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NKX2-5 regulates vessel remodeling in scleroderma-associated pulmonary arterial hypertension
Ioannis Papaioannou, Athina Dritsoula, Ping Kang, Reshma S. Baliga, Sarah L. Trinder, Emma Cook, Xu Shiwen, Adrian J. Hobbs, Christopher P. Denton, David J. Abraham, Markella Ponticos
Ioannis Papaioannou, Athina Dritsoula, Ping Kang, Reshma S. Baliga, Sarah L. Trinder, Emma Cook, Xu Shiwen, Adrian J. Hobbs, Christopher P. Denton, David J. Abraham, Markella Ponticos
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Research Article Pulmonology Vascular biology

NKX2-5 regulates vessel remodeling in scleroderma-associated pulmonary arterial hypertension

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Abstract

NKX2-5 is a member of the homeobox-containing transcription factors critical in regulating tissue differentiation in development. Here, we report a role for NKX2-5 in vascular smooth muscle cell phenotypic modulation in vitro and in vascular remodeling in vivo. NKX2-5 is upregulated in scleroderma patients with pulmonary arterial hypertension. Suppression of NKX2-5 expression in smooth muscle cells halted vascular smooth muscle proliferation and migration, enhanced contractility, and blocked the expression of extracellular matrix genes. Conversely, overexpression of NKX2-5 suppressed the expression of contractile genes (ACTA2, TAGLN, CNN1) and enhanced the expression of matrix genes (COL1) in vascular smooth muscle cells. In vivo, conditional deletion of NKX2-5 attenuated blood vessel remodeling and halted the progression to hypertension in a mouse chronic hypoxia model. This study revealed that signals related to injury such as serum and low confluence, which induce NKX2-5 expression in cultured cells, is potentiated by TGF-β and further enhanced by hypoxia. The effect of TGF-β was sensitive to ERK5 and PI3K inhibition. Our data suggest a pivotal role for NKX2-5 in the phenotypic modulation of smooth muscle cells during pathological vascular remodeling and provide proof of concept for therapeutic targeting of NKX2-5 in vasculopathies.

Authors

Ioannis Papaioannou, Athina Dritsoula, Ping Kang, Reshma S. Baliga, Sarah L. Trinder, Emma Cook, Xu Shiwen, Adrian J. Hobbs, Christopher P. Denton, David J. Abraham, Markella Ponticos

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Figure 7

Targeted Nkx2-5 deletion in the chronic hypoxia model of pulmonary hypertension.

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Targeted Nkx2-5 deletion in the chronic hypoxia model of pulmonary hyper...
(A) Strategy for conditional deletion of Nkx2-5 in collagen-producing cells using the Col1a2 enhancer to drive expression of Cre recombinase upon administration of tamoxifen (4OH-T) in adult male mice in the chronic hypoxia model of pulmonary hypertension (Col1a2-Cre-ER). PCR primers (P1, P2, and P3) were designed to detect Nkx2-5 deletion as described in the Methods. (B) Nkx2-5 mRNA levels in pulmonary arteries of mice (n = 8 per group) under hypoxia or normoxia for 21 days. ***P < 0.001 by unpaired, 2-tailed Student’s t test. Data presented as ± SD. (C) Nkx2-5 protein levels were analyzed by SDS-PAGE in total lung lysates from mice in hypoxia or normoxia. The samples from the hypoxia experiment to determine Nkx2-5 and GAPDH were run on different, but concurrent, Western blots. (D) Expression of Nkx2-5 (brown DAB staining) in lung vessels in Nkx2-5–null mouse and control groups were determined via immunohistochemistry under normoxia and hypoxia. Representative images of small (20–50 μm), medium (40–70 μm), and large arteries (>70 μm) are shown. Scale bar: 100 μm.

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