AI Article Synopsis
- Nuclear lamins are critical for maintaining nuclear structure and facilitating communication between the nucleus and cytoplasm, particularly in muscle cells.
- Mutations in lamins lead to a range of diseases known as laminopathies, including muscular dystrophies and progeria, which disrupt key cellular processes like autophagy and signaling pathways.
- The review discusses existing research on these disrupted pathways and considers potential therapies for treating lamin-related muscle disorders.
Article Abstract
Nuclear lamins, a type V intermediate filament, are crucial components of the nuclear envelope's inner layer, maintaining nuclear integrity and mediating interactions between the nucleus and cytoplasm. Research on human iPSC-derived cells and animal models has demonstrated the importance of lamins in cardiac and skeletal muscle development and function. Mutations in lamins result in laminopathies, a group of diseases including muscular dystrophies, Hutchison-Gilford progeria syndrome, and cardiomyopathies with conduction defects. These conditions have been linked to disrupted autophagy, mTOR, Nrf2-Keap, and proteostasis signaling pathways, indicating complex interactions between the nucleus and cytoplasm. Despite progress in understanding these pathways, many questions remain about the mechanisms driving lamin-induced pathologies, leading to limited therapeutic options. This review examines the current literature on dysregulated pathways in cardiac and skeletal muscle laminopathies and explores potential therapeutic strategies for these conditions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11354015 | PMC |
| http://dx.doi.org/10.3390/genes15081095 | DOI Listing |
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