The FHA domain is essential for autoinhibition of KIF1A/UNC-104 proteins.

KIF1A/UNC-104 proteins, which are members of the kinesin superfamily of motor proteins, play a pivotal role in the axonal transport of synaptic vesicles and their precursors. Drosophila melanogaster UNC-104 (DmUNC-104) is a relatively recently discovered Drosophila kinesin. Although some point mutations that disrupt synapse formation have been identified, the biochemical properties of the DmUNC-104 protein have not been investigated. Here, we prepared recombinant full-length DmUNC-104 protein and determined its biochemical features. We analyzed the effect of a previously identified missense mutation in the forkhead-associated (FHA) domain, called bristly (bris). The bris mutation strongly promoted the dimerization of DmUNC-104 protein, whereas wild-type DmUNC-104 was a mixture of monomers and dimers. We further tested the G618R mutation near the FHA domain, which was previously shown to disrupt the autoinhibition of Caenorhabditis elegans UNC-104. The biochemical properties of the G618R mutant recapitulated those of the bris mutant. Finally, we found that disease-associated mutations also promote the dimerization of DmUNC-104. Collectively, our results suggest that the FHA domain is essential for autoinhibition of KIF1A/UNC-104 proteins, and that abnormal dimerization of KIF1A might be linked to human diseases.