Direct evidence for a β1-adrenergic receptor–directed autoimmune attack as a cause of idiopathic dilated cardiomyopathy
Roland Jahns, … , Georg Ertl, Martin J. Lohse
Roland Jahns, … , Georg Ertl, Martin J. Lohse
Published May 15, 2004
Citation Information: J Clin Invest. 2004;113(10):1419-1429. https://doi.org/10.1172/JCI20149.
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Direct evidence for a β1-adrenergic receptor–directed autoimmune attack as a cause of idiopathic dilated cardiomyopathy

Abstract

Today, dilated cardiomyopathy (DCM) represents the main cause of severe heart failure and disability in younger adults and thus is a challenge for public health. About 30% of DCM cases are genetic in origin; however, the large majority of cases are sporadic, and a viral or immune pathogenesis is suspected. Following the established postulates for pathogenesis of autoimmune diseases, here we provide direct evidence that an autoimmune attack directed against the cardiac β1-adrenergic receptor may play a causal role in DCM. First, we immunized inbred rats against the second extracellular β1-receptor loop (β1-ECII; 100% sequence identity between human and rat) every month. All these rats developed first, receptor-stimulating anti–β1-ECII Ab’s and then, after 9 months, progressive severe left ventricular dilatation and dysfunction. Second, we transferred sera from anti–β1-ECII–positive and Ab-negative animals every month to healthy rats of the same strain. Strikingly, all anti–β1-ECII–transferred rats also developed a similar cardiomyopathic phenotype within a similar time frame, underlining the pathogenic potential of these receptor Ab’s. As a consequence, β1-adrenergic receptor–targeted autoimmune DCM should now be categorized with other known receptor Ab-mediated autoimmune diseases, such as Graves disease or myasthenia gravis. Although carried out in an experimental animal model, our findings should further encourage the development of therapeutic strategies that combat harmful anti–β1-ECII in receptor Ab–positive DCM patients.

Authors

Roland Jahns, Valérie Boivin, Lutz Hein, Sven Triebel, Christiane E. Angermann, Georg Ertl, Martin J. Lohse

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Figure 6

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Anatomic measurements and histology of rat hearts. (A) The panel shows r...
Anatomic measurements and histology of rat hearts. (A) The panel shows representative H&E-stained 1-∝m cross-sections of hearts from an anti–β1-ECII-positive rat and a control animal (left row, ∞10 magnification). The middle and right rows indicate schematically how LV diameter, wall thickness, and different cardiac areas were determined by computer-aided image analysis. IVS, interventricular septum; LVD, LV-diameter; PW, posterior wall; RV, right ventricular; RVCA, right ventricular cavity area. (B) Immunization and transfer experiment. Left panels: Columns represent heart wet weight (HW) and the relative heart weight (HW/BW). The insets show correlations between wet weight and echocardiographically predicted HW for all animals (Ab-positive and Ab-negative rats) in each experiment. Right panels: Columns represent LV diameter (LVD), LVCA, and LVWA. The insets show correlations between the anatomic and the echocardiographic LV diameter for all animals in each experiment. Error bars indicate mean values plus or minus SEM. *P < 0.05; **P < 0.01; ***P < 0.001 (Student t test). (C) Immunization and transfer experiment. Left panels: H&E-stained 1-∝m sections of hearts from anti–β1-ECII-positive rats and corresponding control animals at ∞50 (upper rows) or ∞120 magnification (lower rows) with representative myocytes and corresponding nuclei. Right panels: Columns indicate the respective myocyte area (MA), nuclear area (NA), and the calculated nucleus-to-myocyte ratio (NA/MA). Error bars indicate mean values plus or minus SEM.