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DAB2 in LGMD R2: a molecular link between disease progression and lipid dysregulation
Celine Bruge, Nathalie Bourg, Emilie Pellier, Quentin Miagoux, Manon Benabides, Noella Grossi, Hassan Hayat, Margot Jarrige, Helene Polveche, Valeria Agostini, Anthony Brureau, Stephane Vassilopoulos, Teresinha Evangelista, Gorka Fernández-Eulate, Tanya Stojkovic, Isabelle Richard, Xavier Nissan
Celine Bruge, Nathalie Bourg, Emilie Pellier, Quentin Miagoux, Manon Benabides, Noella Grossi, Hassan Hayat, Margot Jarrige, Helene Polveche, Valeria Agostini, Anthony Brureau, Stephane Vassilopoulos, Teresinha Evangelista, Gorka Fernández-Eulate, Tanya Stojkovic, Isabelle Richard, Xavier Nissan
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Research Article Cell biology Muscle biology

DAB2 in LGMD R2: a molecular link between disease progression and lipid dysregulation

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Abstract

Limb-girdle muscular dystrophy R2 (LGMD R2) is an autosomal recessive disorder caused by dysferlin deficiency, leading to progressive muscle weakness and wasting. The lack of reliable clinical biomarkers has limited disease monitoring and therapeutic evaluation. Here, we identified Disabled-2 (DAB2) as a molecular and clinical indicator of disease state in LGMD R2. Transcriptomic profiling revealed a significant upregulation of DAB2 in induced pluripotent stem cell–derived (iPSC-derived) myotubes from patients, a finding validated in muscle biopsies from 14 dysferlin-deficient individuals and in dysferlin-deficient Bla/J mice, where DAB2 levels increased with disease progression. Importantly, AAV-mediated expression of full-length dysferlin restored DAB2 levels, supporting its value as a dynamic readout of disease activity for both disease monitoring and therapeutic response. Given the established role of DAB2 in clathrin-mediated endocytosis, particularly in LDL receptor internalization and cholesterol homeostasis, and the pathological lipid accumulation reported in LGMD R2, we investigated its contribution to lipid dysregulation. High DAB2 expression paralleled lipid deposition in patient muscles, iPSC-derived myotubes, and mouse tissue, whereas siRNA-mediated DAB2 knockdown reduced lipid accumulation in LGMD R2 myotubes. Collectively, these findings suggest that DAB2 functions as a mechanistic link between dysferlin deficiency, altered lipid handling, and disease severity, and they highlight its potential as a prognostic marker and therapeutic response measure for LGMD R2.

Authors

Celine Bruge, Nathalie Bourg, Emilie Pellier, Quentin Miagoux, Manon Benabides, Noella Grossi, Hassan Hayat, Margot Jarrige, Helene Polveche, Valeria Agostini, Anthony Brureau, Stephane Vassilopoulos, Teresinha Evangelista, Gorka Fernández-Eulate, Tanya Stojkovic, Isabelle Richard, Xavier Nissan

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Figure 2

Transcriptomic profiling reveals altered gene expression signatures in LGMD R2 hiPSC-derived myotubes.

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Transcriptomic profiling reveals altered gene expression signatures in L...
(A) Hierarchical clustering of differentially expressed genes detected in LGMD R2 myotubes compared with controls. Gene expression is color-coded from blue (downregulated) to pink (upregulated). (B) Volcano plot representation of differential gene expression analysis between myotubes derived from 3 control and 3 LGMD R2 hiPSC lines. Downregulated (blue) and upregulated (pink) genes in LGMD R2 myotubes are highlighted. Vertical dashed lines indicate |log2FoldChange|threshold ≥ 0.4, and the horizontal dashed line represents a FDR ≤ 0.05. (C and D) Enriched gene ontology (GO) terms obtained by overrepresentation analysis (ORA) of upregulated genes in LGMD R2 myotubes compared with controls. Each pathway has an adjusted P value of 0.0995. (C) Dot plots show the 6 GO terms shared by at least 3 genes. (D) Cnetplot of the 5 biological processes most significantly shared among GO terms. Bubble size represents the number of enriched genes. DAB2 is highlighted in pink.

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ISSN 2379-3708

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