Increasing circulating levels of Tenascin C in response to the Wingate anaerobic test

IF 1.3 4区 医学 Q4 PHYSIOLOGY Clinical Physiology and Functional Imaging Pub Date : 2023-03-21 DOI:10.1111/cpf.12816
Ola Ekström, Kristoffer Ström, Bilal Ahmad Mir, Esa Laurila, Ylva Wessman, Mikko Lehtovirta, Karl-Fredrik Eriksson, Ola Hansson
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Abstract

Aim

Tenascin C (TNC) is a large extracellular matrix glycoprotein. It is involved in development and upregulated both during tissue repair and in several pathological conditions, including cardiovascular disease. Extracellular matrix proteins play a role in promoting exercise responses, leading to adaptation, regeneration, and repair. The main goal of this study was to investigate whether a short anaerobic effort leads to increased levels of TNC in serum.

Methods

Thirty-nine healthy men performed a Wingate test followed by a muscle biopsy. Myoblasts were isolated from the muscle biopsies and differentiated to myotubes ex vivo. TNC RNA was quantified in the biopsies, myotubes and myoblasts using RNA sequencing. Blood samples were drawn before and 5 min after the Wingate test. Serum TNC levels were measured using enzyme-linked immunosorbent assay.

Results

After the Wingate test, serum TNC increased on average by 23% [15–33], median [interquartile range]; PWilcoxon < 0.0001. This increase is correlated with peak power output and power drop, but not with VO2max. TNC RNA expression is higher in myoblasts and myotubes compared to skeletal muscle tissue.

Conclusion

TNC is secreted systemically as a response to the Wingate anaerobic test in healthy males. The response was positively correlated with peak power and power drop, but not with VO2max which implicates a relation to mechanical strain and/or blood flow. With higher expression in undifferentiated myoblast cells than muscle tissue, it is likely that TNC plays a role in muscle tissue remodelling in humans. Our findings open for research on how TNC contributes to exercise adaptation.

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温盖特厌氧试验对Tenascin C循环水平的影响
目的Tenascin C (TNC)是一种大型细胞外基质糖蛋白。在组织修复和包括心血管疾病在内的几种病理条件下,它都参与发育和上调。细胞外基质蛋白在促进运动反应中发挥作用,导致适应、再生和修复。本研究的主要目的是研究短时间无氧运动是否会导致血清TNC水平升高。方法39例健康男性行温盖特试验和肌肉活检。从肌肉活检中分离成肌细胞并在体外分化为肌管。采用RNA测序法定量活检组织、肌管和成肌细胞中的TNC RNA。在温盖特试验前和试验后5分钟分别抽取血样。采用酶联免疫吸附法测定血清TNC水平。结果经Wingate试验后,血清TNC平均升高23%[15-33],中位数[四分位数间距];PWilcoxon < 0.0001。这种增加与峰值功率输出和功率下降相关,但与VO2max无关。与骨骼肌组织相比,TNC RNA在成肌细胞和肌管中的表达更高。结论TNC是健康男性对温盖特厌氧试验的反应。响应与峰值功率和功率下降呈正相关,但与最大摄氧量无关,这意味着与机械应变和/或血流有关。由于TNC在未分化成肌细胞中的表达高于肌肉组织,因此TNC很可能在人类肌肉组织重塑中发挥作用。我们的发现为TNC如何促进运动适应的研究打开了大门。
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来源期刊
CiteScore
3.40
自引率
5.60%
发文量
62
审稿时长
6-12 weeks
期刊介绍: Clinical Physiology and Functional Imaging publishes reports on clinical and experimental research pertinent to human physiology in health and disease. The scope of the Journal is very broad, covering all aspects of the regulatory system in the cardiovascular, renal and pulmonary systems with special emphasis on methodological aspects. The focus for the journal is, however, work that has potential clinical relevance. The Journal also features review articles on recent front-line research within these fields of interest. Covered by the major abstracting services including Current Contents and Science Citation Index, Clinical Physiology and Functional Imaging plays an important role in providing effective and productive communication among clinical physiologists world-wide.
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