Akademik Veri Yönetim Sistemi
TURKISH JOURNAL OF BIOCHEMISTRY-TURK BIYOKIMYA DERGISI, cilt.49, sa.2, ss.244-251, 2024 (SCI-Expanded)
Objectives :The ultra-rare DES c.1289-2A>G mutation, resulting in a 48-base pair insertion in the Desmin tail domain, is associated with late-onset MFM1 (myofibrillar myopathy-1; OMIM number; 601419) and exhibits distinctive pathological features. Despite sustained expression and cytoskeletal integrity, muscle biopsies reveal dystrophic characteristics through an unidentified mechanism. A deeper understanding of the molecular mechanisms underlying Desmin-related MFM1 could enhance our perspective and comprehension of the disease's pathophysiology. In this study, we aimed to investigate the pathological phenotype by assessing the myogenic potency of MyoD-induced patient-derived fibroblasts. Methods: Following the immortalization and myoconversion of unaffected and patient-derived fibroblast cells, we analyzed the myogenic potency of the mutant and control groups on day 5 post-differentiation. This analysis involved staining cells with MF20 antibody and DAPI after MyoD induction. Results: Employing six parameters to quantify extra nuclei and myotube properties, we unveil impaired myogenic differentiation in c.1289-2A>G mutant cells, as evidenced by a compromised fusion index and distinctive myogenic features. In summary, our preliminary findings indicate phenotypic abnormalities and suggest an association between the DES c.1289-2A>G mutation and delayed maturation and MFM in affected individuals. Conclusions :Our results indicate a significant involvement of Desmin in the myogenic maturation of muscle cells. Further investigation is required to understand the changes in the transcriptome during the myoconversion of patient-derived fibroblasts.