ResearchIn-Press PreviewPulmonologyVascular biology Open Access | 10.1172/jci.insight.164191
1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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1Division of Medicine, Department of Inflammation, University College London, London, United Kingdom
2William Harvey Research Institute, Barts and The London School of Medicine , Queen Mary University of London, London, United Kingdom
3Division of Medicine, Department of Inflammation, University College London, Guildford, United Kingdom
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Published April 23, 2024 - More info
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 remodelling in vivo. NKX2-5 is up-regulated in scleroderma (SSc) 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 the 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 remodelling and halted the progression to hypertension in the mouse chronic hypoxia mouse 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 TGFβ and further enhanced by hypoxia. The effect of TGFβ 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 remodelling and provide proof of concept for therapeutic targeting of NKX2-5 in vasculopathies.