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Morphological and Molecular Responses of Lateolabrax maculatus Skeletal Muscle Cells to Different Temperatures

Jingru Zhang, Haishen Wen, Xin Qi, Yonghang Zhang, Ximeng Dong, Kaiqiang Zhang, Meizhao Zhang, Jifang Li, Yun Li

2022International Journal of Molecular Sciences15 citationsDOIOpen Access PDF

Abstract

were conducted and reared at different temperatures (21, 25, and 28 °C) in both the proliferation and differentiation stages. CCK-8, EdU, wound scratch and nuclear fusion index assays revealed that the proliferation, myogenic differentiation, and migration processes of skeletal muscle cells were significantly accelerated as the temperature raises. Based on the GO, GSEA, and WGCNA, higher temperature (28 °C) induced genes involved in HSF1 activation, DNA replication, and ECM organization processes at the proliferation stage, as well as HSF1 activation, calcium activity regulation, myogenic differentiation, and myoblast fusion, and sarcomere assembly processes at the differentiation stage. In contrast, lower temperature (21 °C) increased the expression levels of genes associated with DNA damage, DNA repair and apoptosis processes at the proliferation stage, and cytokine signaling and neutrophil degranulation processes at the differentiation stage. Additionally, we screened several hub genes regulating myogenesis processes. Our results could facilitate the understanding of the regulatory mechanism of temperature on fish skeletal muscle growth and further contribute to utilizing rational management strategies and promoting organism growth and development.

Topics & Concepts

MyogenesisBiologySkeletal muscleCell biologyMyocyteMyoDCell growthMyogenic regulatory factorsMYF5GeneticsEndocrinologyPhysiological and biochemical adaptationsGenetics, Aging, and Longevity in Model OrganismsMuscle Physiology and Disorders