Late Domain-Independent Rescue of a Release-Deficient Moloney Murine Leukemia Virus by the Ubiquitin Ligase Itch

Moloney murine leukemia virus (MoMLV) Gag utilizes its late (L) domain motif PPPY to bind members of the Nedd4-like ubiquitin ligase family. These interactions recruit components of the cell''s budding machinery that are critical for virus release. MoMLV Gag contains two additional L domains, PSAP and LYPAL, that are believed to drive residual MoMLV release via interactions with cellular proteins Tsg101 and Alix, respectively. We found that overexpression of Tsg101 or Alix failed to rescue the release of PPPY-deficient MoMLV via these other L domains. However, low-level expression of the ubiquitin ligase Itch potently rescued the release and infectivity of MoMLV lacking PPPY function. In contrast, other ubiquitin ligases such as WWP1, Nedd4.1, Nedd4.2, and Nedd4.2s did not rescue this release-deficient virus. Efficient rescue required the ubiquitin ligase activity of Itch and an intact C2 domain but not presence of the endophilin-binding site. Additionally, we found Itch to immunoprecipitate with MoMLV Gag lacking the PPPY motif and to be incorporated into rescued MoMLV particles. The PSAP and LYPAL motifs were dispensable for Itch-mediated virus rescue, and their absence did not affect the incorporation of Itch into the rescued particles. Itch-mediated rescue of release-defective MoMLV was sensitive to inhibition by dominant-negative versions of ESCRT-III components and the VPS4 AAA ATPase, indicating that Itch-mediated correction of MoMLV release defects requires the integrity of the host vacuolar sorting protein pathway. RNA interference knockdown of Itch suppressed the residual release of the MoMLV lacking the PPPY motif. Interestingly, Itch stimulation of the PPPY-deficient MoMLV release was accompanied by the enhancement of Gag ubiquitination and the appearance of new ubiquitinated Gag proteins in virions. Together, these results suggest that Itch can facilitate MoMLV release in an L domain-independent manner via a mechanism that requires the host budding machinery and involves Gag ubiquitination.Retroviruses require access to the host budding machinery to exit the cell (5, 13, 40). To this end, retroviral Gag polyproteins use short sequences called late (L) domains to promote virus release by recruiting members of the host vacuolar protein sorting (vps) machinery. In the cell, vps proteins are involved in membrane dynamics that facilitate the separation of daughter cells at the completion of cytokinesis (9, 39) and the budding of vesicles into endosomal compartments or multivesicular bodies (MVB) (2, 23), a process topologically similar to virus budding (57). Class E vps proteins are organized into three heteromeric endosomal complexes (called endosomal sorting complexes) required for transport, namely, ESCRT-I, -II, and -III (2). In the current model for budding, sequential recruitment of ESCRT components on the cytoplasmic face of the membrane facilitates vesicle invagination into MVB compartments and viral egress from the cell (2). The disassembly of ESCRT-III components is catalyzed by the activity of VPS4 AAA-type ATPase, which in turn is presumed to trigger membrane fission events (3, 50). Any disruption in this sequence, such as mutations in L domain motifs or dominant-negative interference with the function of ESCRT-III members or the VPS4 ATPase, adversely affects virus release. This indicates that Gag interactions with the ESCRT machinery are necessary for virus budding and separation from the cell (19, 21, 34, 49, 57).Currently, three types of L domain motifs have been identified: PT/SAP, LYPX_nL, and PPPY. All retroviral Gag molecules contain at least one of these motifs, as multiple L domains are believed to synergistically function to ensure efficient viral release. Moloney murine leukemia virus (MoMLV) Gag carries all three L domain motifs, PSAP, LYPAL, and PPPY, which bind the vps protein Tsg101, the ESCRT-associated protein Alix (46), and members of the Nedd4-ubiquitin ligase family (33), respectively. In HIV-1, the PTAP motif in the p6 region of Gag binds Tsg101 (16, 56), which functions in viral budding (16, 35) as a member of ESCRT-I (16, 36, 57). The LYPX_nL motif is also located in p6 and is the binding site for Alix (49, 57), a protein that also interacts with the nucleocapsid domain of HIV-1 Gag (14, 43) and links Gag to components of ESCRT-III (14). Similarly, the human T-cell leukemia virus (HTLV-I) Gag carries PPPY and PTAP L domains, which both contribute to efficient HTLV-1 release (6, 7, 21). The PPPY L domain motif, which is found in numerous retroviral Gag polyproteins (6, 7, 19, 21, 27, 28, 61, 62), plays a critical role in MoMLV release, as mutations disrupting its sequence lead to significant decreases in virus budding and release (33, 62). PSAP and LYPAL, the additional L domain motifs, are believed to serve little to no role in the release of MoMLV Gag virus-like particles (45, 46).The role of Nedd4-like ubiquitin ligases in budding events was initially established by data obtained with the yeast Nedd4-like ligase Rsp5, an enzyme that ubiquitinates surface proteins, thus signaling their incorporation into the MVB pathway (26). From retroviral budding studies, multiple findings support the notion that Nedd4-like ubiquitin ligases link PPPY-containing Gag proteins to the host ESCRT machinery. For example, mutations in the PPPY motif or expression of dominant-negative versions of Nedd4-like ligases resulted in budding defects similar to those seen upon interference with the function of ESCRT-III members (7, 21, 27, 28, 33, 62). Overexpression of Nedd4-like ligases WWP1 and Itch corrected the budding defects of a MoMLV PPPY mutant that retained residual binding to both ligases (33). Also, when transplanted to a heterologous retroviral Gag, the PPPY L domain creates a requirement for Nedd4-like ubiqutin ligase activity to facilitate viral release that is dependent on the presence of a functional ESCRT pathway (63). Collectively, these observations support the notion that Nedd4-like ubiquitin ligases link retroviral Gag polyproteins to components of the ESCRT pathway necessary for budding.Both endosomal and viral budding require the ubiquitin conjugation properties of Nedd4-like ligases, indicating that ubiquitin transfer to a key protein(s) is necessary to promote budding. A role for Gag ubiquitination in viral budding has been suggested (8, 20, 22, 48). In fact, ubiquitin attachment to equine infectious anemia virus (EIAV) Gag can substitute for the lack of L domains and rescue viral budding (25), suggesting that ubiquitin molecules conjugated to Gag can signal the recruitment of the host ESCRT machinery. For feline immunodeficiency virus, efficient budding seems to require L domain-dependent ubiquitination of Gag proteins (8) that is independent of the L domain ability to directly recruit Nedd4-like ubiquitin ligases (i.e., by means of the PT/SAP L domain motif) (8). Similarly, ubiquitination of HTLV-1 Gag was also shown to play a significant role in viral release (22). Conversely, data arguing in favor of a role for the ubiquitination of transacting factors, but not Gag, in the facilitation of viral budding have also been reported (10, 63). Thus Gag polyproteins recruit, in a PPPY-dependent or -independent manner, enzymatically active Nedd4-like ubiquitin ligases that conjugate ubiquitin molecules to Gag or to Gag-binding host factors. Such interactions, whether direct or indirect, are believed to link the viral protein to the host ESCRT pathway and facilitate release.In addition to the well-characterized cellular proteins that bind primary L domain motifs, retroviral Gag can recruit other host factors, either via secondary L domains or independently of L domains (10, 24, 29, 55, 59). These cellular factors are believed to promote virus production by facilitating Gag protein trafficking to the plasma membrane and/or providing additional L domain-independent links to the host vps pathway. Examples of these parallel pathways are illustrated in the rescue of a budding-defective HIV-1 lacking the PTAP domain by overexpression of Alix (15, 54) and in the remarkably potent rescue of HIV-1 lacking all known L domains by the overexpression of Nedd4.2s, a Nedd4.2 isoform that belongs to the Nedd4-like ubiquitin ligase family (10, 55). In this study, we sought to identify host cell factors that rescue budding defects of the MoMLV mutant lacking the PPPY motif (MoMLV AAAY mutant). Our studies provide evidence that Itch overexpression rescued budding and infectivity defects of the MoMLV AAAY mutant virus, indicating that Gag can recruit the ubiquitin ligase Itch in an L domain-independent manner to facilitate MoMLV release via a mechanism that involves Gag ubiquitination.