Proteomic Profiling of Hindlimb Skeletal Muscle Disuse in a Murine Model of Sepsis.

Q4 Medicine Critical care explorations Pub Date : 2024-08-20 eCollection Date: 2024-08-01 DOI:10.1097/CCE.0000000000001144
Franccesco P Boeno, Luiz Fernando W Roesch, Philip A Efron, Orlando Laitano
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Abstract

Context: Sepsis leads to multiple organ dysfunction and negatively impacts patient outcomes. Skeletal muscle disuse is a significant comorbidity in septic patients during their ICU stay due to prolonged immobilization.

Hypothesis: Combination of sepsis and muscle disuse will promote a unique proteomic signature in skeletal muscle in comparison to disuse and sepsis separately.

Methods and models: Following cecal ligation and puncture (CLP) or Sham surgeries, mice were subjected to hindlimb suspension (HLS) or maintained normal ambulation (NA). Tibialis anterior muscles from 24 C57BL6/J male mice were harvested for proteomic analysis. Proteomic profiles were assessed using nano-liquid chromatography with tandem mass spectrometry, followed by data analysis including Partial Least Squares Discriminant Analysis (PLS-DA), to compare the differential protein expression across groups.

Results: A total of 2876 differentially expressed proteins were identified, with marked differences between groups. In mice subjected to CLP and HLS combined, there was a distinctive proteomic signature characterized by a significant decrease in the expression of proteins involved in mitochondrial function and muscle metabolism, alongside a marked increase in proteins related to muscle degradation pathways. The PLS-DA demonstrated a clear separation among experimental groups, highlighting the unique profile of the CLP/HLS group. This suggests an important interaction between sepsis-induced inflammation and disuse atrophy mechanisms in sepsis-induced myopathy.

Interpretations and conclusions: Our findings reveal a complex proteomic landscape in skeletal muscle exposed to sepsis and disuse, consistent with an exacerbation of muscle protein degradation under these combined stressors. The identified proteins and their roles in cellular stress responses and muscle pathology provide potential targets for intervention to mitigate muscle dysfunction in septic conditions, highlighting the importance of addressing both sepsis and disuse concurrently in clinical and experimental settings.

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脓毒症小鼠模型后肢骨骼肌废用的蛋白质组剖析
背景:败血症会导致多器官功能障碍,并对患者的预后产生负面影响。脓毒症患者在重症监护室住院期间,由于长期固定不动,骨骼肌废用症是一个重要的合并症:假说:脓毒症和肌肉废用症的结合将促进骨骼肌中独特的蛋白质组特征,而废用症和脓毒症的结合则会导致骨骼肌中独特的蛋白质组特征:方法和模型:在小鼠进行盲肠结扎和穿刺(CLP)或Sham手术后,对小鼠进行后肢悬吊(HLS)或保持正常行走(NA)。采集 24 只 C57BL6/J 雄性小鼠的胫骨前肌进行蛋白质组分析。采用纳米液相色谱-串联质谱法评估蛋白质组概况,然后进行数据分析,包括偏最小二乘法判别分析(PLS-DA),以比较不同组间蛋白质表达的差异:结果:共鉴定出 2876 个差异表达蛋白,不同组间差异明显。在合并使用中氯磷酸酶和高氯磷酸酶的小鼠中,有一种独特的蛋白质组特征,其特点是参与线粒体功能和肌肉代谢的蛋白质表达显著减少,而与肌肉降解途径相关的蛋白质则明显增加。PLS-DA显示了实验组之间的明显分离,突出了CLP/HLS组的独特特征。这表明在脓毒症诱发的肌病中,脓毒症诱发的炎症和废用性萎缩机制之间存在重要的相互作用:我们的研究结果揭示了骨骼肌在脓毒症和废用性萎缩作用下的复杂蛋白质组图谱,这与在这些综合压力下肌肉蛋白质降解加剧是一致的。已确定的蛋白质及其在细胞应激反应和肌肉病理学中的作用为减轻脓毒症条件下的肌肉功能障碍提供了潜在的干预目标,突出了在临床和实验环境中同时解决脓毒症和废用问题的重要性。
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