Tensile force impairs lip muscle regeneration under the regulation of interleukin-10.

IF 8.9 1区 医学 Journal of Cachexia, Sarcopenia and Muscle Pub Date : 2024-10-01 DOI:10.1002/jcsm.13584
Xu Cheng, Jinfeng Dou, Jinggui Li, Yixuan Huang, Bing Shi, Jingtao Li
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Abstract

Background: Orbicularis oris muscle, the crucial muscle in speaking, facial expression and aesthetics, is considered the driving force for optimal lip repair. Impaired muscle regeneration remains the main culprit for unsatisfactory surgical outcomes. However, there is a lack of study on how different surgical manipulations affect lip muscle regeneration, limiting efforts to seek effective interventions.

Methods: In this study, we established a rat lip surgery model where the orbicularis oris muscle was injured by manipulations including dissection, transection and stretch. The effect of each technique on muscle regeneration was examined by histological analysis of myogenesis and fibrogenesis. The impact of tensile force was further investigated by the in vitro application of mechanical strain on cultured myoblasts. Transcriptome profiling of muscle satellite cells from different surgical groups was performed to figure out the key factors mediating muscle fibrosis, followed by therapeutic intervention to improve muscle regeneration after lip surgeries.

Results: Evaluation of lip muscle regeneration till 56 days after injury revealed that the stretch group resulted in the most severe muscle fibrosis (n = 6, fibrotic area 48.9% in the stretch group, P < 0.001, and 25.1% in the dissection group, P < 0.001). There was the lowest number of Pax7-positive nuclei at Days 3 and 7 in the stretch group (n = 6, P < 0.001, P < 0.001), indicating impaired satellite cell expansion. Myogenesis was impaired in both the transection and stretch groups, as evidenced by the delayed peak of centrally nucleated myofibers and embryonic MyHC. Meanwhile, the stretch group had the highest percentage of Pdgfra+ fibro-adipogenic progenitors infiltrated area at Days 3, 7 and 14 (n = 6, P = 0.003, P = 0.006, P = 0.037). Cultured rat lip muscle myoblasts exhibited impaired myotube formation and fusion capacity when exposed to a high magnitude (ε = 2688 μ strain) of mechanical strain (n = 3, P = 0.014, P = 0.023). RNA-seq analysis of satellite cells isolated from different surgical groups demonstrated that interleukin-10 was the key regulator in muscle fibrosis. Administration of recombinant human Wnt7a, which can inhibit the expression of interleukin-10 in cultured satellite cells (n = 3, P = 0.041), exerted an ameliorating effect on orbicularis oris muscle fibrosis after stretching injury in surgical lip repair.

Conclusions: Tensile force proved to be the most detrimental manoeuvre for post-operative lip muscle regeneration, despite its critical role in correcting lip and nose deformities. Adjunctive biotherapies to regulate the interleukin-10-mediated inflammatory process could facilitate lip muscle regeneration under conditions of high surgical tensile force.

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在白细胞介素-10的调控下,拉力会损害唇肌再生。
背景:口轮匝肌是说话、面部表情和美观的关键肌肉,被认为是最佳唇部修复的动力。肌肉再生障碍仍是手术效果不理想的罪魁祸首。然而,目前缺乏对不同手术操作如何影响唇肌再生的研究,从而限制了寻求有效干预措施的努力:在这项研究中,我们建立了一个大鼠唇部手术模型,通过解剖、横断和拉伸等操作损伤口轮匝肌。通过对肌肉生成和纤维生成的组织学分析,研究了每种技术对肌肉再生的影响。通过对培养的肌母细胞施加体外机械应变,进一步研究了拉伸力的影响。对不同手术组的肌肉卫星细胞进行了转录组分析,以找出介导肌肉纤维化的关键因素,然后进行治疗干预,以改善唇部手术后的肌肉再生:损伤后 56 天的唇部肌肉再生评估显示,拉伸组的肌肉纤维化程度最严重(n = 6,拉伸组的纤维化面积为 48.9%,第 3、7 和 14 天的 P + 纤维脂肪原浸润面积(n = 6,P = 0.003、P = 0.006、P = 0.037))。培养的大鼠唇肌肌母细胞在暴露于高强度(ε = 2688 μ应变)机械应变时,肌管形成和融合能力受损(n = 3,P = 0.014,P = 0.023)。从不同手术组分离的卫星细胞的RNA-seq分析表明,白细胞介素-10是肌肉纤维化的关键调节因子。重组人 Wnt7a 可抑制白细胞介素-10 在培养的卫星细胞中的表达(n = 3,P = 0.041),对唇修复手术中拉伸损伤后的眼轮匝肌纤维化有改善作用:结论:尽管拉伸力在矫正唇部和鼻部畸形中起着至关重要的作用,但事实证明拉伸力是最不利于术后唇部肌肉再生的操作。调节白细胞介素-10介导的炎症过程的辅助生物疗法可在高手术拉力条件下促进唇肌再生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Cachexia, Sarcopenia and Muscle
Journal of Cachexia, Sarcopenia and Muscle Medicine-Orthopedics and Sports Medicine
自引率
12.40%
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期刊介绍: The Journal of Cachexia, Sarcopenia, and Muscle is a prestigious, peer-reviewed international publication committed to disseminating research and clinical insights pertaining to cachexia, sarcopenia, body composition, and the physiological and pathophysiological alterations occurring throughout the lifespan and in various illnesses across the spectrum of life sciences. This journal serves as a valuable resource for physicians, biochemists, biologists, dieticians, pharmacologists, and students alike.
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