The Rev protein of human immunodeficiency virus type 1 is an RNA-binding protein that is required for nuclear export of unspliced and partially spliced viral mRNAs. Nuclear import of human immunodeficiency virus type 1 Rev has been suggested to depend on the classic nuclear transport receptor importin , but not on the adapter protein importin ␣. We now show that, similar to importin ␣, Rev is able to dissociate RanGTP from recycling importin , a reaction that leads to the formation of a novel import complex. Besides importin , the transport receptors transportin, importin 5, and importin 7 specifically interact with Rev and promote its nuclear import in digitonin-permeabilized cells. A single arginine-rich nuclear localization sequence of Rev is required for interaction with all importins tested so far. In contrast to the importin -binding domain of importin ␣, Rev interacts with an N-terminal fragment of importin . Transportin contains two independent binding sites for Rev. Hence, the mode of interaction of importin  and transportin with Rev is clearly distinct from that with their classic import cargoes. Taken together, the viral protein takes advantage of multiple cellular transport pathways for its nuclear accumulation.The machinery for transport of macromolecules across the nuclear envelope consists of the nuclear pore complex, which is embedded between the inner and outer nuclear membrane (1), and a large variety of soluble transport factors (for reviews see Refs. 2-4). The transport cargoes are characterized by recognition sequences for soluble transport receptors: nuclear export sequences mediate the interaction of proteins with exportins, allowing transport out of the nucleus, whereas nuclear localization signals (NLSs) 2 bind to importins, promoting transport of proteins into the nucleus. Importins and exportins, collectively also referred to as karyopherins, belong to the importin  superfamily of transport receptors. They interact not only with their transport cargo but also with proteins of the nuclear pore complex, as well as with the small GTP-binding protein Ran, a factor that plays an important role in the assembly or disassembly of transport complexes (3). Importin , the prototype of this family, was originally identified as the transport receptor that is involved in nuclear import of proteins containing a "classic" NLS, i.e. a short stretch of amino acids enriched in basic residues, forming either a single or a bipartite transport motif. These NLSs do not bind to importin  directly but via an adapter protein, importin ␣. Importin ␣ contains a characteristic importin -binding-(IBB) domain. A ternary complex containing the import cargo, importin ␣, and importin  assembles in the cytoplasm, translocates across the nuclear pore complex, and dissociates in the nucleus upon binding of RanGTP to importin . The import receptor then recycles back to the cytoplasm in a complex with RanGTP. A dedicated exportin, CAS, is used for export of importin ␣ out of the nucleus (5). Hundreds of proteins...
