Unique genetic features of the naked mole-rat’s THADA gene

Abstract

Thyroid Adenoma Associated (THADA) is a protein-coding gene that maps to chromosomal band 2p21 and first has been described as a target of recurrent translocation partner in thyroid tumors. Many genome-wide association studies have revealed an association between THADA and two frequent human diseases, i.e. type 2 diabetes and polycystic ovary syndrome. Nevertheless, the function of its protein is not been completely understood. However, recent evidence suggests that in a Drosophila model THADA can act as a sarco/endoplasmic reticulum Ca²⁺-ATPase (SERCA)-interacting protein which uncouples SERCA from this function. Once being uncoupled, SERCA produces an increased amount of heat without transporting calcium thus triggering nonshivering thermogenesis. This data prompted us to compare human THADA with that of 65 other eutherian mammals. This includes a comparison of THADA of a variety of eutherian mammals with that of the naked-mole rat (Heterocephalus glaber) which is known to display unique features of thermoregulation compared to other mammals. Our analysis revealed five positions where only the naked-mole rat presented differences. These latter positions included four single amino acid substitutions and one unique deletion of six or seven amino acids, respectively, between residues 858 and 859. In future studies these changes will be analyzed further in detail for their functional relevance.