在分化的原代人骨骼肌培养物中，MEF2激活需要平行途径的协同参与。

MEF2 activation in differentiated primary human skeletal muscle cultures requires coordinated involvement of parallel pathways.

作者信息

Al-Khalili Lubna, Chibalin Alexander V, Yu Mei, Sjödin Bertil, Nylén Carolina, Zierath Juleen R, Krook Anna

机构信息

Department of Surgical Sciences, Karolinska Institutet, Stockholm, Sweden.

出版信息

Am J Physiol Cell Physiol. 2004 Jun;286(6):C1410-6. doi: 10.1152/ajpcell.00444.2003. Epub 2004 Feb 11.

DOI:10.1152/ajpcell.00444.2003

PMID:14960415

Abstract

The myocyte enhancer factor (MEF)2 transcription factor is important for development of differentiated skeletal muscle. We investigated the regulation of MEF2 DNA binding in differentiated primary human skeletal muscle cells and isolated rat skeletal muscle after exposure to various stimuli. MEF2 DNA binding activity in nonstimulated (basal) muscle cultures was almost undetectable. Exposure of cells for 20 min to 120 nM insulin, 0.1 and 1.0 mM hydrogen peroxide, osmotic stress (400 mM mannitol), or 1.0 mM 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside (AICAR) led to a profound increase in MEF2 DNA binding. To study signaling pathways mediating MEF2 activity, we preincubated human skeletal muscle cell cultures or isolated rat epitrochlearis muscles with inhibitors of p38 mitogen-activated protein kinase (MAPK) (10 microM SB-203580), MEK1 (50 microM PD-98059), PKC (1 and 10 microM GF109203X), phosphatidylinositol (PI) 3-kinase (10 microM LY-294002), or AMP-activated protein kinase (AMPK; 20 microM compound C). All stimuli resulted primarily in activation of MEF2D DNA binding. Exposure of cells to osmotic or oxidative stress increased MEF2 DNA binding via pathways that were completely blocked by MAPK inhibitors and partially blocked by inhibitors of PKC, PI 3-kinase, and AMPK. In epitrochlearis muscle, MAPK inhibitors blocked contraction but not AICAR-mediated MEF2 DNA binding. Thus activation of MEF2 in skeletal muscle is regulated via parallel intracellular signaling pathways in response to insulin, cellular stress, or activation of AMPK.

摘要

肌细胞增强因子（MEF）2转录因子对分化的骨骼肌发育至关重要。我们研究了在分化的原代人骨骼肌细胞和分离的大鼠骨骼肌中，暴露于各种刺激后MEF2与DNA结合的调控情况。在未受刺激（基础状态）的肌肉培养物中，几乎检测不到MEF2与DNA的结合活性。将细胞暴露于120 nM胰岛素、0.1和1.0 mM过氧化氢、渗透压应激（400 mM甘露醇）或1.0 mM 5-氨基咪唑-4-甲酰胺-1-β-D-呋喃核糖苷（AICAR）20分钟，会导致MEF2与DNA的结合显著增加。为了研究介导MEF2活性的信号通路，我们用人骨骼肌细胞培养物或分离的大鼠肱三头肌与p38丝裂原活化蛋白激酶（MAPK）抑制剂（10 μM SB-203580）、MEK1抑制剂（50 μM PD-98059）、蛋白激酶C（PKC）抑制剂（1和10 μM GF109203X）、磷脂酰肌醇（PI）3-激酶抑制剂（10 μM LY-294002）或AMP活化蛋白激酶（AMPK；20 μM化合物C）进行预孵育。所有刺激主要导致MEF2D与DNA结合的激活。细胞暴露于渗透压或氧化应激会通过被MAPK抑制剂完全阻断、被PKC、PI 3-激酶和AMPK抑制剂部分阻断的途径增加MEF2与DNA的结合。在肱三头肌中，MAPK抑制剂阻断收缩，但不阻断AICAR介导的MEF2与DNA的结合。因此，骨骼肌中MEF2的激活是通过平行的细胞内信号通路来调控的，以响应胰岛素、细胞应激或AMPK的激活。

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在分化的原代人骨骼肌培养物中，MEF2激活需要平行途径的协同参与。

MEF2 activation in differentiated primary human skeletal muscle cultures requires coordinated involvement of parallel pathways.

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