Direct observation of the evolution of cell‐type‐specific microRNA expression signatures supports the hematopoietic origin model of endothelial cells

Abstract

AbstractThe evolution of specialized cell‐types is a long‐standing interest of biologists, but given the deep time‐scales very difficult to reconstruct or observe. microRNAs have been linked to the evolution of cellular complexity and may inform on specialization. The endothelium is a vertebrate‐specific specialization of the circulatory system that enabled a critical new level of vasoregulation. The evolutionary origin of these endothelial cells is unclear. We hypothesized that Mir‐126, an endothelial cell‐specific microRNA may be informative. We here reconstruct the evolutionary history of Mir‐126. Mir‐126 likely appeared in the last common ancestor of vertebrates and tunicates, which was a species without an endothelium, within an intron of the evolutionary much older EGF Like Domain Multiple (Egfl) locus. Mir‐126 has a complex evolutionary history due to duplications and losses of both the host gene and the microRNA. Taking advantage of the strong evolutionary conservation of the microRNA among Olfactores, and using RNA in situ hybridization, we localized Mir‐126 in the tunicate Ciona robusta. We found exclusive expression of the mature Mir‐126 in granular amebocytes, supporting a long‐proposed scenario that endothelial cells arose from hemoblasts, a type of proto‐endothelial amoebocyte found throughout invertebrates. This observed change of expression of Mir‐126 from proto‐endothelial amoebocytes in the tunicate to endothelial cells in vertebrates is the first direct observation of the evolution of a cell‐type in relation to microRNA expression indicating that microRNAs can be a prerequisite of cell‐type evolution.