Abstract
This study investigated the effect of non-periodized training performed at 80, 100 and 120% of the anaerobic threshold intensity (AnT) and a linear periodized training model adapted for swimming rats on the gene expression of monocarboxylate transporters 1 and 4 (MCT1 and 4, in soleus and gastrocnemius muscles), protein contents, blood biomarkers, tissue glycogen, body mass, and aerobic and anaerobic capacities. Sixty Wistar rats were randomly divided into 6 groups (n = 10 per group): a baseline (BL; euthanized before training period), a control group (GC; not exercised during the training period), three groups exercised at intensities equivalent to 80, 100 and 120% of the AnT (G80, G100 and G120, respectively) at the equal workload and a linear periodized training group (GPE). Each training program lasted 12 weeks subdivided into three periods: basic mesocycle (6 weeks), specific mesocycle (5 weeks) and taper (1 week). Although G80, G100 and G120 groups were submitted to monotony workload (i.e. non-modulation at intensity or volume throughout the training program), rodents were evaluated during the same experimental timepoints as GPE to be able comparisons. Our main results showed that all training programs were capable to minimize the aerobic capacity decrease promoted by age, which were compared to control group. Rats trained in periodization model had reduced levels of lipid blood biomarkers and increased hepatic glycogen stores compared to all other trained groups. At the molecular level, only expressions of MCT1 in the muscle were modified by different training regimens, with MCT1 mRNA increasing in rats trained at lower intensities (G80), and MCT1 protein content showed higher values in non-periodized groups compared to pre-training and GPE. Here, training at different intensities but at same total workload promoted similar adaptations in rats. Nevertheless, our results suggested that periodized training seems to be optimize the physiological responses of rats.
Highlights
Chronic exercise results in positive adaptations that occur throughout the body
anaerobic threshold intensity (AnT) could not be determined since animals of this group did not complete more than two incremental lactate minimum test (LMT) stages
We observed that levels of low-density lipoprotein (LDL) and Free fatty acid (FFA) were significantly reduced in the GPE group, Physiological and molecular responses to training load suggesting that periodized training was most effective for enhancing lipid metabolism
Summary
Chronic exercise results in positive adaptations that occur throughout the body. This involves molecular adaptations including changes in gene and protein expression levels, which are regulated by metabolic processes [1]. Some studies have compared the responses of animals to differing intensities of physical activities [4, 5], the failure of the studies to fully assess the volume (duration of exercise) of training performed by animals resulted in different total training loads being compared (a product of intensity and volume). This may have acted as a primary factor affecting data. This can be done by manipulating the volume of exercise performed by each group, as proposed in humans [6, 7]
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