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Lonafarnib Protects Against Muscle Atrophy Induced by Dexamethasone.

Muscle atrophy, including glucocorticoid-induced muscle wasting from treatments such as dexamethasone (DEX), results in significant reductions in muscle mass, strength and function. This study investigates the potential of lonafarnib, a farnesyltransferase inhibitor, to counteract DEX-induced muscle atrophy by targeting key signalling pathways.

We utilized inย vitro models with C2C12 myotubes treated with DEX and inย vivo models with Caenorhabditis elegans and DEX-treated Sprague-Dawley rats. Myotube morphology was assessed by measuring area, fusion index and diameter.

Muscle function was evaluated by grip strength and compound muscle action potential (CMAP) in the gastrocnemius (GC) and tibialis anterior (TA) muscles. Molecular mechanisms were explored through RNA sequencing and Western blotting to assess changes in mitochondrial function and muscle signalling pathways.

Lonafarnib (2โ€‰ฮผM) significantly improved myotube area (1.49โ€‰ยฑโ€‰0.14โ€‰ร—โ€‰10โ€‰ฮผm vs. 1.03โ€‰ยฑโ€‰0.49โ€‰ร—โ€‰10โ€‰ฮผm in DEX, pโ€‰<โ€‰0.05), fusion index (18.73โ€‰ยฑโ€‰1.23% vs. 13.3โ€‰ยฑโ€‰1.56% in DEX, pโ€‰<โ€‰0.05) and myotube diameter (31.89โ€‰ยฑโ€‰0.89โ€‰ฮผm vs. 21.56โ€‰ยฑโ€‰1.01โ€‰ฮผm in DEX, pโ€‰<โ€‰0.05) in C2C12 myotubes. In C.

elegans, lonafarnib (100โ€‰ฮผM) increased the pharyngeal pumping rate from 212โ€‰ยฑโ€‰7.21 contractions/min in controls to 308โ€‰ยฑโ€‰17.09 contractions/min at day 4 (pโ€‰<โ€‰0.05), indicating enhanced neuromuscular function. In DEX-induced atrophic rats, lonafarnib improved maximal grip strength (DEX: 13.91โ€‰ยฑโ€‰0.78โ€‰N vs. 1โ€‰ฮผM lonafarnib: 16.18โ€‰ยฑโ€‰0.84โ€‰N and 5โ€‰ฮผM lonafarnib: 16.71โ€‰ยฑโ€‰0.83โ€‰N, pโ€‰<โ€‰0.05), increased muscle weight in GC, and enhanced CMAP amplitudes in both GC and TA muscles.

Western blot analysis showed that lonafarnib treatment upregulated UCP3 and ANGPTL4 and increased phosphorylation of mTOR and S6 ribosomal protein (pโ€‰<โ€‰0.05), indicating enhanced mitochondrial function and protein synthesis. Knockdown models further demonstrated that lonafarnib could partially rescue muscle atrophy phenotypes, indicating its action through multiple molecular pathways.

Lonafarnib mitigates dexamethasone-induced muscle atrophy by enhancing mitochondrial function and activating anabolic pathways. These findings support further investigation of lonafarnib as a therapeutic agent for muscle atrophy in clinical settings.

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