Abstract
SummaryBackground & aimsThe skeletal muscle anabolic effects of n-3 polyunsaturated fatty acids (n-3 PUFA) appear favoured towards women; a property that could be exploited in older women who typically exhibit poor muscle growth responses to resistance exercise training (RET). Here we sought to generate novel insights into the efficacy and mechanisms of n-3 PUFA alongside short-term RET in older women.MethodsWe recruited 16 healthy older women (Placebo n = 8 (PLA): 67±1y, n-3 PUFA n = 8: 64±1y) to a randomised double-blind placebo-controlled trial (n-3 PUFA; 3680 mg/day versus PLA) of 6 weeks fully-supervised progressive unilateral RET (i.e. 6 × 8 reps, 75% 1-RM, 3/wk−1). Strength was assessed by knee extensor 1-RM and isokinetic dynamometry ∼ every 10 d. Thigh fat free mass (TFFM) was measured by DXA at 0/3/6 weeks. Bilateral vastus lateralis (VL) biopsies at 0/2/4/6 weeks with deuterium oxide (D2O) dosing were used to determine MPS responses for 0–2 and 4–6 weeks. Further, fibre cross sectional area (CSA), myonuclei number and satellite cell (SC) number were assessed, alongside muscle anabolic/catabolic signalling via immunoblotting.ResultsRET increased 1-RM equally in the trained leg of both groups (+23 ± 5% n-3 PUFA vs. +25 ± 5% PLA (both P < 0.01)) with no significant increase in maximum voluntary contraction (MVC) (+10 ± 6% n-3 PUFA vs. +13 ± 5% PLA). Only the n-3 PUFA group increased TFFM (3774 ± 158 g to 3961 ± 151 g n-3 PUFA (P < 0.05) vs. 3406 ± 201 g to 3561 ± 170 PLA) and type II fibre CSA (3097 ± 339 μm2 to 4329 ± 264 μm2 n-3 PUFA (P < 0.05) vs. 2520 ± 316 μm2 to 3467 ± 303 μm2 in PL) with RET. Myonuclei number increased equally in n-3 PUFA and PLA in both type I and type II fibres, with no change in SC number. N-3 PUFA had no added benefit on muscle protein synthesis (MPS), however, during weeks 4–6 of RET, absolute synthesis rates (ASR) displayed a trend to increase with n-3 PUFA only (5.6 ± 0.3 g d−1 to 7.1 ± 0.5 g d−1 n-3 PUFA (P = 0.09) vs. 5.5 ± 0.5 g d−1 to 6.5 ± 0.5 g d−1 PLA). Further, the n-3 PUFA group displayed greater 4EBP1 activation after acute RE at 6 weeks.Conclusionn3-PUFA enhanced RET gains in muscle mass through type II fibre hypertrophy, with data suggesting a role for MPS rather than via SC recruitment. As such, the present study adds to a literature base illustrating the apparent enhancement of muscle hypertrophy with RET in older women fed adjuvant n3-PUFA.
Highlights
Age-related declines in skeletal muscle mass and function remains a significant healthcare problem, and finding means by which to mitigate sarcopenia continues to be an area of great interest and scientific endeavour
We and others have previously demonstrated that muscle strength and hypertrophy predominate in the early stages of a resistance exercise training (RET) programme, and that these adaptations are blunted with ageing [2,32]
6-weeks of RET led to similar gains in muscle strength between placebo and n-3-polyunsaturated fatty acids (PUFA) supplementation in older women
Summary
Age-related declines in skeletal muscle mass and function (sarcopenia) remains a significant healthcare problem, and finding means by which to mitigate sarcopenia continues to be an area of great interest and scientific endeavour. Resistance exercise training (RET) can increase both muscle mass and function in older age [1] e albeit to a marked lesser extent than in younger cohorts (especially regarding muscle hypertrophy [2e4]). This phenomenon is true in older women, who exhibit negligible hypertrophic capacity [5,6]. In the absence of supportive nutrition, RET remains a catabolic stimulus [7], with the intake of sufficient dietary protein necessary to provide the essential amino acid (EAA) substrate to facilitate muscle anabolism (i.e. hypertrophy) over prolonged periods of RET. The n-3 PUFA group increased TFFM (3774 ± 158 g to 3961 ± 151 g n-3 PUFA (P < 0.05)
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