Zebrafish as a Human Muscle Model for Studying Age-Dependent Sarcopenia and Frailty.
Paula Aranda MartínezRamy K A SayedJosé Fernández-MartínezYolanda Ramírez-CasasYang YangGermaine EscamesDario Acuna-CastroviejoPublished in: International journal of molecular sciences (2024)
Currently, there is an increase in the aging of the population, which represents a risk factor for many diseases, including sarcopenia. Sarcopenia involves progressive loss of mass, strength, and function of the skeletal muscle. Some mechanisms include alterations in muscle structure, reduced regenerative capacity, oxidative stress, mitochondrial dysfunction, and inflammation. The zebrafish has emerged as a new model for studying skeletal muscle aging because of its numerous advantages, including histological and molecular similarity to human skeletal muscle. In this study, we used fish of 2, 10, 30, and 60 months of age. The older fish showed a higher frailty index with a value of 0.250 ± 0.000 because of reduced locomotor activity and alterations in biometric measurements. We observed changes in muscle structure with a decreased number of myocytes (0.031 myocytes/μm 2 ± 0.004 at 60 months) and an increase in collagen with aging up to 15% ± 1.639 in the 60-month group, corresponding to alterations in the synthesis, degradation, and differentiation pathways. These changes were accompanied by mitochondrial alterations, such as a nearly 50% reduction in the number of intermyofibrillar mitochondria, 100% mitochondrial damage, and reduced mitochondrial dynamics. Overall, we demonstrated a similarity in the aging processes of muscle aging between zebrafish and mammals.
Keyphrases
- skeletal muscle
- oxidative stress
- insulin resistance
- endothelial cells
- community dwelling
- stem cells
- ischemia reperfusion injury
- dna damage
- induced apoptosis
- mesenchymal stem cells
- multiple sclerosis
- spinal cord injury
- type diabetes
- cell therapy
- cell death
- metabolic syndrome
- pluripotent stem cells
- bone marrow
- heat stress