Abstract

PURPOSE The Angiotensin Converting Enzyme Insertion allele (ACE I) is favorably associated with endurance performance, whereas the ACE Deletion allele (ACE D) with muscle strength and power-oriented performance. The purpose of this study was to examine if the ACE I/D polymorphism was related to the muscle strength and size responses to a unilateral, upper arm resistance training (RT) program among apparently healthy, young adults. We hypothesized the ACE D allele would be associated with greater increases in muscle strength and size than the ACE I allele. METHODS Subjects were 620 (mean ± SEM, 24.5±1.7 yr) mostly white (80%), mean (42%) and women (58%) who had not performed RT in the previous yr. Subjects completed 12 wk (2 d/wk) of supervised upper-arm RT. Peak elbow flexor muscle strength (kg) was assessed by isometric testing and 1 repetition maximum (1RM). Biceps muscle cross sectional area (cm2) was measured by magnetic resonance imaging. Multivariate ANOVA tested if muscle strength and size differed between ACE I/D pre-RT, post-RT, and pre- to post-RT. Because ACE II (n=146) and ID (n=288) did not differ in their RT response, these genotypes were combined and data are reported for ACE II/ID (n=434) versus DD (n=186). RESULTS Pre-RT absolute elbow flexor peak isometric (45.0±0.7 vs 45.4±1.1 kg) and 1RM (9.1±0.1 vs 9.2±0.2 kg) strength and biceps size (17.9±0.2 vs 17.2±0.4 cm2) did not differ between ACE II/ID and DD, respectively. Similarly, post-RT absolute elbow flexor peak isometric (53.6±0.8 vs 52.2±1.3 kg) and 1RM (13.1±0.1 vs 13.2±0.2 kg) strength and biceps size (21.2±0.3 vs 20.6±0.4 cm2) were not different between ACE II/ID and DD (p > 0.05). Absolute (8.6±0.4 vs 6.8±0.6 kg), relative (% of initial values) (22.2±1.0 vs 16.8±1.6 %) and allometric (0.5±0.0 vs 0.4±0.0 kg*kg−0.67) peak elbow flexor isometric strength increases pre- to post-RT were greater for ACE II/ID than DD, respectively (p < 0.01). In contrast, absolute (4.0±0.1 vs 4.0±0.1 kg), relative (51.0±1.5 vs 51.2±2.3 %) and allometric (0.2±0.0 vs 0.2±0.0 kg*kg−0.67) peak elbow flexor strength gains as measured by 1RM; and absolute (3.3±0.1 vs 3.4±0.1 cm2) and relative (18.6±0.5 vs 19.9±0.8 %) muscle size gains were not different between ACE II/ID and DD pre- to post-RT (p > 0.05). CONCLUSION Contrary to our hypothesis, ACE DD gained less peak elbow flexor isometric strength than ACE II/ID genotypes pre- to post-RT, despite similar gains in 1RM and muscle size. Reasons for these differences between the muscle strength response to RT and ACE I/D genotypes are not clear and merit further investigation. Supported by NIH-NINDS R01 NS40606-02

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