Wilbert P Vermeij, Khalid Alyodawi, Ivar van Galen, Jennie L von der Heide, María B Birkisdóttir, Lisanne J Van't Sant, Rutger A Ozinga, Daphne S J Komninos, Kimberly Smit, Yvonne M A Rijksen, Renata M C Brandt, Sander Barnhoorn, Dick Jaarsma, Sathivel Vaiyapuri, Olli Ritvos, Tobias B Huber, Oliver Kretz, Ketan Patel
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DR temporarily suppresses growth, and when applied to progeroid DNA repair-deficient mice doubles lifespan with systemic health benefits. Counterintuitively, attenuation of myostatin/activin signalling by soluble activin receptor (sActRIIB), boosts the growth of muscle and, in these animals, prevents muscle wasting, improves kidney functioning, and compresses morbidity.</p><p><strong>Methods: </strong>Here, we investigated a combined approach, applying an anabolic regime (sActRIIB) at the same time as DR to Ercc1<sup>Δ/-</sup> progeroid mice. 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Single interventions by sActRIIB treatment or DR only partially rescued this phenotype, while in the double intervention group, the regularly shaped junctional foldings were maintained. In kidney of Ercc1<sup>Δ/-</sup> mice, we observed a mild but significant foot process effacement, which was restored by either intervention. Transcriptome analysis also pointed towards reduced levels of DNA damage in muscle and kidney by DR, but not sActRIIB, while these levels retained lower in the double intervention.</p><p><strong>Conclusions: </strong>In muscle, we found synergistic effects of combining sActRIIB with DR, but not in kidney, with an overall better health in the double intervention group. 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引用次数: 0
摘要
背景:衰老是一个复杂的多因素过程,影响到所有器官和组织,而 DNA 损伤积累是一个共同的根本原因。为了延缓衰老,人们在模式生物中应用了各种策略,并评估了这些策略对健康和寿命的益处。饮食限制(DR,又称热量限制)是一种行之有效的长期干预措施,因其普遍的抗衰老效果而得到认可。DR 可暂时抑制生长,应用于早衰 DNA 修复缺陷小鼠时,可使寿命延长一倍,并对全身健康有益。与直觉相反,可溶性激活素受体(sActRIIB)可抑制肌生长蛋白/激活素信号,促进肌肉生长,并在这些动物中防止肌肉萎缩、改善肾功能和降低发病率。方法:在此,我们研究了一种综合方法,即在对 Ercc1Δ/- 类早衰小鼠进行 DR 治疗的同时应用合成代谢机制(sActRIIB)。在单一治疗和联合治疗后,我们监测了对体重、寿命和行为的整体影响,以及对肌肉和组织重量、肌肉形态和功能、肌肉和肾脏超微结构和转录组变化的局部影响:寿命主要受DR的影响(从大约20周延长到40周;P Δ/-小鼠表现出异常的神经肌肉接头。sActRIIB 处理或 DR 的单次干预只能部分缓解这种表型,而在双重干预组中,规则形状的连接皱褶得以保持。在 Ercc1Δ/- 小鼠的肾脏中,我们观察到了轻微但显著的足突脱出现象,无论采用哪种干预方法,这种现象都能得到恢复。转录组分析还表明,DR降低了肌肉和肾脏中的DNA损伤水平,但sActRIIB没有降低,而这些水平在双重干预中保持较低水平:在肌肉中,我们发现了 sActRIIB 与 DR 的协同作用,但在肾脏中却没有发现,双重干预组的总体健康状况更好。最重要的是,每种单一干预措施的益处在联合应用时不仅没有丧失,反而得到了加强,即使是在生命晚期应用 sActRIIB 也是如此,这为向人类转化提供了机会。
Improved health by combining dietary restriction and promoting muscle growth in DNA repair-deficient progeroid mice.
Background: Ageing is a complex multifactorial process, impacting all organs and tissues, with DNA damage accumulation serving as a common underlying cause. To decelerate ageing, various strategies have been applied to model organisms and evaluated for health and lifespan benefits. Dietary restriction (DR, also known as caloric restriction) is a well-established long-term intervention recognized for its universal anti-ageing effects. DR temporarily suppresses growth, and when applied to progeroid DNA repair-deficient mice doubles lifespan with systemic health benefits. Counterintuitively, attenuation of myostatin/activin signalling by soluble activin receptor (sActRIIB), boosts the growth of muscle and, in these animals, prevents muscle wasting, improves kidney functioning, and compresses morbidity.
Methods: Here, we investigated a combined approach, applying an anabolic regime (sActRIIB) at the same time as DR to Ercc1Δ/- progeroid mice. Following both single treatments and combined, we monitored global effects on body weight, lifespan and behaviour, and local effects on muscle and tissue weight, muscle morphology and function, and ultrastructural and transcriptomic changes in muscle and kidney.
Results: Lifespan was mostly influenced by DR (extended from approximately 20 to 40 weeks; P < 0.001), with sActRIIB clearly increasing muscle mass (35-65%) and tetanic force (P < 0.001). The combined regime yielded a stable uniform body weight, but increased compared with DR alone, synergistically improved motor coordination and further delayed the onset and development of balance problems. sActRIIB significantly increased muscle fibre size (P < 0.05) in mice subjected to DR and lowered all signs of muscle damage. Ercc1Δ/- mice showed abnormal neuromuscular junctions. Single interventions by sActRIIB treatment or DR only partially rescued this phenotype, while in the double intervention group, the regularly shaped junctional foldings were maintained. In kidney of Ercc1Δ/- mice, we observed a mild but significant foot process effacement, which was restored by either intervention. Transcriptome analysis also pointed towards reduced levels of DNA damage in muscle and kidney by DR, but not sActRIIB, while these levels retained lower in the double intervention.
Conclusions: In muscle, we found synergistic effects of combining sActRIIB with DR, but not in kidney, with an overall better health in the double intervention group. Crucially, the benefits of each single intervention are not lost when administered in combination, but rather strengthened, even when sActRIIB was applied late in life, opening opportunities for translation to human.
期刊介绍:
The Journal of Cachexia, Sarcopenia, and Muscle is a prestigious, peer-reviewed international publication committed to disseminating research and clinical insights pertaining to cachexia, sarcopenia, body composition, and the physiological and pathophysiological alterations occurring throughout the lifespan and in various illnesses across the spectrum of life sciences. This journal serves as a valuable resource for physicians, biochemists, biologists, dieticians, pharmacologists, and students alike.