short- and long-term effects of 25, 50 and 75 μM docosahexaenoic acid (DHA) supplementation on the oxidative status of C6 glial cells. DHA was incorporated into cells dose and time dependently without any cytotoxic effect. Reactive oxygen species (ROS) level was related to DHA dose and supplementation time. At the lowest dose no significant increase in ROS values was observed at hour 24. Low doses of DHA strengthened the cellular antioxidant defence system as highlighted by a raise in both GPX and catalase activity, and the decreased levels of lipid peroxidation. This effect was pronounced at 24 h of supplementation, almost disappeared at hour 48, while after 72 h an opposite effect was observed: lipid peroxidation increased concomitantly with DHA doses. Therefore, the final effect of DHA on cellular redox status is dependent on dose and time supplementation.     

Docosahexaenoic acid supplementation induces dose and time dependent oxidative changes in C6 glioma cells

In view of the promising use of n-3 polyunsaturated fatty acids (PUFAs) in the prevention and treatment of neurological diseases, it is necessary to ascertain the lack of detrimental oxidative effects. We evaluated short- and long-term effects of 25, 50 and 75 μM docosahexaenoic acid (DHA) supplementation on the oxidative status of C6 glial cells. DHA was incorporated into cells dose and time dependently without any cytotoxic effect. Reactive oxygen species (ROS) level was related to DHA dose and supplementation time. At the lowest dose no significant increase in ROS values was observed at hour 24. Low doses of DHA strengthened the cellular antioxidant defence system as highlighted by a raise in both GPX and catalase activity, and the decreased levels of lipid peroxidation. This effect was pronounced at 24 h of supplementation, almost disappeared at hour 48, while after 72 h an opposite effect was observed: lipid peroxidation increased concomitantly with DHA doses. Therefore, the final effect of DHA on cellular redox status is dependent on dose and time supplementation.     

Effect of antioxidant supplementation on insulin sensitivity in response to endurance exercise training

While production of reactive oxygen and nitrogen species (RONS) is associated with some of the beneficial adaptations to regular physical exercise, it is not established whether RONS play a role in the improved insulin-stimulated glucose uptake in skeletal muscle obtained by endurance training. To assess the effect of antioxidant supplementation during endurance training on insulin-stimulated glucose uptake, 21 young healthy (age 29 ± 1 y, BMI 25 ± 3 kg/m(2)) men were randomly assigned to either an antioxidant [AO; 500 mg vitamin C and 400 IU vitamin E (α-tocopherol) daily] or a placebo (PL) group that both underwent a supervised intense endurance-training program 5 times/wk for 12 wk. A 3-h euglycemic-hyperinsulinemic clamp, a maximal oxygen consumption (Vo(2max)) and maximal power output (P(max)) test, and body composition measurements (fat mass, fat-free mass) were performed before and after the training. Muscle biopsies were obtained for determination of the concentration and activity of proteins regulating glucose metabolism. Although plasma levels of vitamin C (P < 0.05) and α-tocopherol (P < 0.05) increased markedly in the AO group, insulin-stimulated glucose uptake increased similarly in both the AO (17.2%, P < 0.05) and the PL (18.9%, P < 0.05) group in response to training. Vo(2max) and P(max) also increased similarly in both groups (time effect, P < 0.0001 for both) as well as protein content of GLUT4, hexokinase II, and total Akt (time effect, P ≤ 0.05 for all). Our results indicate that administration of antioxidants during strenuous endurance training has no effect on the training-induced increase in insulin sensitivity in healthy individuals.     

Modulation of hOGG1 DNA repair enzyme in human cultured cells in response to pro-oxidant and antioxidant challenge

The putative modulation of the base excision repair enzyme, human 8-oxoguanine glycosylase (hOGG1), important in the removal of the potentially mutagenic lesion 8-oxo-2'-deoxyguanosine (8-oxodG), was investigated in human cell culture models. The expression of specific mRNA and protein was measured following pro-oxidant and antioxidant treatments in one human lymphoblastoid and one keratinocyte line. The measurement of intracellular reactive oxygen species generation was monitored by a fluorogenic assay and potential genotoxic effects confirmed by the dose-dependent increase in formamidopyrimidine-DNA glycosylase (Fpg) sensitive sites by alkaline unwinding following sub-lethal doses of hydrogen peroxide. The generation of a potentially antioxidant environment was assessed by the intracellular increase and extracellular depletion in ascorbic acid, confirmed by capillary electrophoresis. Despite these pro-oxidant and antioxidant treatments no significant change in mRNA of hOGG1 was observed in either cell line. Western analysis revealed that relatively high, yet noncytotoxic, doses of hydrogen peroxide caused a consistent approximate 50% decrease in hOGG1 protein in lymphoblastoid cells. The lack of upregulation of hOGG1 suggests the gene is constitutively expressed, which is further supported by studies examining the sequence of its promoter region. However, hOGG1 protein turnover may be sensitive to intracellular redox changes.     

Towards cytotoxic and selective derivatives of maslinic acid

Several novel esters and amides of maslinic acid were prepared. Their evaluation for cytotoxic activity with a panel of human cancer cell lines using a sulforhodamine B (SRB) assay revealed for some of them a noteworthy activity. The results from annexinV-FITC and caspase-assays as well as from DNA laddering experiments provided evidence for an apoptotic cell death. A diacetylated benzylamide (15) induced a G1/G0 arrest in tumor cells. It also displayed an extraordinary cytotoxicity against human ovarian cancer cells but a 300 times lower toxicity for non-malignant primary human fibroblasts.     

Using a lipidomics approach for nutritional phenotyping in response to a test meal containing gamma-linolenic acid

Introduction

Plasma fatty acids are derived from preformed sources in the diet and de novo synthesis through the action of desaturase and elongase enzymes.

Objective

This study was designed to examine the elongation of gamma-linolenic acid (GLA, 18:3n6) into dihomo-gamma-linolenic acid (DGLA, 20:3n6) over an 8-h period using both targeted gas chromatography–flame ionization detection and untargeted liquid chromatography–mass spectrometry-based lipidomics utilizing the sequential window acquisition of all theoretical fragment-ion spectra (SWATH).

Methods

In a single blind, placebo-controlled, crossover design, seven healthy subjects consumed a test meal that consisted of GLA fat (borage oil) or a control fat (a mixture of corn, safflower, sunflower and extra-virgin light olive oils) on three separate test days for each test meal.

Results

Total plasma fatty acid concentrations and 366 unique lipid species were measured at 0, 2, 4, 6 and 8 h in response to the test meals. Mean plasma 18:3n6 was 7-fold higher to the GLA challenge compared with baseline and the control meal. By 8 h, mean plasma 20:3n6 was significantly higher in response to the GLA test meal than baseline and the control group. Five of the seven subjects were “responders” in converting GLA into DGLA, but two subjects did not show this conversion. The conversion was independent of physical activity level.

Conclusion

Using polyunsaturated fatty acid metabolism as an example, this study demonstrates inter-individual differences in enzymatic capacities to inform exact nutritional and metabolic phenotyping that could be used for precision medicine.

Graphical Abstract

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Role of antioxidant defences in the species-specific response of isolated atria to menadione

In previous works we demonstrated that 2-methyl-1,4-naphthoquinone (menadione) causes a marked increase in the force of contraction of guinea pig and rat isolated atria. This inotropic effect was significantly higher in the guinea pig than in the rat and was strictly related to the amount of superoxide anion (O(2)(*-)), generated as a consequence of cardiac menadione metabolism through mitochondrial NADH-ubiquinone oxidoreductase. The present study was designed to further elucidate the basis of these quantitatively different positive inotropic responses. To this purpose, we measured O(2)(*-) and hydrogen peroxide (H(2)O(2)) produced by mitochondria isolated from guinea pig and rat hearts in the presence of 20 microM menadione. Moreover, we evaluated the menadione detoxification activity (DT-diaphorase) and the antioxidant defences of guinea pig and rat hearts, namely their GSH/GSSG content, Cu/Zn- and Mn-dependent superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (Gpx) activities. Our results indicate that DT-diaphorase activity and glutathione levels were similar in both animal species. By contrast, guinea pig mitochondria produced greater amounts of O(2)(*-) and H(2)O(2) than those of rat heart. This is probably due to both the higher Mn-SOD activity (2.93 +/- 0.02 vs. 1.95 +/- 0.06 units/mg protein; P < 0.05) and to the lower Gpx activity (10.09 +/- 0.30 vs. 32.67 +/- 1.02 units/mg protein; P < 0.001) of guinea pig mitochondria. A lower CAT activity was also observed in guinea pig mitochondria (2.40 +/- 0.80 vs. 6.13 +/- 0.20 units/mg protein; P < 0.01). Taken together, these data provide a rational explanation for the greater susceptibility of guinea pig heart to the toxic effect of menadione: because of the greater amount of O(2)(*-) generated by the quinone and the higher mitochondrial Mn-SOD activity, guinea pig heart is exposed to more elevated concentrations of H(2)O(2) that is less efficiently detoxified, because of lower Gpx and CAT levels of mitochondria.     

Effects of retinoic acid on expression of the transformed phenotype in C6 glioma cells

Retinoic acid (RA) inhibited the growth and induced morphological changes in C6 rat glioma cells. The effects of RA on growth rate became apparent after 48 hr and were concentration-dependent and reversible. There was a 60% inhibition of growth using 10(-5) RA, which increased at low serum concentration to over 90% inhibition and was minimized at high concentration of serum. RA did not change the saturation density of the cells. The morphology of C6 cells, was altered from its normal pattern of randomly oriented spindle shaped cells, to cells which aligned to form palisades of fibroblast-like cells. Biochemical analysis of the cells showed no significant change in the activities of several lysosomal hydrolyses or the level of total protein in RA-treated cells compared to control cells. There was, however, a significant decrease in the activity of ornithine decarboxylase early during the treatment with RA, and an increase in the levels of fibronectin secreted into the media by the RA-treated cell. These results suggest that RA can suppress the expression of the transformed phenotype of glioma cells.     

PHO1 expression in guard cells mediates the stomatal response to abscisic acid in Arabidopsis

Stomatal opening and closing are driven by ion fluxes that cause changes in guard cell turgor and volume. This process is, in turn, regulated by environmental and hormonal signals, including light and the phytohormone abscisic acid (ABA). Here, we present genetic evidence that expression of PHO1 in guard cells of Arabidopsis thaliana is required for full stomatal responses to ABA. PHO1 is involved in the export of phosphate into the root xylem vessels and, as a result, the pho1 mutant is characterized by low shoot phosphate levels. In leaves, PHO1 was found expressed in guard cells and up‐regulated following treatment with ABA. The pho1 mutant was unaffected in production of reactive oxygen species following ABA treatment, and in stomatal movements in response to light cues, high extracellular calcium, auxin, and fusicoccin. However, stomatal movements in response to ABA treatment were severely impaired, both in terms of induction of closure and inhibition of opening. Micro‐grafting a pho1 shoot scion onto wild‐type rootstock resulted in plants with normal shoot growth and phosphate content, but failed to restore normal stomatal response to ABA treatment. PHO1 knockdown using RNA interference specifically in guard cells of wild‐type plants caused a reduced stomatal response to ABA. In agreement, specific expression of PHO1 in guard cells of pho1 plants complemented the mutant guard cell phenotype and re‐established ABA sensitivity, although full functional complementation was dependent on shoot phosphate sufficiency. Together, these data reveal an important role for phosphate and the action of PHO1 in the stomatal response to ABA.