胰岛素样生长因子2在快肌纤维特化中的作用。

A role for Insulin-like growth factor 2 in specification of the fast skeletal muscle fibre.

作者信息

Merrick Deborah, Ting Tao, Stadler Lukas Kurt Josef, Smith Janet

机构信息

School of Biosciences, University of Birmingham, Edgbaston, Birmingham, UK.

出版信息

BMC Dev Biol. 2007 Jun 8;7:65. doi: 10.1186/1471-213X-7-65.

DOI:10.1186/1471-213X-7-65

PMID:17559643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1906852/

Abstract

BACKGROUND

Fibre type specification is a poorly understood process beginning in embryogenesis in which skeletal muscle myotubes switch myosin-type to establish fast, slow and mixed fibre muscle groups with distinct function. Growth factors are required to establish slow fibres; it is unknown how fast twitch fibres are specified. Igf-2 is an embryonically expressed growth factor with established in vitro roles in skeletal muscle. Its localisation and role in embryonic muscle differentiation had not been established.

RESULTS

Between E11.5 and E15.5 fast Myosin (FMyHC) localises to secondary myotubes evenly distributed throughout the embryonic musculature and gradually increasing in number so that by E15.5 around half contain FMyHC. The Igf-2 pattern closely correlates with FMyHC from E13.5 and peaks at E15.5 when over 90% of FMyHC+ myotubes also contain Igf-2. Igf-2 lags FMyHC and it is absent from muscle myotubes until E13.5. Igf-2 strongly down-regulates by E17.5. A striking feature of the FMyHC pattern is its increased heterogeneity and attenuation in many fibres from E15.5 to day one after birth (P1). Transgenic mice (MIG) which express Igf-2 in all of their myotubes, have increased FMyHC staining, a higher proportion of FMyHC+ myotubes and loose their FMyHC staining heterogeneity. In Igf-2 deficient mice (MatDi) FMyHC+ myotubes are reduced to 60% of WT by E15.5. In vitro, MIG induces a 50% excess of FMyHC+ and a 30% reduction of SMHyC+ myotubes in C2 cells which can be reversed by Igf-2-targeted ShRNA resulting in 50% reduction of FMyHC. Total number of myotubes was not affected.

CONCLUSION

In WT embryos the appearance of Igf-2 in embryonic myotubes lags FMyHC, but by E15.5 around 45% of secondary myotubes contain both proteins. Forced expression of Igf-2 into all myotubes causes an excess, and absence of Igf-2 suppresses, the FMyHC+ myotube component in both embryonic muscle and differentiated myoblasts. Igf-2 is thus required, not for initiating secondary myotube differentiation, but for establishing the correct proportion of FMyHC+ myotubes during fibre type specification (E15.5-P1). Since specific loss of FMyHC fibres is associated with many skeletal muscle pathologies these data have important medical implications.

摘要

背景

纤维类型的特化是一个从胚胎发生期就开始的、人们了解甚少的过程，在此过程中，骨骼肌肌管会转换肌球蛋白类型，以建立具有不同功能的快肌、慢肌和混合纤维肌肉群。生长因子是建立慢肌纤维所必需的；而快肌纤维是如何特化的尚不清楚。胰岛素样生长因子2（Igf-2）是一种在胚胎期表达的生长因子，在骨骼肌中已确定具有体外作用。其在胚胎肌肉分化中的定位和作用尚未明确。

结果

在胚胎第11.5天（E11.5）至第15.5天（E15.5）之间，快肌肌球蛋白（FMyHC）定位于均匀分布在整个胚胎肌肉组织中的次级肌管，其数量逐渐增加，以至于到E15.5时，约一半的次级肌管含有FMyHC。Igf-2的表达模式从E13.5开始与FMyHC密切相关，并在E15.5达到峰值，此时超过90%含有FMyHC的肌管也含有Igf-2。Igf-2的出现滞后于FMyHC，在E13.5之前肌肉肌管中不存在Igf-2。到E17.5时，Igf-2强烈下调。FMyHC模式的一个显著特征是，从E15.5到出生后第1天（P1），其在许多纤维中的异质性增加且表达减弱。在所有肌管中都表达Igf-2的转基因小鼠（MIG），FMyHC染色增加，含有FMyHC的肌管比例更高，并且失去了FMyHC染色的异质性。在Igf-2基因敲除小鼠（MatDi）中，到E15.5时，含有FMyHC的肌管减少到野生型（WT）的60%。在体外，MIG在C2细胞中诱导FMyHC阳性肌管数量增加50%，慢速肌球蛋白重链阳性（SMHyC+）肌管数量减少30%，而靶向Igf-2的短发夹RNA（ShRNA）可使其逆转，导致FMyHC减少50%。肌管总数未受影响。

结论

在野生型胚胎中，Igf-2在胚胎肌管中的出现滞后于FMyHC，但到E15.5时，约45%的次级肌管同时含有这两种蛋白。在所有肌管中强制表达Igf-2会导致FMyHC阳性肌管数量过多，而缺乏Igf-2则会抑制胚胎肌肉和分化的成肌细胞中FMyHC阳性肌管成分。因此，Igf-2并非启动次级肌管分化所必需，而是在纤维类型特化过程中（E15.5 - P1）建立FMyHC阳性肌管的正确比例所必需。由于FMyHC纤维的特异性缺失与许多骨骼肌疾病相关，这些数据具有重要的医学意义。

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胰岛素样生长因子2在快肌纤维特化中的作用。

A role for Insulin-like growth factor 2 in specification of the fast skeletal muscle fibre.

作者信息

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出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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