Abstract
Murine models of coxsackievirus B3 (CVB3)-induced myocarditis well represent the different outcomes of this inflammatory heart disease. Previously, we found that CVB3-infected A.BY/SnJ mice, susceptible for severe acute and chronic myocarditis, have lower natural killer (NK) cell levels than C57BL/6 mice, with mild acute myocarditis. There is evidence that myeloid-derived suppressor cells (MDSC) may inhibit NK cells, influencing the course of myocarditis. To investigate the MDSC/NK interrelationship in acute myocarditis, we used CVB3-infected A.BY/SnJ mice. Compared to non-infected mice, we found increased cell numbers of MDSC in the spleen and heart of CVB3-infected A.BY/SnJ mice. In parallel, S100A8 and S100A9 were increased in the heart, spleen, and especially in splenic MDSC cells compared to non-infected mice. In vitro experiments provided evidence that MDSC disrupt cytotoxic NK cell function upon co-culturing with MDSC. MDSC-specific depletion by an anti-Ly6G antibody led to a significant reduction in the virus load and injury in hearts of infected animals. The decreased cardiac damage in MDSC-depleted mice was associated with fewer Mac3+ macrophages and CD3+ T lymphocytes and a reduced cardiac expression of S100A8, S100A9, IL-1β, IL-6, and TNF-α. In conclusion, impairment of functional NK cells by MDSC promotes the development of chronic CVB3 myocarditis in A.BY/SnJ mice.
Highlights
IntroductionDespite classical pharmacological heart failure treatment, approximately 30% of acute myocarditis can progress to a chronic dilated phenotype (inflammatory dilated cardiomyopathy) with an impaired prognosis
It was previously shown that coxsackievirus B3 (CVB3)-infected susceptible mice differ from mice being resistant to chronic myocarditis in their natural killer (NK) cells’ maturation profile, function, and activation [5]
It was previously shown that the host genetics determine viral clearance and a subsequent healing or, on the other hand, viral persistence leading to chronic myocarditis [21,22]
Summary
Despite classical pharmacological heart failure treatment, approximately 30% of acute myocarditis can progress to a chronic dilated phenotype (inflammatory dilated cardiomyopathy) with an impaired prognosis. This emphasizes the need to understand the mechanisms determining the course of myocarditis in view of finding novel therapeutic options [2]. It was previously shown that coxsackievirus B3 (CVB3)-infected susceptible mice differ from mice being resistant to chronic myocarditis in their natural killer (NK) cells’ maturation profile, function, and activation [5]. Markers for NK-induced cytotoxic responsiveness to virus-infected cells include granzyme B (GzmB) and CD107a and the receptor Natural-killer group 2 member D (NKG2D). NKG2D was found to be relevant for the different outcomes of myocarditis in vivo comparing A.BY/SnJ mice, being susceptible to chronic myocarditis, and C57BL/6J mice, being resistant to chronic myocarditis [5]
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