Background: While decreased protein intake is associated with muscle mass loss, it is unclear whether a decrease in carbohydrate intake adversely affects muscle atrophy independently of protein intake. Herein, we examined whether a low-carbohydrate (low-CHO) diet exacerbates denervation-induced muscle atrophy under conditions of identical protein intake.
Methods: On day one of the experiment, male Wistar rats underwent unilateral denervation. The contralateral leg was used as the control. After denervation, rats were divided into two dietary groups: high-carbohydrate (high-CHO) and low-CHO. Each group was fed a high-CHO (70% carbohydrate) or low-CHO (20% carbohydrate) diet over 7 days. Total protein and energy intakes in both groups were matched by pair feeding. Rats were provided with deuterium oxide (D2O) tracer over the last 3 days of dietary intervention to quantify myofibrillar (muscle) protein synthesis (MPS).
Results: Denervation reduced wet weight of the gastrocnemius muscle compared to the contralateral control (p < 0.05). Reductions in gastrocnemius muscle weight were greater in the low-CHO group (-34%) than the high-CHO group (-28%) (p < 0.05). Although denervation decreased MPS compared to the contralateral control (p < 0.05), no dietary effect on MPS was observed. Denervation resulted in increased mRNA and protein expression of Atrogin-1, a ubiquitin E3 ligase, compared to that in the contralateral control (p < 0.05). Increases in Atrogin-1 gene and protein expression due to denervation were greater in the low-CHO group than in the high-CHO group (p < 0.05).
Conclusions: We conclude that a low-CHO diet may exacerbate denervation-induced atrophy in fast-twitch-dominant muscles compared to a high-CHO diet, even when the same protein intake is maintained. Although blunted MPS contributed to muscle atrophy due to denervation, exacerbation of muscle atrophy by the low-CHO diet was not accompanied by explanatory changes in MPS. The effect of the low-CHO diet might be related to promotion of muscle-specific ubiquitin E3 ligase gene expression.
Keywords: AMPK; Atrogin‐1; deuterium oxide; low‐carbohydrate diet; myofibrillar protein synthesis rate.
© 2025 The Author(s). Journal of Cachexia, Sarcopenia and Muscle published by Wiley Periodicals LLC.