1. IL‐1‐dependent electrophysiological changes and cardiac neural remodeling in a mouse model of Kawasaki disease vasculitis.
- Author
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Abe, M., Rastelli, D. D., Gomez, A. C., Cingolani, E., Lee, Y., Soni, P. R., Fishbein, M. C., Lehman, T. J. A., Shimada, K., Crother, T. R., Chen, S., Noval Rivas, M., and Arditi, M.
- Subjects
MUCOCUTANEOUS lymph node syndrome ,NERVE growth factor ,RAYLEIGH waves ,HEART diseases ,LACTOBACILLUS casei - Abstract
Summary: Kawasaki disease (KD) is the leading cause of acquired heart disease in children. In addition to coronary artery abnormalities, aneurysms and myocarditis, acute KD is also associated with echocardiogram (ECG) abnormalities in 40–80% of patients. Here, we show that these ECG changes are recapitulated in the Lactobacillus casei cell wall extract (LCWE)‐induced KD vasculitis mouse model. LCWE‐injected mice developed elevated heart rate and decreased R wave amplitude, with significant differences in prolonged ventricular repolarization. LCWE‐injected mice developed cardiac ganglion inflammation, that may affect the impulse‐conducting system in the myocardium. Furthermore, serum nerve growth factor (NGF) was significantly elevated in LCWE‐injected mice, similar to children with KD vasculitis, associated with increased neural remodeling of the myocardium. ECG abnormalities were prevented by blocking interleukin (IL)‐1 signaling with anakinra, and the increase in serum NGF and cardiac neural remodeling were similarly blocked in Il1r1−/− mice and in wild‐type mice treated with anakinra. Thus, similar to clinical KD, the LCWE‐induced KD vasculitis mouse model also exhibits electrophysiological abnormalities and cardiac neuronal remodeling, and these changes can be prevented by blocking IL‐1 signaling. These data support the acceleration of anti‐IL‐1 therapy trials to benefit KD patients. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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