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Excessive postnatal smooth muscle differentiation in a lung-specific model of TBX4-related pulmonary hypertension
Lea C. Steffes, Kaylie A. Chiles, Sehar R. Masud, Aleen Rahman, Madeline Dawson, Csaba Galambos, Maya E. Kumar, Ripla Arora
Lea C. Steffes, Kaylie A. Chiles, Sehar R. Masud, Aleen Rahman, Madeline Dawson, Csaba Galambos, Maya E. Kumar, Ripla Arora
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Research Article Cardiology Pulmonology

Excessive postnatal smooth muscle differentiation in a lung-specific model of TBX4-related pulmonary hypertension

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Abstract

Heterozygous TBX4 variants are the second most common genetic cause of pediatric pulmonary hypertension (PH), yet mechanisms underlying TBX4-related lung disease remain poorly understood. This study developed a lung-mesenchyme-specific Tbx4 loss-of-function (Tbx4cKO) mouse model that bypasses embryonic lethality to investigate this condition. Adult Tbx4cKO mice demonstrated significantly impaired pulmonary flow acceleration consistent with PH. Three-dimensional analysis of embryonic lungs revealed reduced lobe volumes and decreased distance between pleural edges and muscularized vessels. In adult Tbx4cKO lungs, we identified extensive vascular remodeling characterized by medial thickening and the extension of muscularized arteries into normally non-muscularized subpleural parenchymal zones. Contrary to previous reports suggesting vascular simplification, 3-dimensional analysis demonstrated an elaborated pulmonary artery tree in addition to pathologic wall muscularization. Depletion of a single Tbx5 allele in addition to both Tbx4 alleles exacerbated histologic phenotypes, with worsened right ventricular dilation. This model also demonstrated dysregulated airway smooth muscle patterning and prominent subpleural smooth muscle bands, similar to those in human TBX4 syndrome. We identify TBX4 as a critical regulator of smooth muscle differentiation and patterning across multiple lung compartments. Our model recapitulates key features of human TBX4 syndrome and identifies dysregulated smooth muscle differentiation as a potential future therapeutic target.

Authors

Lea C. Steffes, Kaylie A. Chiles, Sehar R. Masud, Aleen Rahman, Madeline Dawson, Csaba Galambos, Maya E. Kumar, Ripla Arora

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Figure 5

Airway smooth muscle extends closer to the pleura and is mispatterned in Tbx4-mutant lungs.

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Airway smooth muscle extends closer to the pleura and is mispatterned in...
(A) In TBX4 syndrome, smooth muscle–wrapped conducting airways are found in close apposition to the pleura, while control conducting airways end more proximally (see Supplemental Figure 3). (B and C) Whole-mount stains of right caudal lobes highlight ACTA2+ cells (white) along airways and vasculature. The same branch (dorsal view of RCd.L1.Cr2) is shown in each genotype, with airway-associated smooth muscle indicated with pink overlay and the position of the distal-most complete smooth muscle ring indicated with yellow arrowheads. (D) The distance between distal-most airway SMC ring and the pleural margin is significantly shorter in Tbx4cKO animals versus control. Control n = 7, Tbx4cKO n = 4. (E) The distance between airway smooth muscle bundles both before (cyan bar in B and C) and after (orange bar in B and C) the final conducting airway bifurcation (yellow dot in B and C) is significantly wider in Tbx4cKO. Con, control; KO, Tbx4cKO. Cyan, proximal measurements; orange, distal measurements. Control n = 3, Tbx4cKO n = 3. (D and E) Welch’s ANOVA (assuming unequal variances) was performed to assess differences across genotypes, followed by Games-Howell post hoc tests for pairwise comparisons between groups. (F and G) Whole-mount ACTA2 (white) staining of right caudal lobe margins shows an abundance of ACTA2+ C-shaped myofibroblasts (selected cells highlighted with arrowheads) in parenchyma of Tbx4cKO not present in control. Pleural lobe margin indicated with yellow dotted line in A–C, F, and H. ACTA2 immunostaining highlights a focus of ectopic smooth muscle accumulation in the lung interstitium in a patient with TBX4 syndrome (alv marks alveoli). Scale bars: 100 μm (A–C and F), 200 μm (G), and 50 μm (H).

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