Comprehensive functional characterization of SGCB coding variants predicts pathogenicity in limb-girdle muscular dystrophy type R4/2E
Chengcheng Li, … , Conrad C. Weihl, Gabe Haller
Chengcheng Li, … , Conrad C. Weihl, Gabe Haller
Published June 15, 2023
Citation Information: J Clin Invest. 2023;133(12):e168156. https://doi.org/10.1172/JCI168156.
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Research Article Genetics Muscle biology

Comprehensive functional characterization of SGCB coding variants predicts pathogenicity in limb-girdle muscular dystrophy type R4/2E

Abstract

Genetic testing is essential for patients with a suspected hereditary myopathy. More than 50% of patients clinically diagnosed with a myopathy carry a variant of unknown significance in a myopathy gene, often leaving them without a genetic diagnosis. Limb-girdle muscular dystrophy (LGMD) type R4/2E is caused by mutations in β-sarcoglycan (SGCB). Together, β-, α-, γ-, and δ-sarcoglycan form a 4-protein transmembrane complex (SGC) that localizes to the sarcolemma. Biallelic loss-of-function mutations in any subunit can lead to LGMD. To provide functional evidence for the pathogenicity of missense variants, we performed deep mutational scanning of SGCB and assessed SGC cell surface localization for all 6,340 possible amino acid changes. Variant functional scores were bimodally distributed and perfectly predicted pathogenicity of known variants. Variants with less severe functional scores more often appeared in patients with slower disease progression, implying a relationship between variant function and disease severity. Amino acid positions intolerant to variation mapped to points of predicted SGC interactions, validated in silico structural models, and enabled accurate prediction of pathogenic variants in other SGC genes. These results will be useful for clinical interpretation of SGCB variants and improving diagnosis of LGMD; we hope they enable wider use of potentially life-saving gene therapy.

Authors

Chengcheng Li, Jackson Wilborn, Sara Pittman, Jil Daw, Jorge Alonso-Pérez, Jordi Díaz-Manera, Conrad C. Weihl, Gabe Haller

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Figure 2

Functional effect map of SGCB.

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Functional effect map of SGCB. (A) α Helices (green) and β sheets (orang...
(A) α Helices (green) and β sheets (orange) as predicted from the AlphaFold2 multimer model of SGCB modeled with SGCA, SGCG, and SGCD. Functional score biological replicate median values for each amino acid change are displayed as a heatmap. Scores range from damaging (red) to benign variants (blue). Missing or low confidence data are shown in yellow. Synonymous changes are bounded in black boxes. Average HA functional score (constraint score) per position (318 amino acids) is shown below as a heatmap with each row being a different amino acid substitution labeled with the amino acid abbreviation (i.e., lysine = K). (B) Histogram of HA functional scores demonstrate a bimodal distribution with synonymous variants (blue) showing a narrow range of scores around 1 (i.e., enriched in HA bin 4). (C) Correlation among biological replicates of HA-stained ADG-HEK cells transduced with SGCB libraries (libraries A–F are included) and ClinVar pathogenic variants (red), benign variants (green), and synonymous variants (yellow) highlighted.