An alternative mechanism for skeletal muscle dysfunction in long-term post-viral lung disease.
Ryan A MartinShamus P KeelerKangyun WuWilliam J ShearonDevin PatelMy HoangChristy M HoffmannMichael E HughesMichael J HoltzmanPublished in: bioRxiv : the preprint server for biology (2022)
Chronic lung disease is often accompanied by disabling extrapulmonary symptoms, notably skeletal muscle dysfunction and atrophy. Moreover, the severity of respiratory symptoms correlates with decreased muscle mass and in turn lowered physical activity and survival rates. Previous models of muscle atrophy in chronic lung disease often modeled COPD and relied on cigarette smoke exposure and LPS-stimulation, but these conditions independently affect skeletal muscle even without accompanying lung disease. Moreover, there is an emerging and pressing need to understand the extrapulmonary manifestations of long-term post-viral lung disease (PVLD) as found in Covid-19. Here, we examine the development of skeletal muscle dysfunction in the setting of chronic pulmonary disease using a mouse model of PVLD caused by infection due to the natural pathogen Sendai virus. We identify a significant decrease in myofiber size when PVLD is maximal at 49 d after infection. We find no change in the relative types of myofibers, but the greatest decrease in fiber size is localized to fast-twitch type IIB myofibers based on myosin heavy chain immunostaining. Remarkably, all biomarkers of myocyte protein synthesis and degradation (total RNA, ribosomal abundance, and ubiquitin-proteasome expression) were stable throughout the acute infectious illness and chronic post-viral disease process. Together, the results demonstrate a distinct pattern of skeletal muscle dysfunction in a mouse model of long-term PVLD. The findings thereby provide new insight into prolonged limitations in exercise capacity in patients with chronic lung disease after viral infections and perhaps other types of lung injury.
Keyphrases
- skeletal muscle
- sars cov
- mouse model
- insulin resistance
- physical activity
- oxidative stress
- coronavirus disease
- drug induced
- poor prognosis
- inflammatory response
- chronic obstructive pulmonary disease
- pulmonary hypertension
- high intensity
- metabolic syndrome
- liver failure
- body mass index
- small molecule
- long non coding rna
- candida albicans
- depressive symptoms
- body composition
- sensitive detection
- adipose tissue
- mechanical ventilation
- antibiotic resistance genes
- quantum dots
- aortic dissection