The Evolution of the Discrete Multirenculate Kidney in Mammals from Ecological and Molecular Perspectives

Mammals have developed different kinds of renal structures during evolution, yet the origin of the renal structural phenotypes and the molecular mechanisms underlying their adaptive evolution remains unclear. Here, we reconstructed the ancestral state of the renal structures across mammals and found that the unilobar kidney was the ancestral character in mammals. The subsequent correlation analyses between renal phenotypes and life history traits revealed that species with a larger body or in aquatic habitats tend to have evolved discrete multirenculate kidneys (DMKs). To explore the molecular convergent mechanisms among mammals with this most distinct renal structure, the DMK, we used 45 genes related to duplex/multiplex kidney diseases to compare the evolutions of species with DMKs and with other renal phenotypes. Twelve rapidly evolving genes that were functionally enriched in cilium assembly and centrosome were identified in species with DMKs, suggesting that these genes played key roles in the evolution of DMKs. In addition, positive selection was detected in six crucial genes which are mainly involved in epithelial tube morphogenesis and the regulation of neurogenesis. Finally, 12 convergent amino acid substitutions, 6 of which are in crucial domain of proteins, were shared by 2 or more lineages with DMKs. These findings could provide some novel insights into the origin and evolution of renal structures across mammals and the pathogenesis of renal diseases in humans.