(-)-Epicatechin modulates skeletal muscle inflammatory response in a mouse model of Limb-Girdle Muscular Dystrophy 2F

Skeletal muscle possesses remarkable regenerative capacity. However, in limb-girdle muscular dystrophy-2F (LGMD2F), this capacity is compromised by persistent innate immune activation, whose transcriptional landscape remains unexplored. In parallel, (-)-Epicatechin has emerged as a promising compound with beneficial effects on muscle and notable anti-inflammatory properties. We therefore used (-)-Epicatechin treatment to test whether it can alleviate LGMD2F-associated transcriptional and immune dysregulation. Here we provide the first transcriptomic characterization of LGMD2F using the Sgcd ^⁻/⁻ mouse model, along with the first RNA-sequencing-based evaluation of (-)-Epicatechin treatment. We profiled two functionally distinct muscles — the soleus and EDL — through bulk RNA-sequencing coupled with immune cell-deconvolution. Sgcd ^⁻/⁻ muscles exhibited marked transcriptional dysregulation, more pronounced in the soleus and associated with enhanced innate immune signaling. (-)-Epicatechin induced a muscle- and genotype-dependent transcriptional response: in wild-type animals, the EDL displayed the highest number of differentially expressed transcripts, whereas in Sgcd ^⁻/⁻ mice, the soleus showed the most prominent response. This shift was accompanied by downregulation of Toll-like receptor and RIG-I-like receptor pathways, along with suppression of NF-κB2 and interferon-stimulated genes. Together, these findings identify innate immune overactivation as a central feature of LGMD2F and reveal (-)-Epicatechin as a context-dependent modulator of muscle-specific transcriptional responses.