IRX3
Iroquois-class homeodomain protein IRX-3, also known as Iroquois homeobox protein 3, is a protein that in humans is encoded by the IRX3 gene.
Discovery and name
The Iroquois family of genes was discovered in Drosophila during a mutagenesis experiment designed to identify genes that affected the development of external sensory organs. When genes of this family were knocked out, the Drosophila flies expressed a unique patterning of bristles reminiscent of Iroquois American Indians, they were subsequently named after them. The molecular characteristics of these genes allowed the identification of homologs in C. elegans and several other vertebrates.Function
IRX3 is a member of the Iroquois homeobox gene family and plays a role in an early step of neural development. Members of this family appear to play multiple roles during pattern formation of vertebrate embryos.Specifically, IRX3 contributes to pattern formation in the spinal cord where it translates a morphogen gradient into transcriptional events, and is directly regulated by NKX2-2.
The Irx3 gene controls the subdivision of the neural territory by working together with various other homeodomain factors, all of these factors are expressed in partially overlapping domains along the dorsoventral axis in response to Sonic hedgehog molecules emanating from the floor plate. The combination of these signals defines five regions, each of which will give rise to five types of neurons. For example, the region that generates V2 neurons expresses both Irx3 and Nkx6.1, while that which forms MN neurons expresses Nkx6.1 alone. Irx3 overexpression in the MN domain transforms MN into V2 neurons.
Irx3 is also expressed in the ventricles of the heart, where it regulates the postnatal maturation and electrophysiological function of the ventricular conduction system. Embryonically, it is expressed in ventricular trabeculae, and its expression is restricted to the VCS in the mature heart. Its function is required for the rapid conduction characteristic of VCS components, and this is achieved by its indirect activation of Gja5-encoded Connexin-40, the major gap junction that facilitates rapid electrical propagation, and repression of Gja1-encoded Connexin-43. In the absence of Irx3, mice exhibit abnormal cardiac electrophysiology. Additionally, IRX3 is associated with conduction defects in humans, such as Brugada syndrome and bundle branch block.
Clinical significance
Association with obesity
Obesity-associated noncoding sequences within FTO interact with the promoter of IRX3 and FTO in human, mouse, and zebrafish. Obesity-associated single nucleotide polymorphisms are related to the expression of IRX3 in the human brain. A direct connection between the expression of IRX3 and body mass and composition was shown through the decrease in body weight of 25-30% in IRX3-deficient mice. This suggests that IRX3 influences obesity. Manipulation of IRX3 and IRX5 pathways has also been shown to decrease obesity markers in human cell cultures.Genetic variants of FTO and IRX3 genes are in high linkage disequilibrium and are associated with obesity risk.