Abstract
Ran is a small GTPase whose nucleotide-bound forms cycle through nuclear pore complexes (NPCs) to direct nucleocytoplasmic transport (NCT). Generally, Ran guanosine triphosphate (RanGTP) binds cargo-carrying karyopherin receptors (Kaps) in the nucleus and releases them into the cytoplasm following hydrolysis to Ran guanosine diphosphate (RanGDP). This generates a remarkably steep Ran gradient across the nuclear envelope that sustains compartment-specific cargo delivery and accumulation. However, because NPCs are permeable to small molecules of comparable size, it is unclear how an uncontrolled mixing of RanGTP and RanGDP is prevented. Here, we find that an NPC-enriched pool of karyopherin subunit beta 1 (KPNB1, hereafter referred to as Kapβ1) selectively mediates Ran diffusion across the pore but not passive molecules of similar size (e.g. GFP). This is due to RanGTP having a stronger binding interaction with Kapβ1 than RanGDP. For this reason, the RanGDP importer, nuclear transport factor 2, facilitates the return of RanGDP into the nucleus following GTP hydrolysis. Accordingly, the enrichment of Kapβ1 at NPCs may function as a retention mechanism that preserves the sharp transition of RanGTP and RanGDP in the nucleus and cytoplasm, respectively.