Bellar Annette, Kumar Avinash, Chandramohan Khaviyaa, Mishra Saurabh, Alsabbagh-Alchirazi Muaz, Astafev Artem, Kannan Pugazhendhi, Attaway Amy, Kondratov Roman, Jaramillo Thomas, Mishra Lopa, Kasumov Takhar, Welch Nicole, Dasarathy Srinivasan
Department of Inflammation and Immunity, Lerner Research Institute Cleveland Clinic, Cleveland, Ohio, USA.
Department of Gastroenterology and Human Nutrition, All India Institute of Medical Sciences, New Delhi, India.
J Cachexia Sarcopenia Muscle. 2025 Aug;16(4):e70031. doi: 10.1002/jcsm.70031.
Voluntary exercise improves clinical outcomes in healthy subjects, but increased muscle ammoniagenesis may limit beneficial responses during hyperammonaemia in chronic diseases. Responses to 4-weeks voluntary wheel running (VWR) were compared with usual activity (UA) to determine if hyperammonaemia alters VWR responses and if VWR alters muscle responses to hyperammonaemia.
Eight- to 10-week-old male C57BL/6J mice were treated with 6 weeks of subcutaneous infusion of 2.5 mmol kg day ammonium acetate (AmAc) or vehicle (PBS) via an osmotic pump. Two weeks after the start of infusion, mice were assigned to the intervention (VWR or UA). Wheel runs were measured, and weekly average rotations, distance, and circadian patterns were analysed. Indirect calorimetry was performed pre- and post-intervention. Mice were euthanized 4 weeks after the start of VWR/UA, and organs (including muscles) were harvested, weighed, and muscle histomorphometry performed for fibre diameter/type. Protein synthesis by ex vivo puromycin incorporation, autophagy markers, expression of signalling proteins (mTORC1 pathway, eukaryotic initiation factor-2-α phosphorylation), and ammonia disposal enzymes were quantified by immunoblots. Mitochondrial oxidative function was measured by high-sensitivity respirofluorometry using substrate, uncoupler, inhibitor, and titration protocols. Fluorometric assays were done for ammonia measurements.
Gastrocnemius muscle mass (p < 0.01), muscle fibre area (p < 0.01), and grip strength were lower in AmAc-UA than in PBS-UA mice and higher with VWR than UA in AmAc mice (p < 0.001). Expression of electron transport chain proteins and some components of mitochondrial oxidative function were less (p < 0.05 or less) in AmAc-UA than PBS-UA, and these perturbations were reversed in the AmAc-VWR mice (p < 0.05 or less). Global muscle protein synthesis (p < 0.05) and components of the mTORC1 pathway expression (p < 0.05) were higher, while myostatin expression was lower with VWR than UA in AmAc mice (p < 0.05). Expression of autophagy markers P62 and LC3-II was not different with VWR or UA in AmAc mice, while Beclin1 was higher in VWR compared with UA, regardless of treatment group (p < 0.001). Expression of muscle ammonia disposal pathway enzymes, including glutamate dehydrogenase and pyrroline-5-carboxylate synthase, was higher (p ≤ 0.05) in AmAc-UA versus PBS-UA and increased in only PBS-VWR mice (p < 0.05).
VWR reverses hyperammonaemia-induced sarcopenia, protein synthesis/autophagy signalling perturbations, and mitochondrial oxidative dysfunction. Muscle mass, grip strength, signalling, and mitochondrial responses to VWR were not affected by hyperammonaemia. Increased expression of enzymes involved in the ammonia disposal pathway in skeletal muscle may be an adaptive response to hyperammonaemia. These data provide the rationale for exercise programmes in chronic diseases, including cirrhosis, even with hyperammonaemia.
自愿运动可改善健康受试者的临床结局,但在慢性疾病的高氨血症期间,肌肉氨生成增加可能会限制有益反应。将4周自愿轮转跑步(VWR)与日常活动(UA)的反应进行比较,以确定高氨血症是否会改变VWR反应,以及VWR是否会改变肌肉对高氨血症的反应。
8至10周龄的雄性C57BL/6J小鼠通过渗透泵皮下输注2.5 mmol·kg·天的醋酸铵(AmAc)或载体(PBS)6周。输注开始两周后,将小鼠分配至干预组(VWR或UA)。测量轮转跑步情况,并分析每周平均旋转次数、距离和昼夜节律模式。在干预前后进行间接测热法。在VWR/UA开始4周后对小鼠实施安乐死,并采集器官(包括肌肉),称重,并对肌肉进行纤维直径/类型的组织形态计量学分析。通过体外嘌呤霉素掺入法测定蛋白质合成,通过免疫印迹法对自噬标志物、信号蛋白(mTORC1途径、真核起始因子-2-α磷酸化)的表达以及氨代谢酶进行定量。使用底物、解偶联剂、抑制剂和滴定方案,通过高灵敏度呼吸荧光测定法测量线粒体氧化功能。采用荧光测定法进行氨测量。
与PBS-UA小鼠相比,AmAc-UA小鼠的腓肠肌质量(p<0.01)、肌纤维面积(p<0.01)和握力较低,而在AmAc小鼠中,VWR组的这些指标高于UA组(p<0.001)。与PBS-UA相比,AmAc-UA中电子传递链蛋白的表达和线粒体氧化功能的一些成分较少(p<0.05或更低),而这些扰动在AmAc-VWR小鼠中得到逆转(p<0.05或更低)。在AmAc小鼠中,VWR组的整体肌肉蛋白质合成(p<0.05)和mTORC1途径表达成分(p<0.05)较高,而肌生长抑制素表达低于UA组(p<0.05)。在AmAc小鼠中,VWR或UA组的自噬标志物P62和LC3-II的表达无差异,而无论治疗组如何,VWR组的Beclin1表达均高于UA组(p<0.001)。与PBS-UA相比,AmAc-UA中肌肉氨代谢途径酶(包括谷氨酸脱氢酶和吡咯啉-5-羧酸合酶)的表达较高(p≤0.05),且仅在PBS-VWR小鼠中增加(p<0.05)。
VWR可逆转高氨血症诱导的肌肉减少症、蛋白质合成/自噬信号扰动以及线粒体氧化功能障碍。高氨血症不影响肌肉质量、握力、信号传导以及肌肉对VWR的反应。骨骼肌中参与氨代谢途径的酶表达增加可能是对高氨血症的一种适应性反应。这些数据为包括肝硬化在内的慢性疾病的运动计划提供了理论依据,即使存在高氨血症。
