ABSTRACT
Analysis of the interactions of low-risk human papillomavirus type 11 (HPV11) L2 with karyopherin beta (Kap beta) nuclear import receptors revealed that L2 interacted with Kap beta 1, Kap beta 2, and Kap beta 3 and formed a complex with the Kap alpha 2 beta 1 heterodimer. HPV11 L2 contains two nuclear localization signals (NLSs)-in the N terminus and the C terminus-that could mediate its nuclear import via a classical pathway. Each NLS was functional in vivo, and deletion of both of them abolished L2 nuclear localization. Both NLSs interacted with the viral DNA. Thus, HPV11 L2 can interact with several karyopherins and the viral DNA and may enter the nucleus via multiple pathways.
Subject(s)
Capsid Proteins/metabolism , DNA, Viral/metabolism , Human papillomavirus 11/metabolism , Receptors, Cytoplasmic and Nuclear/metabolism , beta Karyopherins/metabolism , Active Transport, Cell Nucleus , Capsid Proteins/analysis , Capsid Proteins/genetics , Cell Nucleus/chemistry , Cell Nucleus/metabolism , HeLa Cells , Human papillomavirus 11/genetics , Humans , Nuclear Localization Signals/analysis , Nuclear Localization Signals/genetics , Nuclear Localization Signals/metabolismABSTRACT
We have investigated the nuclear import strategies of high-risk HPV18 L2 minor capsid protein. HPV18 L2 interacts with Kap alpha2 adapter, and Kap beta2 and Kap beta3 nuclear import receptors. Moreover, binding of RanGTP to either Kap beta2 or Kap beta3 inhibits their interaction with L2, suggesting that these Kap beta/L2 complexes are import competent. Mapping studies show that HPV18 L2 contains two NLSs: in the N-terminus (nNLS) and in the C-terminus (cNLS), both of which can independently mediate nuclear import. Both nNLS and cNLS form a complex with Kap alpha2beta1 heterodimer and mediate nuclear import via a classical pathway. The nNLS is also essential for the interaction of HPV18 L2 with Kap beta2 and Kap beta3. Interestingly, both nNLS and cNLS interact with the viral DNA and this DNA binding occurs without nucleotide sequence specificity. Together, the data suggest that HPV18 L2 can interact via its NLSs with several Kaps and the viral DNA and may enter the nucleus via multiple import pathways mediated by Kap alpha2beta1 heterodimers, Kap beta2 and Kap beta3.