Department of Medicine - Western Health, The University of Melbourne, Melbourne, Victoria, Australia.
Institute for Health and Sport (IHeS), Victoria University, Melbourne, Victoria, Australia.
Am J Physiol Cell Physiol. 2024 Oct 1;327(4):C1035-C1050. doi: 10.1152/ajpcell.00320.2024. Epub 2024 Aug 19.
Versican is increased with inflammation and fibrosis, and is upregulated in Duchenne muscular dystrophy. In fibrotic diaphragm muscles from dystrophic mice, genetic reduction of versican attenuated macrophage infiltration and improved contractile function. Versican is also implicated in myogenesis. Here, we investigated whether versican modulated hindlimb muscle pathology, where inflammation and regeneration are increased but fibrosis is minimal. Immunohistochemistry and qRT-PCR were used to assess how fiber type and glucocorticoids (α-methylprednisolone) modify versican expression. To genetically reduce versican, female and male versican haploinsufficient (hdf) mice were bred resulting in male -hdf and (control) pups. Versican expression, contractile function, and pathology were evaluated in hindlimb muscles. Versican immunoreactivity was greater in slow versus fast hindlimb muscles. mRNA transcripts were reduced by α-methylprednisolone in soleus, but not in fast extensor digitorum longus, muscles. In juvenile (6-wk-old) -hdf mice, versican expression was most robustly decreased in soleus muscles leading to improved force output and a modest reduction in fatiguability. These functional benefits were not accompanied by decreased inflammation. Muscle architecture, regeneration markers, and fiber type also did not differ between -hdf mice and littermates. Improvements in soleus contractile function were not retained in adult (20-wk-old) -hdf mice. In conclusion, soleus muscles from juvenile mice were most responsive to pharmacological or genetic approaches targeting versican; however, the benefits of versican reduction were limited due to low fibrosis. Preclinical matrix research in dystrophy should account for muscle phenotype (including age) and the interdependence between inflammation and fibrosis. The proteoglycan versican is upregulated in muscular dystrophy. In fibrotic diaphragm muscles from mice, versican reduction attenuated macrophage infiltration and improved performance. Here, in hindlimb muscles from 6- and 20-wk-old mice, where pathology is mild, versican reduction did not decrease inflammation and contractile function improvements were limited to juvenile mice. In dystrophic muscles, the association between versican and inflammation is mediated by fibrosis, demonstrating interdependence between the immune system and extracellular matrix.
软骨黏蛋白在炎症和纤维化中增加,并在杜氏肌营养不良症中上调。在营养不良小鼠的纤维化膈肌肌肉中,软骨黏蛋白的遗传减少减弱了巨噬细胞浸润并改善了收缩功能。软骨黏蛋白也与肌发生有关。在这里,我们研究了软骨黏蛋白是否调节了后肢肌肉病理学,其中炎症和再生增加但纤维化最小。免疫组织化学和 qRT-PCR 用于评估纤维类型和糖皮质激素(α-甲基强的松龙)如何改变软骨黏蛋白的表达。为了降低软骨黏蛋白的表达,雌性和雄性软骨黏蛋白单倍不足(hdf)小鼠进行繁殖,导致雄性 -hdf 和 (对照)幼崽。在后肢肌肉中评估软骨黏蛋白表达、收缩功能和病理学。与快肌相比,慢肌中的软骨黏蛋白免疫反应性更强。α-甲基强的松龙在比目鱼肌中降低了 mRNA 转录本,但在快伸趾长肌中没有降低。在幼年(6 周龄)-hdf 小鼠中,软骨黏蛋白表达在比目鱼肌中最为显著降低,导致肌力输出增加,疲劳性略有降低。这些功能益处并没有伴随着炎症减少。肌肉结构、再生标志物和纤维类型在 -hdf 小鼠和 同窝仔鼠之间也没有差异。在成年(20 周龄)-hdf 小鼠中,不会保留比目鱼肌收缩功能的改善。总之,幼年 小鼠的比目鱼肌对针对软骨黏蛋白的药理学或遗传学方法最敏感;然而,由于纤维化程度低,软骨黏蛋白减少的益处有限。肌肉营养不良的临床前基质研究应考虑肌肉表型(包括年龄)以及炎症和纤维化之间的相互依存关系。 蛋白聚糖软骨黏蛋白在肌肉营养不良症中上调。在营养不良小鼠的纤维化膈肌肌肉中,软骨黏蛋白减少减弱了巨噬细胞浸润并改善了性能。在这里,在 6 周和 20 周龄 小鼠的后肢肌肉中,病理较轻,软骨黏蛋白减少并没有减少炎症,并且收缩功能的改善仅限于幼年小鼠。在营养不良的 肌肉中,软骨黏蛋白与炎症之间的关联是由纤维化介导的,这表明免疫系统和细胞外基质之间存在相互依存关系。
