Functional and structural studies of the vaccinia virus virulence factor N1 reveal a Bcl-2-like anti-apoptotic protein

Cooray, Samantha; Bahar, Mohammad W.; Abrescia, Nicola G. A.; McVey, Colin E.; Bartlett, Nathan W.; Chen, Ron A.-J.; Stuart, David I.; Grimes, Jonathan M.; Smith, Geoffrey L.

doi:10.1099/vir.0.82772-0

Cited by 157 publications

(230 citation statements)

References 49 publications

(74 reference statements)

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“…23,24 N1L also exists as a dimer, 14 but no domain swapping occurs in that case. 12,13 Other structural studies of Bcl-2 family proteins suggest that the fold is largely unaffected by the presence or absence of the C-terminal membrane anchor. If the C-terminal segments, absent in our construct, are taken into consideration, the dimer structure we describe is compatible with membrane anchoring (see, for example, Figure 1b, and note the dyadrelated a7 segments projecting towards the viewer).…”

Section: Discussionmentioning

confidence: 99%

“…14 N1L reportedly binds BH3 peptides of Bim, Bak and Bid, 12 and interacts with Bad, Bax and Bid in cells transfected with the N1L gene. 13 In contrast, virus lacking F1L (VVDF1L) results in apoptosis of infected cells in culture, 10,15 suggesting that Figure 5 Novel consensus sequence motif redefining the BH4 domain. The novel BH4 motif is formed by f 1 f 2 X X f 3 f 4 , where X is any amino acid, f is a hydrophobic residue and f 3 is an aromatic residue.…”

Section: Discussionmentioning

confidence: 99%

“…11 Moreover, the structure of M11L in complex with the BH3 peptide from Bak revealed that the canonical BH3-binding groove is utilized in this interaction, and tests of M11L mutants showed that its anti-apoptotic action relies on binding to Bak and/or Bax, less so to BH3-only proteins. 11 The vaccinia virus N1L protein also displays a Bcl-2-like fold, 12,13 even though, like myxoma virus M11L, its sequence does not resemble that of Bcl-2. Vaccinia virus lacking N1L replicate normally in cell culture, but are attenuated in animal models.…”

mentioning

confidence: 99%

“…14 The function of N1L is not fully understood, but its three-dimensional fold and ability to bind BH3 peptides suggest a role in modulating apoptosis. 12,13 Vaccinia virus F1L inhibits the mitochondrial pathway of apoptosis and, when overexpressed in mammalian cells, it localizes via its C-terminal tail to the mitochondria. 9 F1L interacts with the isolated BH3 domain of Bim and an F1L-deficient virus potently causes Bak/Bax-mediated apoptosis.…”

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confidence: 99%

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Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain-swapped dimer that binds a highly selective subset of BH3-containing death ligands

et al. 2008

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Apoptosis is an important part of the host's defense mechanism for eliminating invading pathogens. Some viruses express proteins homologous in sequence and function to mammalian pro-survival Bcl-2 proteins. Anti-apoptotic F1L expressed by vaccinia virus is essential for survival of infected cells, but it bears no discernable sequence homology to proteins other than its immediate orthologues in related pox viruses. Here we report that the crystal structure of F1L reveals a Bcl-2-like fold with an unusual N-terminal extension. The protein forms a novel domain-swapped dimer in which the a1 helix is the exchanged domain. Binding studies reveal an atypical BH3-binding profile, with sub-micromolar affinity only for the BH3 peptide of pro-apoptotic Bim and low micromolar affinity for the BH3 peptides of Bak and Bax. This binding interaction is sensitive to F1L mutations within the predicted canonical BH3-binding groove, suggesting parallels between how vaccinia virus F1L and myxoma virus M11L bind BH3 domains. Structural comparison of F1L with other Bcl-2 family members reveals a novel sequence signature that redefines the BH4 domain as a structural motif present in both pro-and anti-apoptotic Bcl-2 members, including viral Bcl-2-like proteins. In higher organisms, programmed cell death (apoptosis) is a prominent feature of the response to viral infection. The central role of the Bcl-2 protein family in maintaining cell survival or driving apoptosis, thereby removing infected, damaged or unwanted cells, is reflected by the expression of sequence, structural and functional orthologues of Bcl-2 by certain viruses. 1 The Bcl-2-related proteins share the presence of one or more of four Bcl-2 homology (BH) domains in their primary sequences and act either to promote cell survival or to counter this. 2 Pro-survival family members such as mammalian Bcl-2, Bcl-x L , Bcl-w, Mcl-1 and A1 block apoptosis until their protective effect is countered by binding of proapoptotic BH3-only proteins, such as Bim, Bad or Noxa. 2,3 Pro-survival Bcl-2 proteins contain multiple BH domains, whereas the distantly related BH3-only proteins contain only the a-helical BH3 domain, which binds a receptor-like groove on the pro-survival proteins, thereby inactivating them. 4,5 Upon activation, pro-apoptotic Bax and Bak, which are essential for apoptosis to proceed, 6 oligomerize to cause organellar damage.The viral Bcl-2-like proteins, including those expressed by adenovirus, Kaposi sarcoma-associated herpesvirus, Epstein-Barr virus (EBV) and g-herpesvirus 68, are all required for successful viral propagation and/or persistence. However, other viruses express anti-apoptotic proteins that are unrelated by sequence to any known cell death regulator. These include the myxoma virus M11L, 7 cytomegalovirus vMIA 8 and vaccinia virus F1L 9 and E3L. 10 Despite the lack of sequence similarity, M11L adopts a Bcl-2-like fold. 11 Moreover, the structure of M11L in complex with the BH3 peptide from Bak revealed that the canonical BH3-binding groove is utilized in...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain-swapped dimer that binds a highly selective subset of BH3-containing death ligands

et al. 2008

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“…Structural studies of M11L (37,38) revealed that although it lacks sequence similar-ity to the Bcl-2 family of proteins it adopts a Bcl-2-like fold and engages BH3 ligands utilizing the canonical BH3 domain binding groove (38). Vaccinia virus N1L was shown to also adopt a Bcl-2-like fold (39,40), which enabled it to assume dual functionality by mediating intrinsic apoptosis via the canonical Bcl-2 binding groove as well as NF-B signaling via an additional non-canonical site (41). Similarly, deerpox virus DPV022 was shown to be a Bcl-2-like protein, albeit with a dimeric topology due to a domain swap (42).…”

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confidence: 99%

The N Terminus of the Vaccinia Virus Protein F1L Is an Intrinsically Unstructured Region That Is Not Involved in Apoptosis Regulation

Caria

Marshall

Burton

et al. 2016

Journal of Biological Chemistry

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Subversion of host cell apoptotic responses is a prominent feature of viral immune evasion strategies to prevent premature clearance of infected cells. Numerous poxviruses encode structural and functional homologs of the Bcl-2 family of proteins, and vaccinia virus harbors antiapoptotic F1L that potently inhibits the mitochondrial apoptotic checkpoint. Recently F1L has been assigned a caspase-9 inhibitory function attributed to an N-terminal ␣ helical region of F1L spanning residues 1-15 (1) preceding the domain-swapped Bcl-2-like domains. Using a reconstituted caspase inhibition assay in yeast we found that unlike AcP35, a well characterized caspase-9 inhibitor from the insect virus Autographa californica multiple nucleopolyhedrovirus, F1L does not prevent caspase-9-mediated yeast cell death. Furthermore, we found that deletion of the F1L N-terminal region does not impede F1L antiapoptotic activity in the context of a viral infection. Solution analysis of the F1L N-terminal regions using small angle x-ray scattering indicates that the region of F1L spanning residues 1-50 located N-terminally from the Bcl-2 fold is an intrinsically unstructured region. We conclude that the N terminus of F1L is not involved in apoptosis inhibition and may act as a regulatory element in other signaling pathways in a manner reminiscent of other unstructured regulatory elements commonly found in mammalian prosurvival Bcl-2 members including Bcl-x L and Mcl-1.

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Necroptosis

Croker

Rickard

Shlomovitz

et al. 2018

Apoptosis and Beyond

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Functional and structural studies of the vaccinia virus virulence factor N1 reveal a Bcl-2-like anti-apoptotic protein

Cited by 157 publications

References 49 publications

Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain-swapped dimer that binds a highly selective subset of BH3-containing death ligands

Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain-swapped dimer that binds a highly selective subset of BH3-containing death ligands

The N Terminus of the Vaccinia Virus Protein F1L Is an Intrinsically Unstructured Region That Is Not Involved in Apoptosis Regulation

Necroptosis

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