Abstract
Though effective in treating various types of cancer, the chemotherapeutic doxorubicin (DOX) is associated with skeletal muscle wasting and fatigue. The purpose of this study was to assess muscle function in situ following DOX administration in mice. Furthermore, pre-treatments with exercise (EX) or metformin (MET) were used in an attempt to preserve muscle function following DOX. Mice were assigned to the following groups: control, DOX, DOX + EX, or DOX + MET, and were given a single injection of DOX (15 mg/kg) or saline 3 days prior to sacrifice. Preceding the DOX injection, DOX + EX mice performed 60 min/day of running for 5 days, while DOX + MET mice received 5 daily oral doses of 500 mg/kg MET. Gastrocnemius–plantaris–soleus complex function was assessed in situ via direct stimulation of the sciatic nerve. DOX treatment increased time to half-relaxation following contractions, indicating impaired recovery (p < 0.05). Interestingly, EX prevented any increase in half-relaxation time, while MET did not. An impaired relaxation rate was associated with a reduction in SERCA1 protein content (p = 0.07) and AMPK phosphorylation (p < 0.05). There were no differences between groups in force production or mitochondrial respiration. These results suggest that EX, but not MET may be an effective strategy for the prevention of muscle fatigue following DOX administration in mice.
Highlights
The chemotherapeutic doxorubicin (DOX) is used clinically to treat a variety of solid tumor and leukemia cancers by intercalating DNA and inhibiting replication [1]
To determine the effects of DOX on muscle function and the potential benefit of exercise or metformin as co-treatments, a single bolus of DOX was administered to 6-weekold mice
Consistent with previous studies, DOX treatment caused a significant reduction in body weight (Table 1)
Summary
The chemotherapeutic doxorubicin (DOX) is used clinically to treat a variety of solid tumor and leukemia cancers by intercalating DNA and inhibiting replication [1]. In addition to the effects on cardiac muscle, DOX accumulates in skeletal and smooth muscle causing long-term side effects including severe fatigue and muscle loss [2,3,4]. Additional research into the mechanism of action of DOX on muscle function and potential strategies to mitigate toxicity is warranted. Most of the research on the effect of DOX on muscle has focused on issues related to cardiomyopathy [5,6,7,8,9,10,11,12]. Strategies that mitigate the damaging side effects of DOX on muscle without interfering with its chemotherapeutic properties could improve overall patient quality of life
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