The effect of resveratrol on lifespan depends on both gender and dietary nutrient composition in Drosophila melanogaster

Wang, Chunxu; Wheeler, Charles T.; Alberico, Thomas; Sun, Xiaoping; Seeberger, Jeanne; Laslo, Mara; Spangler, Edward L.; Kern, Bradley; Cabo, Rafael de; Zou, Sige

doi:10.1007/s11357-011-9332-3

Cited by 101 publications

(61 citation statements)

References 48 publications

(82 reference statements)

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“…However, lifespan studies on caloric restriction have provided conflicting results [84,85]. The lifespan studies across species appear to show that the effects of resveratrol are very dependent on the specific diet and conditions of the animals [86]. In mice, it appears that resveratrol is able to extend their lifespan when they are under metabolic stress.…”

Section: Effects Of Resveratrol In Animal Modelsmentioning

confidence: 99%

Metabolic effects of resveratrol: addressing the controversies

Bitterman

Chung

2014

Cell. Mol. Life Sci.

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Resveratrol, a polyphenol found in a number of plant-based foods such as red wine, has received a great deal of attention for its diverse array of healthful effects. Beneficial effects of resveratrol are diverse; they include improvement of mitochondrial function, protection against obesity and obesity-related diseases such as type-2 diabetes, suppression of inflammation and cancer cell growth and protection against cardiovascular dysfunction, just to name a few. Investigations into the metabolic effects of resveratrol are furthest along and now include a number of clinical trials, which have yielded mixed results. There are a number of controversies surrounding resveratrol that have not been resolved. Here, we will review these controversies with particular emphasis on its mechanism of metabolic action and how lessons from resveratrol may help develop therapies that harness the effects of resveratrol but without the undesirable properties of resveratrol.

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Section: Effects Of Resveratrol In Animal Modelsmentioning

confidence: 99%

Metabolic effects of resveratrol: addressing the controversies

Bitterman

Chung

2014

Cell. Mol. Life Sci.

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“…Under laboratory settings, the lifespan of D. melanogaster has been successfully increased by genetic manipulations (Clancy et al., 2001; Hwangbo, Gershman, Tu, Palmer & Tatar, 2004; Kapahi et al., 2004; Lin, Seroude & Benzer, 1998; Orr & Sohal, 1994; Parkes et al., 1998; Sun, Folk, Bradley & Tower, 2002; Tatar et al., 2001), dietary interventions (Chapman & Partridge, 1996; Grandison, Piper & Partridge, 2009; Lee et al., 2014; Magwere, Chapman & Partridge, 2004; Mair, Goymer, Pletcher & Partridge, 2003; Min & Tatar, 2006), and pharmacological treatments (Bjedov et al., 2010; Danilov et al., 2013; Wang et al., 2013). These findings are similar to those reported in other model organisms and highlight the important role of nutrient sensing, mTOR, NAD/sirtuins, insulin/IGF1 signaling pathways, and other systems in lifespan control (Fontana, Partridge & Longo, 2010; He et al., 2014).…”

Section: Introductionmentioning

confidence: 99%

Comparative transcriptomics across 14 Drosophila species reveals signatures of longevity

Avanesov

Porter

et al. 2018

Aging Cell

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SummaryLifespan varies dramatically among species, but the biological basis is not well understood. Previous studies in model organisms revealed the importance of nutrient sensing, mTOR, NAD/sirtuins, and insulin/IGF1 signaling in lifespan control. By studying life‐history traits and transcriptomes of 14 Drosophila species differing more than sixfold in lifespan, we explored expression divergence and identified genes and processes that correlate with longevity. These longevity signatures suggested that longer‐lived flies upregulate fatty acid metabolism, downregulate neuronal system development and activin signaling, and alter dynamics of RNA splicing. Interestingly, these gene expression patterns resembled those of flies under dietary restriction and several other lifespan‐extending interventions, although on the individual gene level, there was no significant overlap with genes previously reported to have lifespan‐extension effects. We experimentally tested the lifespan regulation potential of several candidate genes and found no consistent effects, suggesting that individual genes generally do not explain the observed longevity patterns. Instead, it appears that lifespan regulation across species is modulated by complex relationships at the system level represented by global gene expression.

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“…However, these peptides are usually inactive when exists as a part of the parent protein, only if they are released, they can exhibited antioxidant capacities during food processing and photolytic hydrolysis, (Nimalaratne et al 2015) the composition and interactions of peptide determine its antioxidant and free radical scavenging properties (Wang et al 2013).…”

Section: Introductionmentioning

confidence: 99%