The Ran protein regulates nucleocytoplasmic transport mediated
by the karyopherin family of nuclear transport factors. Ran
is converted to the active, GTP bound form in the nucleus and
then binds to a conserved domain found in all karyopherins.
This interaction induces cargo binding for exportins and cargo
release for importins. In either case, the Ran·GTP is
then transported to the cytoplasm by the karyopherin, where
it is hydrolyzed to Ran·GDP. To ask whether Ran could
function as a nuclear mRNA export factor, we fused Ran to the
MS2 coat protein and inserted MS2 RNA-binding sites into an
unspliced cat mRNA that is normally sequestered in
the nucleus. Coexpression of MS2-Ran induced cat mRNA
export and CAT enzyme expression as effectively as, for example,
an MS2-Rev fusion protein. MS2-Ran dependent nuclear mRNA export
was reduced by inhibitors specific for Crm1, but not blocked
as was seen with MS2-Rev. Consistent with the hypothesis that
Crm1 is not the only karyopherin cofactor for MS2-Ran mediated
mRNA export, we show that not only Crm1 but also CAS, transportin,
importin β and exportin t can all export mRNA from the nucleus
when tethered via the MS2 RNA-binding domain. In contrast, two
shuttling hnRNPs, hnRNP A1 and hnRNP K, proved unable to function
as nuclear RNA export factors when expressed as MS2 fusions.
Together, these data argue that karyopherins that normally function
to transport proteins into or out of the nucleus are also capable
of exporting tethered mRNA molecules.