CCDC78 : Unveiling the Function of a Novel Gene Associated with Hereditary Myopathy.

Autor:	Lopergolo, Diego, Gallus, Gian Nicola, Pieraccini, Giuseppe, Boscaro, Francesca, Berti, Gianna, Serni, Giovanni, Volpi, Nila, Formichi, Patrizia, Bianchi, Silvia, Cassandrini, Denise, Sorrentino, Vincenzo, Rossi, Daniela, Santorelli, Filippo Maria, De Stefano, Nicola, Malandrini, Alessandro
Předmět:	GENE expression MUSCLE proteins SARCOPLASMIC reticulum MESSENGER RNA NONSENSE mutation
Zdroj:	Cells (2073-4409); Sep2024, Vol. 13 Issue 17, p1504, 24p
Abstrakt:	CCDC78 was identified as a novel candidate gene for autosomal dominant centronuclear myopathy-4 (CNM4) approximately ten years ago. However, to date, only one family has been described, and the function of CCDC78 remains unclear. Here, we analyze for the first time a family harboring a CCDC78 nonsense mutation to better understand the role of CCDC78 in muscle. Methods: We conducted a comprehensive histopathological analysis on muscle biopsies, including immunofluorescent assays to detect multiple sarcoplasmic proteins. We examined CCDC78 transcripts and protein using WB in CCDC78-mutated muscle tissue; these analyses were also performed on muscle, lymphocytes, and fibroblasts from healthy subjects. Subsequently, we conducted RT-qPCR and transcriptome profiling through RNA-seq to evaluate changes in gene expression associated with CCDC78 dysfunction in muscle. Lastly, coimmunoprecipitation (Co-Ip) assays and mass spectrometry (LC-MS/MS) studies were carried out on extracted muscle proteins from both healthy and mutated subjects. Results: The histopathological features in muscle showed novel histological hallmarks, which included areas of dilated and swollen sarcoplasmic reticulum (SR). We provided evidence of nonsense-mediated mRNA decay (NMD), identified the presence of novel CCDC78 transcripts in muscle and lymphocytes, and identified 1035 muscular differentially expressed genes, including several involved in the SR. Through the Co-Ip assays and LC-MS/MS studies, we demonstrated that CCDC78 interacts with two key SR proteins: SERCA1 and CASQ1. We also observed interactions with MYH1, ACTN2, and ACTA1. Conclusions: Our findings provide insight, for the first time, into the interactors and possible role of CCDC78 in skeletal muscle, locating the protein in the SR. Furthermore, our data expand on the phenotype previously associated with CCDC78 mutations, indicating potential histopathological hallmarks of the disease in human muscle. Based on our data, we can consider CCDC78 as the causative gene for CNM4. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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