Toxoplasma Gondii Importin α Shows Weak Auto-Inhibition

Manasi Bhambid, Vishakha Dey, Sujata Walunj, Swati Patankar

Importin α is a nuclear transporter that binds to nuclear localization signals (NLSs), consisting of 7-20 positively charged amino acids found within cargo proteins. In addition to cargo binding, intramolecular interactions also occur within the importin α protein due to binding between the importin β-binding (IBB) domain and the NLS-binding sites, a phenomenon called auto-inhibition. The interactions causing auto-inhibition are driven by a stretch of basic residues, similar to an NLS, in the IBB domain. Consistent with this, importin α proteins that do not have some of these basic residues lack auto-inhibition; a naturally occurring example of such a protein is found in the apicomplexan parasite Plasmodium falciparum. In this report, we show that importin α from another apicomplexan parasite, Toxoplasma gondii, harbors basic residues (KKR) in the IBB domain and exhibits auto-inhibition. This protein has a long, unstructured hinge motif (between the IBB domain and the NLS-binding sites) that does not contribute to auto-inhibition. However, the IBB domain may have a higher propensity to form an α-helical structure, positioning the wild-type KKR motif in an orientation that results in weaker interactions with the NLS-binding site than a KRR mutant. We conclude that the importin α protein from T. gondii shows auto-inhibition, exhibiting a different phenotype from that of P. falciparum importin α. However, our data indicate that T. gondii importin α may have a low strength of auto-inhibition. We hypothesize that low levels of auto-inhibition may confer an advantage to these important human pathogens.