Na+-H+ exchanger 1 determines atherosclerotic lesion acidification and promotes atherogenesis.
Cong-Lin LiuXian ZhangJing LiuYunzhe WangGalina K SukhovaGregory R WojtkiewiczTianxiao LiuRui TangSamuel AchilefuMatthias NahrendorfPeter LibbyJunli GuoJin-Ying ZhangGuo Ping ShiPublished in: Nature communications (2019)
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.
Keyphrases
- computed tomography
- quantum dots
- bone marrow
- living cells
- cardiovascular disease
- high resolution
- high fat diet induced
- cell proliferation
- adipose tissue
- mesenchymal stem cells
- cognitive decline
- stem cells
- magnetic resonance imaging
- positron emission tomography
- ionic liquid
- magnetic resonance
- single cell
- mass spectrometry
- skeletal muscle
- metabolic syndrome
- radiation therapy
- mild cognitive impairment
- radiation induced
- pet ct
- atopic dermatitis