Novel cell permeable motif derived from the PreS2-domain of hepatitis-B virus surface antigens

Efficient transfer of proteins or nucleic acids across cellular membranes is a major problem in cell biology. Recently the existence of a fusogenic sequence was predicted in the junction area of the PreS2- and S-domain of the hepatitis-B virus surface antigens. We have identified cell permeability as a novel property of the PreS2-domain. Cell permeability of PreS2 is not restricted to hepatocytes. PreS2 translocates in an energy-independent manner into cells and is evenly distributed over the cytosol. Detailed analysis revealed that cell-permeability is mediated by an amphipatic α-helix between amino acids 41 and 52 of PreS2. Destruction of this translocation motif (PreS2-TLM) abolishes cell permeability. PreS2-TLM per se can act as a shuttle for peptides and functional proteins (such as EGFP). This permits the highly specific modulation of intracellular signal transduction by transfer of peptides competing protein–protein interactions as demonstrated by specific inhibition of TNFα-dependent activation of c-Raf-1 kinase. Moreover in vivo functionality was demonstrated by PreS2-TLM-dependent protein transfer into primary bone marrow cells and into the liver. The amphipatic motif is conserved between the different hepatitis-B virus subtypes, and the surface proteins of avian and rodent hepadnaviruses exhibit similar amphipatic peptide sequences. In respect to hepatitis-B virus-infection, the PreS2-TLM could represent the postulated fusion peptide and play a crucial role in the internalization of the viral particle.