A pathogenic mechanism associated with myopathies and structural birth defects involves TPM2-directed myogenesis
Jennifer McAdow, … , Michael J. Greenberg, Aaron N. Johnson
Jennifer McAdow, … , Michael J. Greenberg, Aaron N. Johnson
Published May 17, 2022
Citation Information: JCI Insight. 2022;7(12):e152466. https://doi.org/10.1172/jci.insight.152466.
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Research Article Muscle biology

A pathogenic mechanism associated with myopathies and structural birth defects involves TPM2-directed myogenesis

Abstract

Nemaline myopathy (NM) is the most common congenital myopathy, characterized by extreme weakness of the respiratory, limb, and facial muscles. Pathogenic variants in Tropomyosin 2 (TPM2), which encodes a skeletal muscle–specific actin binding protein essential for sarcomere function, cause a spectrum of musculoskeletal disorders that include NM as well as cap myopathy, congenital fiber type disproportion, and distal arthrogryposis (DA). The in vivo pathomechanisms underlying TPM2-related disorders are unknown, so we expressed a series of dominant, pathogenic TPM2 variants in Drosophila embryos and found 4 variants significantly affected muscle development and muscle function. Transient overexpression of the 4 variants also disrupted the morphogenesis of mouse myotubes in vitro and negatively affected zebrafish muscle development in vivo. We used transient overexpression assays in zebrafish to characterize 2 potentially novel TPM2 variants and 1 recurring variant that we identified in patients with DA (V129A, E139K, A155T, respectively) and found these variants caused musculoskeletal defects similar to those of known pathogenic variants. The consistency of musculoskeletal phenotypes in our assays correlated with the severity of clinical phenotypes observed in our patients with DA, suggesting disrupted myogenesis is a potentially novel pathomechanism of TPM2 disorders and that our myogenic assays can predict the clinical severity of TPM2 variants.

Authors

Jennifer McAdow, Shuo Yang, Tiffany Ou, Gary Huang, Matthew B. Dobbs, Christina A. Gurnett, Michael J. Greenberg, Aaron N. Johnson

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Figure 6

Transient overexpression assays in zebrafish.

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Transient overexpression assays in zebrafish. (A) Transient expression a...
(A) Transient expression assays were used to characterize myogenic defects in zebrafish that expressed TPM2 variants. One cell stage embryos were injected with control or variant-encoding mRNAs and raised under standard conditions to 26 hours postfertilization (hpf) for histological assays or to 6 days postfertilization (dpf) for locomotor assays. (B) Quantitative real-time PCR of zebrafish TPM2 in wild-type embryos, normalized to 12 hpf. n = 4 larvae per sample; 3–4 replicates are shown. (C) Histologic measurements of 26 hpf larvae. Individual slow muscle fibers were traced in ImageJ (NIH) to determine muscle length (magenta line). Somite size was measured 3 times per somite and then averaged to calculate somite length. (D) Pathogenic TPM2 variants caused dose-dependent defects in myofiber length and somite length. A gradient of mRNA doses were injected (200 pg, 400 pg, and 600 pg), and muscle morphology was assessed at each concentration. A dose of 600 pg produced consistent phenotypes in variant-expressing larvae but not in wild-type expressing larvae. Each data point represents an individual muscle fiber or somite. n ≥ 20 larvae per condition. (E) Western blot of injected TPM2. One-cell stage embryos were injected with 600 pg Flag-TPM2 mRNA, and lysates were collected at 12 hpf, 24 hpf, 2 dpf, 3 dpf, and 5 dpf. Robust TPM2 expression was detectable at 12 hpf and 24 hpf. Each data point graphed represents relative expression from 1 independent clutch. n ≥ 30 animals per sample; 4 replicates are shown. Significance was determined by unpaired, 1-tailed Student’s t test versus wild-type TPM2–injected fish. **(P < 0.01), ***(P < 0.001), ****(P < 0.0001). Error bars, SEM.