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Medicinal chemistry of the epigenetic diet and caloric restriction.

Current medicinal chemistry
January 1, 2013
S L Martin et al. (3 authors)
Journal ArticleResearch Support, N.I.H., ExtramuralResearch Support, Non-U.S. Gov'tReviewHuman Study
Study Details

Study Goal

The researchers aimed to explore the role of Epigallocatechin Gallate (EGCG) as part of the epigenetic diet in modulating age-related diseases through epigenetic mechanisms.

Results Summary

The study suggests that EGCG, along with other bioactive compounds, may slow aging and age-related diseases by influencing histone modification, DNA methylation, and microRNA expression. However, specific outcomes for EGCG alone are not detailed in the abstract.

Population

Pre-clinical and clinical studies (general population, not specified).

Effective Dosage

Not mentioned

Duration

Not mentioned

Interactions

None mentioned

Extracted Claims (9)
InterventionDirectionEndpointPopulationDosageImpactClaim #
epigenetic diet (ED)
increase
epigenetic gene regulation
pre-clinical and clinical studies
-
have pronounced effects on
#1
caloric restriction (CR)
increase
epigenetic gene regulation
pre-clinical and clinical studies
-
have pronounced effects on
#2
nutrition and diet
increase
gene expression
-
-
may possess the ability to alter
#3
epigenetic diet (ED)
increase
human lifespan
-
-
introduces bioactive medicinal chemistry compounds
#4
caloric restriction (CR)
decrease
total daily calorie intake
-
-
mildly reduces
#5
caloric restriction (CR)
decrease
aging process
-
-
act as epigenetic modifiers to slow
#6
epigenetic diet (ED)
decrease
aging process
-
-
act as epigenetic modifiers to slow
#7
caloric restriction (CR)
decrease
age-related diseases
-
-
modulate and potentially slow the progression of
#8
epigenetic diet (ED)
decrease
age-related diseases
-
-
modulate and potentially slow the progression of
#9
Abstract

The pronounced effects of the epigenetic diet (ED) and caloric restriction (CR) have on epigenetic gene regulation have been documented in many pre-clinical and clinical studies. Understanding epigenetics is of high importance because of the concept that external factors such as nutrition and diet may possess the ability to alter gene expression without modifying the DNA sequence. The ED introduces bioactive medicinal chemistry compounds such as sulforaphane (SFN), curcumin (CCM), epigallocatechin gallate (EGCG) and resveratrol (RSV) that are thought to aid in extending the human lifespan. CR, although similar to ED in the target of longevity, mildly reduces the total daily calorie intake while concurrently providing all beneficial nutrients. Both CR and ED may act as epigenetic modifiers to slow the aging process through histone modification, DNA methylation, and by modulating microRNA expression. CR and ED have been proposed as two important mechanisms that modulate and potentially slow the progression of age-related diseases such as cardiovascular disease (CVD), cancer, obesity, Alzheimer's and osteoporosis to name a few. While many investigators have examined CR and ED as separate entities, this review will primarily focus on both as they relate to age-related diseases, their epigenetic effects and their medicinal chemistry.

Medical Subject Headings (MeSH)
AgingAnticarcinogenic AgentsCaloric RestrictionCatechinChemistry, PharmaceuticalCurcuminEpigenesis, GeneticHumansIsothiocyanatesResveratrolStilbenesSulfoxides
Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality80/10
Citation Metrics
Total Citations49
Citations/Year4.1
Relative Citation Ratio1.56
NIH Percentile66.5%
Research Impact Scores
APT Score0.50
Weight Score1.63
Normalized Score0.66
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