scholarly journals Differences in Transcriptional Activation by the Two Allelic (L162V Polymorphic) Variants of PPARαafter Omega-3 Fatty Acids Treatment

PPAR Research ◽  
2009 ◽  
Vol 2009 ◽  
pp. 1-5 ◽  
Author(s):  
Iwona Rudkowska ◽  
Mélanie Verreault ◽  
Olivier Barbier ◽  
Marie-Claude Vohl
Keyword(s):  
Fatty Acids ◽  
Transcriptional Activation ◽  
Transcriptional Activity ◽  
Target Genes ◽  
Functional Difference ◽  
Omega 3 Fatty Acids ◽  
Omega 3 ◽  
Wild Type ◽  
Allelic Form ◽  
Allelic Variants

Omega-3 fatty acids (FAs) have the potential to regulate gene expression via the peroxisome proliferator-activated receptorα(PPARα); therefore, genetic variations in this gene may impact its transcriptional activity on target genes. It is hypothesized that the transcriptional activity by wild-type L162-PPARαis enhanced to a greater extent than the mutated variant (V162-PPARα) in the presence of eicosapentaenoic acid (EPA), docosahexaenoic acid (DHA) or a mixture of EPA:DHA. To examine the functional difference of the two allelic variants on receptor activity, transient co-transfections were performed in human hepatoma HepG2 cells activated with EPA, DHA and EPA:DHA mixtures. Results indicate that the addition of EPA or DHA demonstrate potential to increase the transcriptional activity by PPARαwith respect to basal level in both variants. Yet, the EPA:DHA mixtures enhanced the transcriptional activity to a greater extent than individual FAs indicating possible additive effects of EPA and DHA. Additionally, the V162 allelic form of PPARαdemonstrated consistently lower transcriptional activation when incubated with EPA, DHA or EPA:DHA mixtures than, the wild-type variant. In conclusion, both allelic variants of the PPARαL162V are activated by omega-3 FAs; however, the V162 allelic form displays a lower transcriptional activity than the wild-type variant.

Orientation-Dependent Regulation of RUNX1 and GATA-1 Transcriptional Function by the p300/CBP Coactivators.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 1184-1184
Author(s):  
Ivailo S. Mihaylov ◽  
Kamaleldin E. Elagib ◽  
Lorrie L. Delehanty ◽  
Sara L. Gonias ◽  
Jill F. Caronia ◽  
...  
Keyword(s):  
Transcription Factors ◽  
Transcriptional Activation ◽  
Transcriptional Activity ◽  
Target Genes ◽  
Serine Phosphorylation ◽  
Amino Terminus ◽  
Physical Interaction ◽  
Wild Type ◽  
Carboxy Terminus ◽  
Target Sites

Abstract The transcription factors RUNX1 and GATA-1, as well as the coactivators p300/CBP, have been implicated in the regulation of primary megakaryopoiesis through studies of knockout mice. In particular, p300/CBP has previously been shown to serve as a coactivator for both RUNX1 and GATA-1 in the transactivation of hematopoietic target genes. Coactivator orientation within transactivating complexes is generally not considered to influence the degree of transcriptional activity, reflecting an inherent flexibility in the spatial requirements for coactivator function. Experiments to further explore this issue showed coexpression of p300 to enhance cooperative transcriptional activation by wild type RUNX1 and GATA-1. Enforced recruitment of p300/CBP to GATA-1 through fusion of GATA-1 with the p300/CBP docking module of adenoviral E1A, E1A(1–89), enhanced GATA-1 activity alone, regardless of whether the fusion was to the amino or carboxy terminal of GATA-1. However, enforced recruitment of p300/CBP to the amino terminus of GATA-1 completely eliminated cooperation with RUNX1, and enforced recruitment of p300/CBP to the carboxy terminus of GATA-1 diminished cooperation with RUNX1. Both GATA-1 fusions retained physical interaction with RUNX1. Similarly, fusion of E1A(1–89) directly to the amino terminus of RUNX1 completely eliminated its transcriptional activity, while fusion to the carboxy terminus diminished RUNX1 transcriptional activity. For both the GATA-1 and the RUNX1 fusions, these repressive effects were attributable to the ectopic recruitment of p300/CBP because a mutation within E1A(1–89) known to specifically diminish p300/CBP recruitment, R2G, rescued the transcriptional activities. Addressing the mechanism of repression by ectopic p300/CBP, we found that E1A(1–89)-GATA-1 caused diminished serine phosphorylation within RUNX1, an effect opposite to that of wild type GATA-1 which enhanced RUNX1 phosphorylation. Similarly, E1A(1–89)-RUNX1 showed complete loss of phosphorylation on cdk target sites, as compared with wild type RUNX1. RUNX1-E1A(1–89) showed diminished phosphorylation on cdk target sites, as compared with wild type RUNX1. From these results, we conclude that p300/CBP may function as a coactivator for the RUNX1-GATA-1 complex when recruited to endogenous, wild type domains. By contrast, ectopic recruitment of p300/CBP to RUNX1, particularly to the amino terminus, targets RUNX1 for repression through inhibition or reversal of phosphorylation. Our results thus offer a novel paradigm in which the function of p300/CBP, coactivator versus repressor, may be determined by its mode of recruitment to certain transcriptional complexes. Notably, some transcription factors, such as GATA-1, have relaxed requirements for the topology of coactivator recruitment, whereas other transcription factors, such as RUNX1, have stringent requirements in this regard.

scholarly journals Epigenetic Reprogramming Mediated by Maternal Diet Rich in Omega-3 Fatty Acids Protects From Breast Cancer Development in F1 Offspring

2021 ◽  
Vol 9 ◽  
Author(s):  
Ata Abbas ◽  
Theodore Witte ◽  
William L. Patterson ◽  
Johannes F. Fahrmann ◽  
Kai Guo ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Fatty Acids ◽  
Transcriptional Activation ◽  
Canola Oil ◽  
Molecular Mechanisms ◽  
Corn Oil ◽  
Maternal Diet ◽  
Cancer Development ◽  
Omega 3 Fatty Acids ◽  
Omega 3

Diets rich in omega-3 fatty acids (FA) have been associated with lowered risks of developing certain types of cancers. We earlier reported that in transgenic mice prone to develop breast cancer (BCa), a diet supplemented with canola oil, rich in omega-3-rich FA (as opposed to an omega-6-rich diet containing corn oil), reduced the risk of developing BCa, and also significantly reduced the incidence of BCa in F1 offspring. To investigate the underlying mechanisms of the cancer protective effect of canola oil in the F1 generation, we designed and performed the present study with the same diets using BALB/c mice to remove any possible effect of the transgene. First, we observed epigenetic changes at the genome-wide scale in F1 offspring of mothers fed diets containing omega-3 FAs, including a significant increase in acetylation of H3K18 histone mark and a decrease in H3K4me2 mark on nucleosomes around transcription start sites. These epigenetic modifications contribute to differential gene expressions associated with various pathways and molecular mechanisms involved in preventing cancer development, including p53 pathway, G2M checkpoint, DNA repair, inflammatory response, and apoptosis. When offspring mice were exposed to 7,12-Dimethylbenz(a)anthracene (DMBA), the group of mice exposed to a canola oil (with omega 3 FAs)-rich maternal diet showed delayed mortality, increased survival, reduced lateral tumor growth, and smaller tumor size. Remarkably, various genes, including BRCA genes, appear to be epigenetically re-programmed to poise genes to be ready for a rapid transcriptional activation due to the canola oil-rich maternal diet. This ability to respond rapidly due to epigenetic potentiation appeared to contribute to and promote protection against breast cancer after carcinogen exposure.

Dietary Supplementation with Docosahexanoic Acid (DHA) Improves RBC Flexibility and Reduces Cold Hypersensitivity in Mice with Sickle Cell Disease.

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 2116-2116 ◽  
Author(s):  
Nancy J. Wandersee ◽  
Madelyn S. Hanson ◽  
Jamie L. Maciaszek ◽  
Michael C. Larson ◽  
Katie M. Giger ◽  
...  
Keyword(s):  
Fatty Acids ◽  
Control Diet ◽  
Osmotic Fragility ◽  
Dietary Supplementation ◽  
Omega 3 Fatty Acids ◽  
Omega 3 ◽  
Wild Type ◽  
Rbc Membrane ◽  
Peripheral Blood Smears ◽  
Cold Hypersensitivity

Abstract Abstract 2116 Humans and mice with sickle cell disease (SCD) have RBC stiffness, multiorgan and vascular pathology, and complex pain syndromes. Omega-3 fatty acids, such as docosahexanoic acid (DHA), are essential fatty acids that have anti-inflammatory and anti-thrombotic activities. As dietary supplements, omega-3 fatty acids are beneficial in many cardiovascular diseases. Several studies demonstrate that dietary supplementation with omega-3 fatty acids results in increased incorporation of these fatty acids into the RBC membrane, which can influence RBC deformability. In this study, SCD mice were fed natural ingredient rodent diets supplemented with 3% DHA (DHA diet) or a control matched in total fat with a similar distribution of saturated, monounsaturated, and polyunsaturated fatty acids (CTRL diet). After 8 weeks of feeding, we examined the RBCs for: 1) deformability, as measured by ektacytometry; 2) stiffness, as measured by atomic force microscopy; 3) osmotic fragility, using a flow cytometric method; and 4) percent irreversibly sickled RBCs on peripheral blood smears. Consistent with other studies, RBCs from SCD mice fed Control diet exhibit low deformability by ektacytometry as compared to RBCs from wild-type mice (0.075 Max EI, SCD mice Control Diet, versus 0.285 Max EI, wild-type mice). Correspondingly, RBC stiffness, as measured by atomic force microscopy, is increased in SCD mice fed Control diet as compared to wild-type mice (1911 Pa, SCD mice Control Diet, versus 831 Pa, wild-type mice). In contrast, RBCs from SCD mice fed DHA diet had improved deformability (0.135 Max EI) compared to RBCs from SCD mice fed Control diet (p<0.02). Furthermore, RBCs from DHA diet-fed SCD mice had markedly decreased stiffness (798 Pa) to nearly normal levels compared to RBCs from Control diet-fed SCD mice (p<0.0001). In addition, RBCs from SCD mice fed DHA diet had decreased osmotic fragility as compared to RBCs from SCD mice fed Control diet (p<0.001). Examination of peripheral blood smears also revealed less irreversibly sickled RBCs in SCD mice fed DHA diet as compared to Control Diet (2.5% versus 4.1%, p<0.04). These results suggest that DHA supplementation has modified RBC membrane properties of SCD mice. Individuals with SCD as well as murine models of SCD display increased sensitivity to pain. Stiffened RBCs are thought to contribute to pain in SCD by stimulating vasoocclusive events. Importantly, a small-scale human SCD trial indicated that dietary supplementation with omega-3 fatty acids reduced pain episodes by almost 50% (Tomer, et al, 2001). Therefore, we measured sensitivity of SCD mice to mechanical and cold stimuli both prior to dietary feeding and after 8 weeks of feeding on Control or DHA diet. Mechanical hypersensitivity was assessed using von Frey filaments, with the paw withdrawal threshold assessed using the up-down method of Dixon (1980). Mechanical hypersensitivity thresholds are reduced in SCD mice (Hillery, et al, 2011), and were not altered by either the Control or DHA diet. Cold hypersensitivity was assessed using a 2-temperature choice assay and measuring the amount of time spent on the colder plate (23°C) versus the warmer plate (30°C). Similar to our previous findings, SCD mice exhibit hypersensitivity to cold. There was no change in pre- versus post-diet cold hypersensitivity in SCD mice fed Control diet. In contrast, post-diet cold hypersensitivity was improved compared to pre-diet cold hypersensitivity in SCD mice fed DHA diet (p<0.007). In summary, our findings indicate that DHA supplementation improves RBC flexibility, decreases osmotic fragility and irreversibly sickled cells, and reduces cold hypersensitivity in a murine model of SCD. The reduction in cold hypersensitivity may reflect the increased flexibility of the RBCs, making them less likely to cause vasoocclusive events that can activate inflammatory pain mechanisms. Additionally, resolvins D1 and D2, anti-inflammatory lipid mediators derived from DHA, inhibit the activity of the transient receptor potential vanilloid 1 (TRPV1) and ankyrin 1 (TRPA1) channels, which contribute importantly to inflammatory pain sensitivity to mechanical and thermal stimuli. Disclosures: Mickelson: Harlan Laboratories, Inc.: Employment. Stucky:Purdue Pharma: Research Funding. Hillery:Purdue Pharma: Research Funding; Bayer Pharmaceuticals: Consultancy.

Fish oil plus wheat germ oil have no prominent effect on homocysteine levels and nutritional indices in hemodialysis patients

2019 ◽  
pp. 1-7
Author(s):  
Hadeer Zakaria ◽  
Tarek M. Mostafa ◽  
Gamal A. El-Azab ◽  
Nagy AH Sayed-Ahmed
Keyword(s):  
Fatty Acids ◽  
Vitamin E ◽  
Fish Oil ◽  
Wheat Germ ◽  
Hemodialysis Patients ◽  
Nutritional Indices ◽  
Omega 3 Fatty Acids ◽  
Omega 3 ◽  
Wheat Germ Oil ◽  
Serum Homocysteine

Abstract. Background: Elevated homocysteine levels and malnutrition are frequently detected in hemodialysis patients and are believed to exacerbate cardiovascular comorbidities. Omega-3 fatty acids have been postulated to lower homocysteine levels by up-regulating metabolic enzymes and improving substrate availability for homocysteine degradation. Additionally, it has been suggested that prevention of folate depletion by vitamin E consumption decreases homocysteine levels. However, data on the effect of omega-3 fatty acids and/or vitamin E on homocysteine levels and nutritional status have been inconclusive. Therefore, this study was planned to examine the effect of combined supplementation of fish oil, as a source of omega-3 fatty acids, with wheat germ oil, as a source of vitamin E, on homocysteine and nutritional indices in hemodialysis patients. Methods: This study was a randomized, double-blind, placebo-controlled trial. Forty-six hemodialysis patients were randomly assigned to two equally-sized groups; a supplemented group who received 3000 mg/day of fish oil [1053 mg omega-3 fatty acids] plus 300 mg/day of wheat germ oil [0.765 mg vitamin E], and a matched placebo group who received placebo capsules for 4 months. Serum homocysteine and different nutritional indices were measured before and after the intervention. Results: Twenty patients in each group completed the study. At the end of the study, there were no significant changes in homocysteine levels and in the nutritional indices neither in the supplemented nor in the placebo-control groups (p > 0.05). Conclusions: Fish oil and wheat germ oil combination did not produce significant effects on serum homocysteine levels and nutritional indices of hemodialysis patients.

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