Oleuropein supplementation increases resting skeletal muscle fractional PDH activity but does not influence whole-body metabolism: A randomized, double-blind, placebo-controlled trial in healthy, older males

Background: The polyphenol oleuropein activates mitochondrial calcium import, which increases pyruvate dehydrogenase (PDH) activity. Preclinically, this increase in PDH activity following oleuropein supplementation resulted in improved mitochondrial bioenergetics and fatigue resistance. Objectives: This study aimed to examine the effects of acute and chronic oleuropein supplementation on muscle energy metabolism, whole-body substrate metabolism, strength, and fatigue resistance in older males. Methods: In a randomized, double-blind, placebo-controlled trial, 40 healthy older males (60 ± 5y) received either placebo (PLA) or 100 mg oleuropein from 250 mg olive leaf extract (OLE) supplementation daily for 36 d. On day 1 and day 36, muscle and blood samples were collected, and indirect calorimetry was performed before and ≤120 min following supplement intake. Leg strength and fatigue were measured before and after 29 d of supplementation. Results were analyzed using analysis of covariance or robust analysis of covariance. Results: OLE ingestion on day 1 and day 36 increased plasma oleuropein metabolites (P < 0.001). On day 1, no differences were observed in muscle PDH activity, mitochondrial respiration, or whole-body substrate metabolism 120 min after acute OLE ingestion. Ribonucleic acid sequencing revealed upregulation of oxidative phosphorylation gene pathways (false discovery rate < 0.05), whereas PDH-Serine ²⁹³-phosphorylation was higher after acute OLE compared with PLA ingestion (P = 0.015). Following chronic supplementation, fractional PDH activity was ∼25% greater in OLE compared with PLA (49 ± 14 compared with 38 ± 10%; P = 0.016) with no differences in absolute PDH activity and PDH-Serine ²⁹³-phosphorylation between groups. Mitochondrial respiration and protein content, whole-body substrate metabolism, leg strength, and fatigue resistance were not different between OLE and PLA. Plasma low-density lipoprotein cholesterol was lower after chronic OLE compared with PLA (P = 0.043), with no differences in other blood metabolic markers. Conclusions: Chronic OLE supplementation resulted in higher skeletal muscle fractional PDH activity in healthy, older males, which may impact resting energy metabolism. Acute or chronic oleuropein supplementation does not modulate skeletal muscle mitochondrial respiration, muscle strength, muscle fatigue, or whole-body substrate metabolism. This trial was registered at clinicaltrials.gov as NCT05217433.