Abstract
We identified a region in the human Ran GTPase-binding protein RanBP1 that shares similarities to the nuclear export signal of the inhibitor of the cAMP-dependent protein kinase. Mutational analysis confirmed that this region is responsible for the cytoplasmic accumulation of RanBP1 and can functionally replace the nuclear export signal of Rev of human immunodeficiency virus type 1. We showed that RanBP1 interferes with Rev-mediated expression of human immunodeficiency virus type 1, whereas the RanBP1 with inactivated nuclear export signal abrogates Rev function. Expression of a Rev-independent molecular clone, which is regulated via the constitutive transport element (CTE) of the simian retrovirus type 1, is not affected. These findings indicate that Rev and RanBP1 compete for the same nuclear export pathway, whereas Rev- and the CTE-mediated pathways are distinct. The inhibition of Rev function is independent of the ability of RanBP1 to associate with Ran and therefore, it is not likely a result of interference with Ran function. These data suggest that RanBP1 interacts with Rev at the putative nuclear receptor and, hence, shares a step in posttranscriptional pathway with Rev.
Highlights
We identified a region in the human Ran GTPasebinding protein Ran GTPase-binding protein 1 (RanBP1) that shares similarities to the nuclear export signal of the inhibitor of the cAMP-dependent protein kinase
Our data suggest that RanBP1 and Rev share a nuclear export pathway, which is distinct from the constitutive transport element (CTE)-mediated pathway
By data base searches for similarity to the nuclear export signals of different protein kinase (PKI) proteins, we identified a region in the human and mouse Ran GTPase-binding protein 1 (RanBP1) lying outside the RBD
Summary
We identified a region in the human Ran GTPasebinding protein RanBP1 that shares similarities to the nuclear export signal of the inhibitor of the cAMP-dependent protein kinase. The identified element from RanBP1 can efficiently replace the activation/nuclear export signal of Rev, and the resulting hybrid protein has the characteristic properties of Rev. We studied the role of the NES for the localization of the human RanBP1.
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