Immune cells play a crucial role in the development of a cardiac dysfunction in cardiac p38 MAPKa KO mice after pressure overload

Abstract

QuestionCardiac metabolic remodeling is one of the early changes driving the progression of heart failure and is present even before overt cardiac dysfunction. Previously we showed that the tamoxifen inducible deletion of cardiomyocyte specific p38 MAPKa (KO) leads to a pronounced left ventricular dilation with a strongly impaired heart function just within 2 days of angiotensin II (ANGII) treatment. Additionally, a strong infiltration of immune cells in the cardiac tissue can be observed.Methods and ResultsUnder baseline conditions no impairment of the heart function in KO mice can be observed. ANGII treatment for 2 days induces a strong left ventricular dilation and poor heart function, indicated by a reduced ejection fraction and an increase in end‐systolic and end‐diastolic volume. KO mice do not get used to constant ANGII treatment even after 7 days of ANGII treatment and cardiac function continues to deteriorate. KO mice transiently loose weight as a consequence of ANGII treatment. On the fourth to fifth day of ANGII treatment, KO animals gain weight again, although the heart function continues to deteriorate. FACS analysis of cardiac tissue revealed a strong infiltration of neutrophils in KO hearts after 48h of ANGII treatment (4.5‐fold increase compared to control hearts). A strong correlation between reduced ejection fraction and increasing amount of neutrophils in the cardiac tissue suggests a particularly important role of neutrophils in the development of cardiac dysfunction. Also an increase of macrophages (1.6‐fold increase), CD4+ T‐helper cells (2.5‐fold increase) and CD8+ cytotoxic T‐cells (2.5‐fold increase) as well as B‐cells (2‐fold increase) could be shown in KO hearts compared to control hearts. After long term ANGII treatment for 7 days, however, the number of neutrophils in the hearts decreased (10‐fold decrease in control hearts and 73‐fold decrease in KO hearts compared to 48h of ANGII treatment) and a strong increase in M2‐like macrophage infiltration, mainly in control hearts (1.6‐fold increase compared to 48h ANGII treatment), could be observed. The infiltrated macrophages were also positive for CCR2, which indicates they originated from monocytes. B‐ and T‐cells were still elevated in KO hearts after 7 days of ANGII treatment. Also in control hearts an increase of B‐ and T‐cells could be observed. In addition, fibrosis developed in the cardiac tissue, which could be shown by histological staining of collagen I and FACS analysis targeting αSMA+ cardiac fibroblasts.ConclusionImmune cells and in particular neutrophils play an important role in the development of cardiac dysfunction after ANGII induced pressure overload in p38 MAPKa KO mice. Over time, however, the number of immune cells in control mice also increases, which underlines the peculiarity of the first neutrophil influx after 48h ANGII treatment for the impairment of cardiac function.