Department of Nutrition, Institute of Basic Medical Sciences, Medical Faculty, University of Oslo, Blindern, 0317 Oslo, Norway.
Am J Physiol Cell Physiol. 2010 Apr;298(4):C807-16. doi: 10.1152/ajpcell.00094.2009. Epub 2010 Jan 20.
In addition to generating movement, skeletal muscle may have a function as a secretory organ. The aim of the present study was to identify novel proteins with signaling capabilities secreted from skeletal muscle cells. IL-7 was detected in media conditioned by primary cultures of human myotubes differentiated from satellite cells, and concentrations increased with incubation time. By immunoblotting and real-time RT-PCR IL-7 expression was confirmed at both protein and mRNA levels. Furthermore, with immunofluorescence and specific antisera, multinucleated myotubes were found to coexpress IL-7 and myosin heavy chain. During differentiation of human myotubes from satellite cells, IL-7 expression increased at mRNA and protein levels. In contrast, mRNA expression of the IL-7 receptor was 80% lower in myotubes compared with satellite cells. Incubations with recombinant IL-7 under differentiation conditions caused approximately 35% reduction in mRNA for the terminal myogenic markers myosin heavy chain 2 (MYH2) and myogenin (MYOG), suggesting that IL-7 may act on satellite cells to inhibit development of the muscle fiber phenotype. Alternative routes of cell development were investigated, and IL-7 increased migration of satellite cells by 40% after 48 h in a Transwell system, whereas cell proliferation remained unchanged. In vivo, real-time RT-PCR analysis of musculus vastus lateralis (n = 10) and musculus trapezius (n = 7) biopsies taken from male individuals undergoing a strength training program demonstrated that after 11 wk mean IL-7 mRNA increased by threefold (P = 0.01) and fourfold (P = 0.04), respectively. In conclusion, we have demonstrated that IL-7 is a novel myokine regulated both in vitro and in vivo, and it may play a role in the regulation of muscle cell development.
除了产生运动,骨骼肌可能具有作为分泌器官的功能。本研究的目的是鉴定从骨骼肌细胞分泌的具有信号转导能力的新蛋白。在由卫星细胞分化的人肌管的原代培养物的条件培养基中检测到 IL-7,并且浓度随孵育时间增加。通过免疫印迹和实时 RT-PCR 证实了 IL-7 在蛋白质和 mRNA 水平上的表达。此外,通过免疫荧光和特异性抗血清,发现多核肌管共表达 IL-7 和肌球蛋白重链。在从卫星细胞分化的人肌管中,IL-7 的表达在 mRNA 和蛋白质水平上增加。相比之下,与卫星细胞相比,肌管中 IL-7 受体的 mRNA 表达低 80%。在分化条件下用重组 IL-7 孵育导致终末肌生成标志物肌球蛋白重链 2 (MYH2) 和肌生成素 (MYOG) 的 mRNA 减少约 35%,表明 IL-7 可能作用于卫星细胞以抑制肌肉纤维表型的发育。研究了替代的细胞发育途径,并且在 Transwell 系统中,IL-7 在 48 小时后使卫星细胞的迁移增加了 40%,而细胞增殖保持不变。在体内,对接受力量训练计划的男性个体的 musculus vastus lateralis(n = 10)和 musculus trapezius(n = 7)活检进行实时 RT-PCR 分析表明,在 11 周后,IL-7 mRNA 分别增加了三倍(P = 0.01)和四倍(P = 0.04)。总之,我们已经证明了 IL-7 是一种新型的肌因子,在体外和体内均受到调节,它可能在调节肌肉细胞发育中发挥作用。
