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Abstract
In vertebrates, skeletal muscle comprises fast and slow fibers. Slow and fast muscle cells in fish are spatially segregated; slow muscle cells are located only in a superficial region, and comprise a small fraction of the total muscle cell mass. Slow muscles support low-speed, low-force movements, while fast muscles are responsible for high-speed, high-force movements. However, speed and strength of movement are not binary states, but rather fall on a continuum. This raises the question of whether any recruitment patterns exist within fast muscles, which constitute the majority of muscle cell mass. In the present study, we investigated activation patterns of trunk fast muscles during movements of varying speeds and strengths using larval zebrafish. We employed two complementary methods: calcium imaging and electrophysiology. The results obtained from both methods supported the conclusion that there are spatially-ordered recruitment patterns in fast muscle cells. During weaker/slower movements, only the lateral portion of fast muscle cells is recruited. As the speed or strength of the movements increases, more fast muscle cells are recruited in a spatially-ordered manner, progressively from lateral to medial. We also conducted anatomical studies to examine muscle fiber size. The results of those experiments indicated that muscle fiber size increases systematically from lateral to medial. Therefore, the spatially ordered recruitment of fast muscle fibers, progressing from lateral to medial, correlates with an increase in fiber size. These findings provide significant insights into the organization and function of fast muscles in larval zebrafish, illustrating how spatial recruitment and fiber size interact to optimize movement performance.
Highlights
Skeletal muscle in vertebrates consists of two types of muscle fibers: slow and fast [1, 2]
The L4 fast muscle was not recruited at all during spontaneous swimming (Fig. 6C, left panel). These results strongly suggest the presence of a sequential recruitment pattern among fast muscles, with orderly de-recruitment occurring as swimming frequency decreases
Our findings from these independent methods converge on a consistent conclusion: there exists a spatially-ordered recruitment pattern among fast muscle cells
Summary
Skeletal muscle in vertebrates consists of two types of muscle fibers: slow and fast [1, 2]. The fast muscle population can be further divided into two major subtypes: type FF (fast fatigable) and type FR (fast resistant) [3]. Different types of muscles are innervated by different types of motoneurons, forming motor units. Differential activation of motor units generates movements with varying forces and speeds [4]. Fast motor units are responsible for high-speed movements and/or strong forces, while slow motor units facilitate low-speed movements and/or weaker forces [5, 6]. Shimizu et al Zoological Letters (2025) 11:1
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