Fibroblasts Exposed to Serum Collected After Long-Term Calorie Restriction Have Lower Mitochondrial Respiration
Lek Wei Seow, Stephen Dozier, Nina Sun, Jaclyn Bergstrom, Nathan LeBrasseur, Anthony Molina

TL;DR
This study shows that serum from people on long-term calorie restriction reduces mitochondrial respiration in fibroblasts, suggesting a shift to a more energy-conserving state.
Contribution
The study demonstrates that long-term calorie restriction alters serum factors that affect mitochondrial function in fibroblasts.
Findings
Baseline mitochondrial respiration in fibroblasts correlates with donor adiposity.
Serum from calorie-restricted individuals reduces fibroblast mitochondrial respiration over time.
The reduction in respiration aligns with a cellular energy-conserving state linked to calorie restriction.
Abstract
Multiple lines of evidence suggest that calorie restriction may slow biological processes related to aging and extend lifespan. To determine whether calorie restriction affects mitochondrial function, we treated fibroblasts from adult donors with serum samples obtained from participants of the CALERIE (Comprehensive Assessment of Long-term Effects of Reducing Intake of Energy) study. The CALERIE study enrolled healthy, non-obese middle-aged (average 38y.o) participants to examine the effects of long-term calorie restriction. We studied the serum samples of 177 participants (calorie restriction CR = 121, ad libitum AL = 56) who had specimens available at two timepoints (12 and 24 months). We assessed the basal and maximal mitochondrial respiration of fibroblasts treated with dilute serum for 24 hours. Our results show that the baseline basal and maximal mitochondrial respiration of…
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Taxonomy
TopicsGenetics, Aging, and Longevity in Model Organisms · Adipose Tissue and Metabolism · Dietary Effects on Health
