Postprandial antioxidant gene expression is modified by Mediterranean diet supplemented with coenzyme Q(10) in elderly men and women.
Study Goal
The researchers aimed to determine whether the quality of dietary fat affects postprandial oxidative stress and if CoQ supplementation improves antioxidant response in an elderly population.
Results Summary
Mediterranean diets (with and without CoQ) reduced oxidative stress markers and improved antioxidant protein levels compared to a saturated fatty acid-rich diet. CoQ supplementation further enhanced these effects by lowering postprandial oxidative stress and modifying antioxidant gene expression.
Population
Elderly participants (20 individuals)
Effective Dosage
Not specified
Duration
4 weeks per diet
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Mediterranean diet supplemented with Coenzyme Q10 (Med + CoQ diet) | decrease | Nrf2, p22(phox), p47(phox), SOD1, SOD2 and TrxR gene expression | elderly population | - | induced lower | #1 |
Mediterranean diet supplemented with Coenzyme Q10 (Med + CoQ diet) | increase | cytoplasmic Nrf2 and Keap-1 protein levels | elderly population | - | induced higher | #2 |
Mediterranean diet (Med diet) | decrease | Nrf2, p22(phox), p47(phox), SOD1, SOD2 and TrxR gene expression | elderly population | - | induced lower | #3 |
Mediterranean diet (Med diet) | increase | cytoplasmic Nrf2 and Keap-1 protein levels | elderly population | - | induced higher | #4 |
Mediterranean diet supplemented with Coenzyme Q10 (Med + CoQ diet) | decrease | postprandial Nrf2 gene expression | elderly population | - | produced lower | #5 |
Mediterranean diet supplemented with Coenzyme Q10 (Med + CoQ diet) | decrease | nuclear Nrf2 protein levels | elderly population | - | produced lower | #6 |
Mediterranean diet supplemented with Coenzyme Q10 (Med + CoQ diet) | decrease | GPx1 gene expression | elderly population | - | produced lower | #7 |
Mediterranean diet | decrease | postprandial oxidative stress | elderly population | - | support the antioxidant effect | #8 |
exogenous Coenzyme Q10 supplementation | decrease | free radical overgeneration | elderly population | - | has protective effects | #9 |
exogenous Coenzyme Q10 supplementation | decrease | postprandial oxidative stress | elderly population | - | lowering | #10 |
exogenous Coenzyme Q10 supplementation | neutral | postprandial antioxidant protein levels | elderly population | - | modifying | #11 |
exogenous Coenzyme Q10 supplementation | decrease | postprandial expression of antioxidant genes in peripheral blood mononuclear cells | elderly population | - | reducing | #12 |
Postprandial oxidative stress is characterized by an increased susceptibility of the organism towards oxidative damage after consumption of a meal rich in lipids and/or carbohydrates. We have investigated whether the quality of dietary fat alters postprandial gene expression and protein levels involved in oxidative stress and whether the supplementation with coenzyme Q(10) (CoQ) improves this situation in an elderly population. Twenty participants were randomized to receive three isocaloric diets each for 4 weeks: Mediterranean diet supplemented with CoQ (Med + CoQ diet), Mediterranean diet (Med diet), saturated fatty acid-rich diet (SFA diet). After 12-h fast, volunteers consumed a breakfast with a fat composition similar to that consumed in each of the diets. Nrf2, p22(phox) and p47(phox), superoxide dismutase 1 and 2 (SOD1 and SOD2), glutathione peroxidase 1 (GPx1), thiorredoxin reductase (TrxR) gene expression and Kelch-like ECH associating protein 1 (Keap-1) and citoplasmic and nuclear Nrf2 protein levels were determined. Med and Med + CoQ diets induced lower Nrf2, p22(phox), p47(phox), SOD1, SOD2 and TrxR gene expression and higher cytoplasmic Nrf2 and Keap-1 protein levels compared to the SFA diet. Moreover, Med + CoQ diet produced lower postprandial Nrf2 gene expression and lower nuclear Nrf2 protein levels compared to the other diets and lower GPx1 gene expression than the SFA diet. Our results support the antioxidant effect of a Med diet and that exogenous CoQ supplementation has a protective effects against free radical overgeneration through the lowering of postprandial oxidative stress modifying the postprandial antioxidant protein levels and reducing the postprandial expression of antioxidant genes in peripheral blood mononuclear cells.