Asprosin as a potential new paracrine regulator in the heart

Abstract

Abstract Funding Acknowledgements None. Background Asprosin was recently described as a novel hormone that is released by white adipose tissue upon fasting. However, a functional role of asprosin in human cardiovascular tissues has not been yet investigated at the tissue level. Asprosin is the C-terminal propeptide of the extracellular matrix (ECM) glycoprotein fibrillin-1 and is cleaved off from the pro-fibrillin-1 precursor by the endopeptidase furin. Fibrillin-1 is expressed in the heart and aorta, and FBN1 mutations are causative for aortic aneurysm formation and cardiomyopathy. Whether asprosin is also present in cardiac tissues and utilized by cardiac resident cells remains unknown. Purpose In the present study, we investigated the localization and distribution of asprosin protein in human atrial and ventricular heart tissue. Methods Human heart tissue was obtained from patients undergoing aortic valve replacement. In addition, we used ventricular tissue from mice. Cryosections from human (n=8) and mouse (n=8) heart samples were analysed by immunohistochemistry. The anti-asprosin antibodies were raised against human or mouse asprosin respectively and applied in combination with anti-CD31/PECAM, an endothelial cell marker, or anti-sarcomeric alpha-actinin, a Z-line marker. The immunofluorescence of incubated specimens was examined by confocal microscopy. Results Our data suggest that asprosin is localized in myocardium in different cell types: cardiomyocytes (Figure 1 a-d), arterial smooth muscle cells (Figure 1 a), micro- and vascular endothelial cells (Figure 1 d), and with the lowest intensity, in periarterial located epicardial adipocytes (Figure 1 e). In cardiomyocytes, incubation with anti-asprosin resulted in a high signal intensity. Asprosin immunoreactivity was observed: in intercalary discs (Figure 1 b-d), as striated pattern in the sarcoplasm, and as weak signal in the perinuclear area (Figure 1 b, c). In human tissue, the anti-asprosin signal was about four times higher in intercalated discs than in the sarcoplasm. The distribution pattern in ventricular cardiomyocytes of mice were similar. Conclusion Our results show that in human myocardium, asprosin localises mainly intracellular. Asprosin accumulations were found in intercalary discs. In short, asprosin was found at locations that are known to be crucial for regulation of cardiac function. Intracellular presence of asprosin may indicate cellular utilization by uptake from extracellular asprosin pools. Whether these pools are replenished exclusively by resident cells or by other tissues such as WAT is currently unknown. However, further research is needed to prove this hypothesis. Figure. 1. Confocal microscopy of asprosin localization in human myocardium. Cryosections incubated with anti-asprosin (red) or combined with anti-alpha actinin (sarcomeric) or anti-CD31/PECAM (green) antibodies and DAPI (blue, nuclei). SM: vascular smooth muscle cells, BV: blood vessels, Arrowheads: Intercalated disks.