ORAI1 inhibition as an efficient preclinical therapy for tubular aggregate myopathy and Stormorken syndrome
Roberto Silva-Rojas, … , Jocelyn Laporte, Johann Böhm
Roberto Silva-Rojas, … , Jocelyn Laporte, Johann Böhm
Published March 22, 2024
Citation Information: JCI Insight. 2024;9(6):e174866. https://doi.org/10.1172/jci.insight.174866.
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Research Article Muscle biology Therapeutics

ORAI1 inhibition as an efficient preclinical therapy for tubular aggregate myopathy and Stormorken syndrome

Abstract

Tubular aggregate myopathy (TAM) and Stormorken syndrome (STRMK) are clinically overlapping disorders characterized by childhood-onset muscle weakness and a variable occurrence of multisystemic signs, including short stature, thrombocytopenia, and hyposplenism. TAM/STRMK is caused by gain-of-function mutations in the Ca2+ sensor STIM1 or the Ca2+ channel ORAI1, both of which regulate Ca2+ homeostasis through the ubiquitous store-operated Ca2+ entry (SOCE) mechanism. Functional experiments in cells have demonstrated that the TAM/STRMK mutations induce SOCE overactivation, resulting in excessive influx of extracellular Ca2+. There is currently no treatment for TAM/STRMK, but SOCE is amenable to manipulation. Here, we crossed Stim1R304W/+ mice harboring the most common TAM/STRMK mutation with Orai1R93W/+ mice carrying an ORAI1 mutation partially obstructing Ca2+ influx. Compared with Stim1R304W/+ littermates, Stim1R304W/+Orai1R93W/+ offspring showed a normalization of bone architecture, spleen histology, and muscle morphology; an increase of thrombocytes; and improved muscle contraction and relaxation kinetics. Accordingly, comparative RNA-Seq detected more than 1,200 dysregulated genes in Stim1R304W/+ muscle and revealed a major restoration of gene expression in Stim1R304W/+Orai1R93W/+ mice. Altogether, we provide physiological, morphological, functional, and molecular data highlighting the therapeutic potential of ORAI1 inhibition to rescue the multisystemic TAM/STRMK signs, and we identified myostatin as a promising biomarker for TAM/STRMK in humans and mice.

Authors

Roberto Silva-Rojas, Laura Pérez-Guàrdia, Alix Simon, Sarah Djeddi, Susan Treves, Agnès Ribes, Lorenzo Silva-Hernández, Céline Tard, Jocelyn Laporte, Johann Böhm

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Figure 4

Comparison of ORAI1 inhibition and Orai1 downregulation on the TAM/STRMK phenotype and transcriptome.

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Comparison of ORAI1 inhibition and Orai1 downregulation on the TAM/STRMK...
(A) ORAI1 inhibition (Stim1R304W/+Orai1R93W/+ mice) provided a higher overall rescue level of bone and spleen morphology, platelet numbers, muscle histology, contractility, and cytosolic Ca2+ content in TAM/STRMK mice compared with Orai1 downregulation (Stim1R304W/+Orai1+/– mice). The WT phenotype was set at 100% and the Stim1R304W/+ phenotype at 0%. (B) Hierarchical clustering of tibialis anterior RNA-Seq data revealed sample grouping of WT, Orai1R93W/+, and Stim1R304W/+Orai1R93W/+ mice on one side and of Stim1R304W/+ and Stim1R304W/+Orai1+/– mice on the other side, confirming the higher therapeutic potential of ORAI1 inhibition at the transcriptomic level (n = 4). (C) The percentage of genes with improved or rescued expression was substantially higher in Stim1R304W/+Orai1R93W/+ mice (ORAI1 inhibition) compared with that in Stim1R304W/+Orai1+/– mice (Orai1 downregulation). (D) Venn diagram illustrating that Stim1R304W/+Orai1+/– (Orai1 downregulation) and Stim1R304W/+Orai1R93W/+ (ORAI1 inhibition) muscle samples shared 113 genes with partially or completely normalized expression. (E) Normalized expression of Atp2a1 and Sln in Stim1R304W/+Orai1R93W/+ compared with Stim1R304W and Stim1R304W/+Orai1+/– muscle samples (n = 4–9, 1-way ANOVA and Tukey’s post hoc test). Data are shown as the mean ± SEM. Significant differences are indicated as **P < 0.01, ***P < 0.001, and ****P < 0.0001.