Abstract
The maintenance of a healthy cardiovascular system requires expression of genes that contribute to essential biological activities and repression of those that are associated with functions likely to be detrimental to cardiovascular homeostasis. Vascular calcification is a major disruption to cardiovascular homeostasis, where tissues of the cardiovascular system undergo ectopic calcification and consequent dysfunction, but little is known about the expression of calcification genes in the healthy cardiovascular system. Large animal models are of increasing importance in cardiovascular disease research as they demonstrate more similar cardiovascular features (in terms of anatomy, physiology and size) to humans than do rodent species. We used RNA sequencing results from the sheep, which has been utilized extensively to examine calcification of prosthetic cardiac valves, to explore the transcriptome of the heart and cardiac valves in this large animal, in particular looking at expression of calcification and extracellular matrix genes. We then examined genes implicated in the process of vascular calcification in a wide array of cardiovascular tissues and across multiple developmental stages, using RT-qPCR. Our results demonstrate that there is a balance between genes that promote and those that suppress mineralization during development and across cardiovascular tissues. We show extensive expression of genes encoding proteins involved in formation and maintenance of the extracellular matrix in cardiovascular tissues, and high expression of hematopoietic genes in the cardiac valves. Our analysis will support future research into the functions of implicated genes in the development of valve calcification, and increase the utility of the sheep as a large animal model for understanding ectopic calcification in cardiovascular disease. This study provides a foundation to explore the transcriptome of the developing cardiovascular system and is a valuable resource for the fields of mammalian genomics and cardiovascular research.
Highlights
The cardiovascular system plays a crucial role in the distribution of nutrients to the various cells, tissues and organs within the mammalian body, and in the removal of waste products
The maintenance of a healthy cardiovascular system requires expression of genes that contribute to essential biological activities and repression of those that are associated with functions likely to be detrimental to cardiovascular homeostasis
As cardiovascular disease is of major clinical importance, understanding the roles of genes in co-expression networks and their associated molecular pathways will be useful in understanding their dysregulation in pathological events
Summary
The cardiovascular system plays a crucial role in the distribution of nutrients to the various cells, tissues and organs within the mammalian body, and in the removal of waste products. A major pathological process that disrupts cardiovascular homeostasis is ectopic calcification, which is associated with aging, hypertension and atherosclerosis (Abedin et al, 2004; Towler, 2008; Zhu et al, 2012; Tsang et al, 2016). Ectopic calcification most critically affects the arteries and cardiac valves, and is a significant, independent risk factor of cardiovascular mortality (Giachelli, 2004; Li et al, 2006; Zhu et al, 2012). The exact molecular basis underpinning the complex process of ectopic calcification, the dysregulated expression of genes involved in cardiovascular function, has yet to be fully defined
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
