Nerve terminal distribution in the human tongue intrinsic muscles: An immunohistochemical study using midterm fetuses.

Intrinsic tongue muscles, especially the transverse and vertical (T&V) muscles, regulate the shape of the tongue. However, little information is available on the nerve distribution pattern in human T&V muscles. Using S100 protein immunohistochemistry for paraffin-embedded histology, we investigated semiserial sagittal or frontal sections of eight human fetal tongues (180-240 mm crown-rump length: CRL). The height of the T&V muscle bundle showed a threefold difference between specimens with a small and a large CRL. Thus, the T&V muscles were still growing at the stages examined. In the intrinsic longitudinal muscles and all extrinsic tongue muscles, we observed the typical motor endplate band. In lower-magnification views, the T&V muscles also appeared to carry the band in the lateral part of the tongue, where the genioglossus muscle fibers did not cross these muscles. However, in higher magnification views, the nerve terminal distribution in the T&V muscles showed a unique rule: the nerve terminal for the transverse muscle bundle was located distantly from that of the adjacent vertical muscle bundle. This pattern seemed to be established during the stages examined. To provide such "distantly separated nerve terminals," thin nerve twigs took a highly curved course oblique to the T&V muscle bundles. We hypothesize that the unique nerve course and terminal distribution in the T&V muscles are a result of sorting to provide a good functional match between the nerve fiber and the muscle bundle. After sorting, the T&V muscle cells may initiate proliferation to increase the muscle bundle.

Relationship between function of masticatory muscle in mouse and properties of muscle fibers.

Mammals exhibit marked morphological differences in the muscles surrounding the jaw bone due to differences in eating habits. Furthermore, the myofiber properties of the muscles differ with function. Since the muscles in the oral region have various functions such as eating, swallowing, and speech, it is believed that the functional role of each muscle differs. Therefore, to clarify the functional role of each masticatory muscle, the myofiber properties of the adult mouse masticatory muscles were investigated at the transcriptional level. Expression of MyHC-2b with a fast contraction rate and strong force was frequently noted in the temporal and masseter muscles. This suggests that the temporal and masseter muscles are closely involved in rapid antero-posterior masticatory movement, which is characteristic in mice. Furthermore, expression of MyHC-1 with a low contraction rate and weak continuous force was frequently detected in the lateral pterygoid muscle. This suggests that, in contrast to other masticatory muscles, mouse lateral pterygoid muscle is not involved in fast masticatory movement, but is involved in functions requiring continuous force such as retention of jaw position. This study revealed that muscles with different roles function comprehensively during complicated masticatory movement.