Abstract
The human herpesvirus-7 (HHV-7) U21 gene product binds to class I major histocompatibility complex (MHC) molecules and reroutes them to a lysosomal compartment. Trafficking of integral membrane proteins to lysosomes is mediated through cytoplasmic sorting signals that recruit heterotetrameric clathrin adaptor protein (AP) complexes, which in turn mediate protein sorting in post-Golgi vesicular transport. Since U21 can mediate rerouting of class I molecules to lysosomes even when lacking its cytoplasmic tail, we hypothesize the existence of a cellular protein that contains the lysosomal sorting information required to escort class I molecules to the lysosomal compartment. If such a protein exists, we expect that it might recruit clathrin adaptor protein complexes as a means of lysosomal sorting. Here we describe experiments demonstrating that the μ adaptins from AP-1 and AP-3 are involved in U21-mediated trafficking of class I molecules to lysosomes. These experiments support the idea that a cellular protein(s) is necessary for U21-mediated lysosomal sorting of class I molecules. We also examine the impact of transient versus chronic knockdown of these adaptor protein complexes, and show that the few remaining μ subunits in the cells are eventually able to reroute class I molecules to lysosomes.
Highlights
IntroductionHHV-6 and -7 remain latent or establish persistent infections
Like all other herpesviruses, HHV-6 and -7 remain latent or establish persistent infections
When m2 was depleted from U21-expressing cells, surface levels of class I molecules remained low, strongly suggesting that adaptor protein (AP)-2 does not play a role in mediating trafficking of class I molecules to the plasma membrane (Figure 1c, blue trace)
Summary
HHV-6 and -7 remain latent or establish persistent infections. To do so, they must avoid detection and elimination by the immune system. Most of the herpesviruses far examined employ the strategy of interfering with viral antigen presentation to cytotoxic T lymphocytes (CTLs) (for review, see [1]). Some herpesviral proteins interfere with proteolysis of antigens or peptide transport into the ER [2,3,4]. Judging from the number and molecular diversity of these strategies, the removal of class I MHCpeptide complexes from the cell surface must be evolutionarily advantageous to these viruses, likely as a means of escaping immune detection
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