Postprandial oxidative stress is modulated by dietary fat in adipose tissue from elderly people

Meza-Miranda, Eliana Romina; Camargo, Antonio; Rangel‐Zúñiga, Oriol A.; Delgado-Lista, Javier; García‐Rios, Antonio; Pérez-Martínez, Pablo; Tasset-Cuevas, Inma; Túnez, Isaac; Tinahones, Francisco J.; Pérez-Jiménez, Francisco; López‐Miranda, José

doi:10.1007/s11357-013-9579-y

Cited by 10 publications

(5 citation statements)

References 53 publications

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“…Specifics regarding participants, recruitment, and study design have been previously described in detail . Briefly, inclusion and exclusion criteria were fulfilled by a total of 20 patients (age ≥ 65 years; ten men and ten women).…”

Section: Participants and Methodsmentioning

confidence: 99%

Dietary fat alters the expression of cortistatin and ghrelin systems in the PBMCs of elderly subjects: Putative implications in the postprandial inflammatory response

Gahete

Luque

Yubero‐Serrano

et al. 2014

Molecular Nutrition Food Res

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Section: Participants and Methodsmentioning

confidence: 99%

Dietary fat alters the expression of cortistatin and ghrelin systems in the PBMCs of elderly subjects: Putative implications in the postprandial inflammatory response

Gahete

Luque

Yubero‐Serrano

et al. 2014

Molecular Nutrition Food Res

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“…After a breakfast with a similar composition to the final dietary period, samples of adipose tissue and blood (PBMCs) where taken in order to assess the nutrigenomic changes related to oxidative stress and inflammatory response, depending on the dietary fat administered. Meza-Miranda et al, 2014 andCamargo et al, 2012, showed an increase in the postprandial gene expression profile of the antioxidant defense system due to the consumption of TMD and CHO-PUFA diet compared with the SFA-rich diet. Camargo et al, 2012 observed that TMD (MUFA) consumption reduces the expression of several inflammatory genes compared to SFArich (p65 and MCP-1) and CHO-PUFA diets (p65 and TNF-a), increases the expression of the antiinflammatory gene IkBa and decreases the MMP-9 plaque instability marker gene expression.…”

Section: Postprandial Inflammatory Response To the Polyphenols Of Olimentioning

confidence: 99%

“…Both genes are involved in inflammation processes and their transcriptomic changes might underlie cardio-protective effects due to the intake of VOO and nuts. Meza-Miranda et al, 2014, andCamargo et al, 2012, conducted a crossover postprandial trial in 20 healthy elderly people who followed three diets for 3-week periods each. The diets differed in the fat type; SFA-rich, TMD+VOO (MUFA) and CHO-PUFA.…”

Section: Postprandial Inflammatory Response To the Polyphenols Of Olimentioning

confidence: 99%

Cardiovascular risk protection from the Mediterranean diet and olive oil. A transcriptomic update in humans

2016

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SUMMARY: This review highlights the human studies that explore the benefits of the Mediterranean diet and olive oil, based on gene expression analysis. We summarized consistent human transcriptomic studies on cardiovascular risk, based on TMD and olive oil interventions, with real life doses and conditions. A literature review was carried out leading up to February 2016. The results show that the TMD, specially supplemented with virgin olive oil, produces beneficial changes in the transcriptomic response of relevant genes in cardiovascular risk such as CAT, GPX1 and SIRT2. p65 and MCP-1, IL1B, IL6, CXCL1, INF-γ, ARHGAP15 and IL7R, which are involved in inflammation; and ABCA1, SR-B1, PPARBP, PPARα, PPARγ, PPARδ, CD-36 and COX-1, which play an important role in cholesterol efflux. The available data illustrate a transcriptomic effect on atherosclerosis, inflammation and oxidative stress pathways as well as the mentioned genes.KEYWORDS: Cardiovascular; Mediterranean Diet; MUFA; Nutrigenomics; Olive oil; Polyphenols; Transcriptomics RESUMEN: Protección cardiovascular de la dieta mediterránea y el aceite de oliva. Una actua lización de transcriptómica en humanos. Esta revisión resume los estudios de transcriptómica en humanos que muestran efectos beneficiosos de la dieta mediterránea tradicional (TMD) y el aceite de oliva, en condiciones y dosis de la vida real en relación al riesgo cardiovascular. La revisión se llevó a cabo hasta febrero de 2016. Los resultados muestran que la TMD, especialmente suplementada con aceite de oliva virgen, ejerce cambios beneficiosos en la respuesta transcriptómica de genes relevantes en el riesgo cardiovascular tales como CAT, GPX1 y SIRT2. p65 y MCP-1, IL1B, IL6, CXCL1, INF-γ, ARHGAP15 y IL7R implicados en la inflamación. ABCA1, SR-B1, PPARBP, PPARα, PPARγ, PPARδ, CD-36 y la COX-1 juegan un papel importante en el eflujo de colesterol. Además, ADRB2 está relacionada con el estrés oxidativo. Los datos disponibles nos llevan a un efecto transcriptómico sobre las vías de arteriosclerosis, inflamación y estrés oxidativo, así como sobre los genes mencionados.

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“…Oxidative stress associated with obesity originates from many sources; here we briefly discuss the roles of mitochondrial dysfunction and increased inflammation. Mitochondrial respiration, through the oxidation of glucose and/or fatty acids, can generate oxidative stress through the byproduct of generation of ATP in an oxygenated environment [ 55 , 56 ]. This process can be exacerbated in obesity due to the higher levels of available mitochondrial substrates, i.e., high glucose and fatty acids.…”

Section: Obesity and Oxidative Stressmentioning

confidence: 99%

Beyond Diabetes: Does Obesity-Induced Oxidative Stress Drive the Aging Process?

Salmon

2016

Antioxidants

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Despite numerous correlative data, a causative role for oxidative stress in mammalian longevity has remained elusive. However, there is strong evidence that increased oxidative stress is associated with exacerbation of many diseases and pathologies that are also strongly related to advanced age. Obesity, or increased fat accumulation, is one of the most common chronic conditions worldwide and is associated with not only metabolic dysfunction but also increased levels of oxidative stress in vivo. Moreover, obesity is also associated with significantly increased risks of cardiovascular disease, neurological decline and cancer among many other diseases as well as a significantly increased risk of mortality. In this review, we investigate the possible interpretation that the increased incidence of these diseases in obesity may be due to chronic oxidative stress mediating segmental acceleration of the aging process. Understanding how obesity can alter cellular physiology beyond that directly related to metabolic function could open new therapeutic areas of approach to extend the period of healthy aging among people of all body composition.

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Postprandial oxidative stress is modulated by dietary fat in adipose tissue from elderly people

Cited by 10 publications

References 53 publications

Dietary fat alters the expression of cortistatin and ghrelin systems in the PBMCs of elderly subjects: Putative implications in the postprandial inflammatory response

Dietary fat alters the expression of cortistatin and ghrelin systems in the PBMCs of elderly subjects: Putative implications in the postprandial inflammatory response

Cardiovascular risk protection from the Mediterranean diet and olive oil. A transcriptomic update in humans

Beyond Diabetes: Does Obesity-Induced Oxidative Stress Drive the Aging Process?

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