Witkowska-Piłaszewicz Olga, Nowicka-Kazmierczak Małgorzata, Pietrzak Patrycja, Marycz Krzysztof
Department of Large Animals Diseases and Clinic, Institute of Veterinary Medicine, Warsaw University of Life Sciences, Nowoursynowska 166, Warsaw, 02- 787, Poland.
International Institute of Translational Medicine (MIMT), ul. Jesionowa 11, Malin Wisznia Mała, 55-114, Poland.
Stem Cell Rev Rep. 2025 Sep 3. doi: 10.1007/s12015-025-10959-9.
Skeletal muscle satellite cells ( SCs), essential for muscle regeneration, are a valuable model for studying exercise-induced stress relevant to human athletes. This study examined the effects of two natural compounds-chlorogenic acid (CGA) and isovanillic acid 3-O-sulfate (IVAS)-increasingly recognized as components of modern, nature-based recovery strategies. Their combination (Hybrid) was also tested on equine model of skeletal muscle satellite cells (ESCs) exposed to heat shock (40 °C, 1 h), mimicking exercise stress. Cells were treated with CGA (0.005%), IVAS (0.0005%), or both for 24 h post-stress. Cell viability (MTS), mitochondrial membrane potential, apoptosis (Annexin V/7-AAD), nitric oxide (NO) production, and gene expression (RT-qPCR) were assessed. CGA significantly improved viability under both normothermia and heat stress (216-227%, p < 0.05), while IVAS was effective only without stress. Only the Hybrid group maintained elongated morphology post-heat shock. CGA increased NO levels (p < 0.05), with no effect from IVAS or Hybrid. Antioxidant gene expression remained unchanged, but proinflammatory cytokines IL-6 and IL-1β were upregulated in the Hybrid group (2.74- and 5.64-fold, p < 0.01), suggesting a controlled, adaptive immune response. Early apoptosis rose in CGA and Hybrid groups (~ 34%, p < 0.05), but total cell death was lowest in the Hybrid group (6.26%). BCL2 was downregulated (p < 0.05), while BAX increased only in the Hybrid group (8.14-fold, p < 0.01). Mitochondrial genes MFN2, TFAM, and PUSL1 were significantly upregulated in the Hybrid group; MIRO1 expression increased in all treated groups. CGA and IVAS synergistically promote mitochondrial stability and ESC survival via mitochondrial activation and inflammation regulation-supporting the growing trend of using natural compounds in muscle recovery strategies.
骨骼肌卫星细胞(SCs)对肌肉再生至关重要,是研究与人类运动员相关的运动诱导应激的宝贵模型。本研究考察了两种天然化合物——绿原酸(CGA)和异香草酸3 - O - 硫酸盐(IVAS)——的作用,它们越来越被认为是现代基于自然的恢复策略的组成部分。还在暴露于热休克(40°C,1小时)的马骨骼肌卫星细胞(ESCs)模型上测试了它们的组合(Hybrid),以模拟运动应激。应激后,用CGA(0.005%)、IVAS(0.0005%)或两者处理细胞24小时。评估细胞活力(MTS)、线粒体膜电位、细胞凋亡(膜联蛋白V/7 - AAD)、一氧化氮(NO)产生和基因表达(RT - qPCR)。CGA在正常体温和热应激下均显著提高了细胞活力(216 - 227%,p < 0.05),而IVAS仅在无应激时有效。只有Hybrid组在热休克后保持伸长形态。CGA增加了NO水平(p < 0.05),IVAS或Hybrid组无此作用。抗氧化基因表达未改变,但Hybrid组中促炎细胞因子IL - 6和IL - 1β上调(2.74倍和5.64倍,p < 0.01),表明存在可控的适应性免疫反应。CGA组和Hybrid组早期凋亡增加(约34%,p < 0.05),但Hybrid组总细胞死亡最低(6.26%)。BCL2下调(p < 0.05),而BAX仅在Hybrid组增加(8.14倍,p < 0.01)。Hybrid组中线粒体基因MFN2、TFAM和PUSL1显著上调;所有处理组中MIRO1表达均增加。CGA和IVAS通过线粒体激活和炎症调节协同促进线粒体稳定性和ESCs存活,支持在肌肉恢复策略中使用天然化合物的发展趋势。
