Abstract

Abstract Background At the intersection of gender medicine and ageing, mosaic loss of the Y chromosome (mLoY) in hematopoietic cells has emerged as a novel cardiovascular risk factor. As the most prevalent chromosomal aberration in men, mLoY is age-associated and characterised by interindividual varying frequencies of LoY cells in blood. It is associated with an increased risk for cardiovascular disease and mortality. A murine model of mLoY demonstrates myocardial fibrosis and reduced lifespan. However, the interactions between LoY hematopoietic and cardiac cells remain elusive. It is uncertain, whether the loss of single genes or combinations of multiple genes drive the observed effects, impeding the development of targeted therapies. Purpose We aimed to examine the impact of individual Y-chromosomal genes in macrophages concerning their paracrine effects on cardiac cells types. Methods and results To identify target genes, we analysed two single-nuclei RNA sequencing datasets of patient-derived PBMCs and THP-1 monocytic cells for their expression of Y-chromosomal genes. We identified nine genes that exhibited robust and concordant expression in both datasets. Seven were protein coding (RPS4Y, DDX3Y, EIF1AY, ZFY, UTY, USP9Y and KDM5D) and two were non-coding (TTTY14 and LINC00278). Using siRNA pools, we achieved >50% reductions in mRNA content in THP-1 M0 macrophages for all genes (p<0.05) and collected conditioned media (CM). As previous data suggested increased myocardial fibrosis in mLoY, we assessed the impact of CM on primary human cardiac fibroblasts. Notably, treatment with CM from ZFY, TTTY14 or LINC00278 silenced macrophages induced collagen 1A1 protein expression by 1.44-, 1.30- and 1.86-fold, respectively (all p<0.05), suggesting that loss of these genes might contribute to myocardial fibrosis. To explore potential effects on cardiomyocytes, neonatal rat cardiomyocytes were exposed to CM. We observed reduced beating frequencies upon treatment with CM from ZFY, TTTY14 or UTY silenced macrophages (relative fold-changes 0.45, 0.40, 0.53, respectively; all p<0.05). While suggestive of cardiomyocyte stress, we found no changes in the expression of the stress markers Nppa or Nppb, possibly indicating direct effects on ion transporters. Given the strong association of cardiovascular disease with endothelial cell dysfunction, we investigated the effects of CM on human umbilical vein endothelial cells (HUVEC). CM from ZFY and KDM5D silenced macrophages induced ICAM protein expression in HUVEC by 1.9- and 1.6-fold, respectively (both p<0.05). Conclusion Loss of individual Y-chromosomal genes in monocytic cells elicits distinct paracrine effects on various cardiac cell types. Particularly, silencing of ZFY in macrophages demonstrated profound effects on all investigated cell types, warranting further investigation. Additionally, two long non-coding RNAs, previously unexplored in cardiovascular disease, influenced paracrine activity of macrophages.

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