Na+-H+ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis

Cong Lin Liu; Xian Zhang; Jing Liu; Yunzhe Wang; Galina K. Sukhova; Gregory R. Wojtkiewicz; Tianxiao Liu; Rui Tang; Samuel Achilefu; Matthias Nahrendorf; Peter Libby; Junli Guo; Jin Ying Zhang; Guo Ping Shi

doi:10.1038/s41467-019-11983-3

Na⁺-H⁺ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis

Cong Lin Liu, Xian Zhang, Jing Liu, Yunzhe Wang, Galina K. Sukhova, Gregory R. Wojtkiewicz, Tianxiao Liu, Rui Tang, Samuel Achilefu, Matthias Nahrendorf, Peter Libby, Junli Guo, Jin Ying Zhang, Guo Ping Shi

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

The pH in atherosclerotic lesions varies between individuals. IgE activates macrophage Na⁺-H⁺ exchanger (Nhe1) and induces extracellular acidification and cell apoptosis. Here, we show that the pH-sensitive pHrodo probe localizes the acidic regions in atherosclerotic lesions to macrophages, IgE, and cell apoptosis. In Apoe^–/– mice, Nhe1-deficiency or anti-IgE antibody reduces atherosclerosis and blocks lesion acidification. Reduced atherosclerosis in Apoe^–/– mice receiving bone marrow from Nhe1- or IgE receptor FcεR1-deficient mice, blunted foam cell formation and signaling in IgE-activated macrophages from Nhe1-deficient mice, immunocomplex formation of Nhe1 and FcεR1 in IgE-activated macrophages, and Nhe1-FcεR1 colocalization in atherosclerotic lesion macrophages support a role of IgE-mediated macrophage Nhe1 activation in atherosclerosis. Intravenous administration of a near-infrared fluorescent pH-sensitive probe LS662, followed by coregistered fluorescent molecular tomography-computed tomography imaging, identifies acidic regions in atherosclerotic lesions in live mice, ushering a non-invasive and radiation-free imaging approach to monitor atherosclerotic lesions in live subjects.

Original language	English (US)
Article number	3978
Journal	Nature communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-11983-3
State	Published - Dec 1 2019
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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title = "Na+-H+ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis",

abstract = "The pH in atherosclerotic lesions varies between individuals. IgE activates macrophage Na+-H+ exchanger (Nhe1) and induces extracellular acidification and cell apoptosis. Here, we show that the pH-sensitive pHrodo probe localizes the acidic regions in atherosclerotic lesions to macrophages, IgE, and cell apoptosis. In Apoe–/– mice, Nhe1-deficiency or anti-IgE antibody reduces atherosclerosis and blocks lesion acidification. Reduced atherosclerosis in Apoe–/– mice receiving bone marrow from Nhe1- or IgE receptor FcεR1-deficient mice, blunted foam cell formation and signaling in IgE-activated macrophages from Nhe1-deficient mice, immunocomplex formation of Nhe1 and FcεR1 in IgE-activated macrophages, and Nhe1-FcεR1 colocalization in atherosclerotic lesion macrophages support a role of IgE-mediated macrophage Nhe1 activation in atherosclerosis. Intravenous administration of a near-infrared fluorescent pH-sensitive probe LS662, followed by coregistered fluorescent molecular tomography-computed tomography imaging, identifies acidic regions in atherosclerotic lesions in live mice, ushering a non-invasive and radiation-free imaging approach to monitor atherosclerotic lesions in live subjects.",

author = "Liu, {Cong Lin} and Xian Zhang and Jing Liu and Yunzhe Wang and Sukhova, {Galina K.} and Wojtkiewicz, {Gregory R.} and Tianxiao Liu and Rui Tang and Samuel Achilefu and Matthias Nahrendorf and Peter Libby and Junli Guo and Zhang, {Jin Ying} and Shi, {Guo Ping}",

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doi = "10.1038/s41467-019-11983-3",

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AU - Liu, Cong Lin

AU - Zhang, Xian

AU - Liu, Jing

AU - Wang, Yunzhe

AU - Sukhova, Galina K.

AU - Wojtkiewicz, Gregory R.

AU - Liu, Tianxiao

AU - Tang, Rui

AU - Achilefu, Samuel

AU - Nahrendorf, Matthias

AU - Libby, Peter

AU - Guo, Junli

AU - Zhang, Jin Ying

AU - Shi, Guo Ping

PY - 2019/12/1

Y1 - 2019/12/1

N2 - The pH in atherosclerotic lesions varies between individuals. IgE activates macrophage Na+-H+ exchanger (Nhe1) and induces extracellular acidification and cell apoptosis. Here, we show that the pH-sensitive pHrodo probe localizes the acidic regions in atherosclerotic lesions to macrophages, IgE, and cell apoptosis. In Apoe–/– mice, Nhe1-deficiency or anti-IgE antibody reduces atherosclerosis and blocks lesion acidification. Reduced atherosclerosis in Apoe–/– mice receiving bone marrow from Nhe1- or IgE receptor FcεR1-deficient mice, blunted foam cell formation and signaling in IgE-activated macrophages from Nhe1-deficient mice, immunocomplex formation of Nhe1 and FcεR1 in IgE-activated macrophages, and Nhe1-FcεR1 colocalization in atherosclerotic lesion macrophages support a role of IgE-mediated macrophage Nhe1 activation in atherosclerosis. Intravenous administration of a near-infrared fluorescent pH-sensitive probe LS662, followed by coregistered fluorescent molecular tomography-computed tomography imaging, identifies acidic regions in atherosclerotic lesions in live mice, ushering a non-invasive and radiation-free imaging approach to monitor atherosclerotic lesions in live subjects.

AB - The pH in atherosclerotic lesions varies between individuals. IgE activates macrophage Na+-H+ exchanger (Nhe1) and induces extracellular acidification and cell apoptosis. Here, we show that the pH-sensitive pHrodo probe localizes the acidic regions in atherosclerotic lesions to macrophages, IgE, and cell apoptosis. In Apoe–/– mice, Nhe1-deficiency or anti-IgE antibody reduces atherosclerosis and blocks lesion acidification. Reduced atherosclerosis in Apoe–/– mice receiving bone marrow from Nhe1- or IgE receptor FcεR1-deficient mice, blunted foam cell formation and signaling in IgE-activated macrophages from Nhe1-deficient mice, immunocomplex formation of Nhe1 and FcεR1 in IgE-activated macrophages, and Nhe1-FcεR1 colocalization in atherosclerotic lesion macrophages support a role of IgE-mediated macrophage Nhe1 activation in atherosclerosis. Intravenous administration of a near-infrared fluorescent pH-sensitive probe LS662, followed by coregistered fluorescent molecular tomography-computed tomography imaging, identifies acidic regions in atherosclerotic lesions in live mice, ushering a non-invasive and radiation-free imaging approach to monitor atherosclerotic lesions in live subjects.

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Na⁺-H⁺ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis

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