Low baseline ribosome‐related gene expression and resistance training‐induced declines in ribosome‐related gene expression are associated with skeletal muscle hypertrophy in young men and women Journal Articles uri icon

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abstract

  • AbstractRibosomes are essential cellular machinery for protein synthesis. It is hypothesised that ribosome content supports muscle growth and that individuals with more ribosomes have greater increases in muscle size following resistance training (RT). Aerobic conditioning (AC) also elicits distinct physiological adaptations; however, no measures of ribosome content following AC have been conducted. We used ribosome‐related gene expression as a proxy measure for ribosome content and hypothesised that AC and RT would increase ribosome‐related gene expression. Fourteen young men and women performed 6 weeks of single‐legged AC followed by 10 weeks of double‐legged RT. Muscle biopsies were taken following AC and following RT in the aerobically conditioned (AC+RT) and unconditioned (RT) legs. No differences in regulatory genes (Ubf, Cyclin D1, Tif‐1a and Polr‐1b) involved in ribosomal biogenesis or ribosomal RNA (45S, 5.8S, 18S and 28S rRNAs) expression were observed following AC and RT, except for c‐Myc (RT > AC+RT) and 5S rRNA (RT < AC+RT at pre‐RT) with 18S external transcribed spacer and 5.8S internal transcribed spacer expression decreasing from pre‐RT to post‐RT in the RT leg only. When divided for change in leg‐lean soft tissue mass (ΔLLSTM) following RT, legs with the greatest ΔLLSTM had lower expression in 11/13 measured ribosome‐related genes before RT and decreased expression in 9/13 genes following RT. These results indicate that AC and RT did not increase ribosome‐related gene expression. Contrary to previous research, the greatest increase in muscle mass was associated with lower changes in ribosome‐related gene expression over the course of the 10‐week training programme. This may point to the importance of translational efficiency rather than translational capacity (i.e. ribosome content) in mediating long‐term exercise‐induced adaptations in skeletal muscle.

publication date

  • April 2024