TY - JOUR
T1 - The MMAAS Project
T2 - An observational human study investigating the effect of Anabolic Androgenic Steroid use on gene expression and the molecular mechanism of Muscle Memory
AU - Lima, Giscard
AU - Kolliari-Turner, Alexander
AU - Wang, Guan
AU - Ho, Patrick
AU - Meehan, Lyra
AU - Roeszler, Kelly
AU - Seto, Jane
AU - Malinsky, Fernanda Rossell
AU - Karanikolou, Antonia
AU - Eichhorn, Gregor
AU - Tanisawa, Kumpei
AU - Ospina-Betancurt, Jonathan
AU - Hamilton, Blair
AU - Kumi, Paulette
AU - Shurlock, Jonathan
AU - Skiadas, Vasileios
AU - Twycross-Lewis, Richard
AU - Kilduff, Liam
AU - Guppy, Fergus
AU - North, Kathryn
AU - Pitsiladis, Yannis
AU - Fossati, Chiara
AU - Pigozzi, Fabio
AU - Borrione, Paolo
PY - 2022/5/4
Y1 - 2022/5/4
N2 - It remains unknown whether myonuclei remain elevated post anabolic-androgenic steroid (AAS) usage in humans. Limited data exist on AAS-induced changes in gene expression. Cross-sectional/longitudinal. University. Fifty-six men aged 20 to 42 years. Non-resistance-trained (C) or resistance-trained (RT), RT currently using AAS (RT-AS), of which if AAS usage ceased for ≥18 weeks resampled as Returning Participants (RP) or RT previously using AAS (PREV). Myonuclei per fiber and cross-sectional area (CSA) of trapezius muscle fibers. There were no significant differences between C (n = 5), RT (n = 15), RT-AS (n = 17), and PREV (n = 6) for myonuclei per fiber. Three of 5 returning participants (RP1-3) were biopsied twice. Before visit 1, RP1 ceased AAS usage 34 weeks before, RP2 and RP3 ceased AAS usage ≤2 weeks before, and all had 28 weeks between visits. Fiber CSA decreased for RP1 and RP2 between visits (7566 vs 6629 μm2; 7854 vs 5677 μm2) while myonuclei per fiber remained similar (3.5 vs 3.4; 2.5 vs 2.6). Respectively, these values increased for RP3 between visits (7167 vs 7889 μm2; 2.6 vs 3.3). This cohort of past AAS users did not have elevated myonuclei per fiber values, unlike previous research, but reported AAS usage was much lower. Training and AAS usage history also varied widely among participants. Comparable myonuclei per fiber numbers despite decrements in fiber CSA postexposure adheres with the muscle memory mechanism, but there is variation in usage relative to sampling date and low numbers of returning participants. [Abstract copyright: Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.]
AB - It remains unknown whether myonuclei remain elevated post anabolic-androgenic steroid (AAS) usage in humans. Limited data exist on AAS-induced changes in gene expression. Cross-sectional/longitudinal. University. Fifty-six men aged 20 to 42 years. Non-resistance-trained (C) or resistance-trained (RT), RT currently using AAS (RT-AS), of which if AAS usage ceased for ≥18 weeks resampled as Returning Participants (RP) or RT previously using AAS (PREV). Myonuclei per fiber and cross-sectional area (CSA) of trapezius muscle fibers. There were no significant differences between C (n = 5), RT (n = 15), RT-AS (n = 17), and PREV (n = 6) for myonuclei per fiber. Three of 5 returning participants (RP1-3) were biopsied twice. Before visit 1, RP1 ceased AAS usage 34 weeks before, RP2 and RP3 ceased AAS usage ≤2 weeks before, and all had 28 weeks between visits. Fiber CSA decreased for RP1 and RP2 between visits (7566 vs 6629 μm2; 7854 vs 5677 μm2) while myonuclei per fiber remained similar (3.5 vs 3.4; 2.5 vs 2.6). Respectively, these values increased for RP3 between visits (7167 vs 7889 μm2; 2.6 vs 3.3). This cohort of past AAS users did not have elevated myonuclei per fiber values, unlike previous research, but reported AAS usage was much lower. Training and AAS usage history also varied widely among participants. Comparable myonuclei per fiber numbers despite decrements in fiber CSA postexposure adheres with the muscle memory mechanism, but there is variation in usage relative to sampling date and low numbers of returning participants. [Abstract copyright: Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.]
KW - myonuclei
KW - anabolic-androgenic steroids
KW - hypertrophy
KW - fat-free mass
KW - muscle memory
KW - gene expression
U2 - 10.1097/jsm.0000000000001037
DO - 10.1097/jsm.0000000000001037
M3 - Article
C2 - 35533133
JO - Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine
JF - Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine
ER -