叉头盒O1和肌环指1蛋白在萎缩性和肥厚性失神经小鼠骨骼肌中的表达。

Q2 Biochemistry, Genetics and Molecular Biology Journal of Molecular Signaling Pub Date : 2014-09-24 eCollection Date: 2014-01-01 DOI:10.1186/1750-2187-9-9
Ann-Kristin Fjällström, Kim Evertsson, Marlene Norrby, Sven Tågerud
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引用次数: 7

摘要

背景:叉头盒O (FoxO)转录因子和E3泛素连接酶如Muscle RING finger 1 (MuRF1)被认为参与了骨骼肌质量的调节。FoxO转录因子的功能受磷酸化和乙酰化等翻译后修饰的调控。本研究检测了萎缩性和肥厚性失神经骨骼肌中fox01蛋白的表达、磷酸化和乙酰化以及MuRF1蛋白的表达。方法:采用Western blots半定量研究蛋白表达、磷酸化和乙酰化。研究的肌肉是6天失神经小鼠后肢肌肉(胫骨前肌以及腓肠肌和比目鱼肌,均萎缩),6天失神经小鼠半膈肌(肥厚)和受神经支配的对照肌。使用全肌肉匀浆,以及有神经支配和6天无神经支配的胫骨前肌和半膈肌的分离核和细胞质部分。结果:FoxO1和MuRF1蛋白的表达在研究的所有6天的失神经肌肉中增加了0.3-3.7倍,萎缩和肥大。在腓肠肌、比目鱼肌和半膈肌去神经支配后,S256处fox01的磷酸化增加了约0.8-1倍,而在未分离的胫前肌中没有磷酸化。然而,在去神经支配的胫骨前肌的细胞质部分中观察到FoxO1磷酸化的小幅(0.2倍)但具有统计学意义的增加。fox01乙酰化仅在去神经支配的胫骨前肌中有统计学意义的增加(0.8倍)。总FoxO1和磷酸化FoxO1的增加只在失神经萎缩性胫前肌的胞浆部分可见,而在失神经肥厚性半膈中,总FoxO1和磷酸化FoxO1在胞浆和核部分均增加。MuRF1蛋白在去神经萎缩性胫前肌和去神经肥厚性半膈肌的胞浆和细胞核部分表达增加。结论:FoxO1和MuRF1在去神经支配肌肉(萎缩和肥大)中的表达增加,表明这些蛋白参与了去神经支配后发生的组织重塑。在研究的肌肉中,去神经支配对磷酸化和乙酰化fox01水平的影响不同,这可能与肌肉纤维类型组成的差异有关。
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Forkhead box O1 and muscle RING finger 1 protein expression in atrophic and hypertrophic denervated mouse skeletal muscle.

Background: Forkhead box O (FoxO) transcription factors and E3 ubiquitin ligases such as Muscle RING finger 1 (MuRF1) are believed to participate in the regulation of skeletal muscle mass. The function of FoxO transcription factors is regulated by post-translational modifications such as phosphorylation and acetylation. In the present study FoxO1 protein expression, phosphorylation and acetylation as well as MuRF1 protein expression, were examined in atrophic and hypertrophic denervated skeletal muscle.

Methods: Protein expression, phosphorylation and acetylation were studied semi-quantitatively using Western blots. Muscles studied were 6-days denervated mouse hind-limb muscles (anterior tibial as well as pooled gastrocnemius and soleus muscles, all atrophic), 6-days denervated mouse hemidiaphragm muscles (hypertrophic) and innervated control muscles. Total muscle homogenates were used as well as separated nuclear and cytosolic fractions of innervated and 6-days denervated anterior tibial and hemidiaphragm muscles.

Results: Expression of FoxO1 and MuRF1 proteins increased 0.3-3.7-fold in all 6-days denervated muscles studied, atrophic as well as hypertrophic. Phosphorylation of FoxO1 at S256 increased about 0.8-1-fold after denervation in pooled gastrocnemius and soleus muscles and in hemidiaphragm but not in unfractionated anterior tibial muscle. A small (0.2-fold) but statistically significant increase in FoxO1 phosphorylation was, however, observed in cytosolic fractions of denervated anterior tibial muscle. A statistically significant increase in FoxO1 acetylation (0.8-fold) was observed only in denervated anterior tibial muscle. Increases in total FoxO1 and in phosphorylated FoxO1 were only seen in cytosolic fractions of denervated atrophic anterior tibial muscle whereas in denervated hypertrophic hemidiaphragm both total FoxO1 and phosphorylated FoxO1 increased in cytosolic as well as in nuclear fractions. MuRF1 protein expression increased in cytosolic as well as in nuclear fractions of both denervated atrophic anterior tibial muscle and denervated hypertrophic hemidiaphragm muscle.

Conclusions: Increased expression of FoxO1 and MuRF1 in denervated muscles (atrophic as well as hypertrophic) suggests that these proteins participate in the tissue remodelling occurring after denervation. The effect of denervation on the level of phosphorylated and acetylated FoxO1 differed in the muscles studied and may be related to differences in fiber type composition of the muscles.

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Journal of Molecular Signaling
Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry
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期刊介绍: Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.
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