Role for the L1-52/55K Protein in the Serotype Specificity of Adenovirus DNA Packaging

Wohl, Beverly P.; Hearing, Patrick

doi:10.1128/jvi.00040-08

Cited by 14 publications

(19 citation statements)

References 26 publications

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“…Both the full-length and 40-kDa bands disappear and are replaced by higher-molecular-mass species in electrophoresis performed in the absence of ␤-mercaptoethanol, suggesting the formation of disulfide-linked homodimers mediated by the only Cys residue (Cys24) in L1 52/55k (9,22). The 34-kDa band has been proposed to originate by an additional cleavage at the N terminus, because it does not react with antibodies against either residues 9 to 22 (9)(10)(11)(12)(13)(14)(15)(16)(17)(18)(19)(20)(21)(22) or 402-415 in L1 52/55k, and its electrophoretic mobility is not sensitive to nonreducing conditions, a finding consistent with the absence of Cys24 (9,22).…”

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confidence: 99%

“…L1 52/55k binds to the viral packaging sequence in vivo and to the putative packaging ATPase IVa2 in vitro (17-19). L1 52/55k contributes to the specificity of packaging, possibly via an interaction with capsid protein IIIa (12,20). Furthermore, L1 52/55k has been reported to bind nonspecifically to DNA and to interact with pVII and its mature form VII in infected cells (21).…”

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Processing of the L1 52/55k Protein by the Adenovirus Protease: a New Substrate and New Insights into Virion Maturation

Pérez-Berná

Mangel

McGrath

et al. 2014

J Virol

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Late in adenovirus assembly, the viral protease (AVP) becomes activated and cleaves multiple copies of three capsid and three core proteins. Proteolytic maturation is an absolute requirement to render the viral particle infectious. We show here that the L1 52/55k protein, which is present in empty capsids but not in mature virions and is required for genome packaging, is the seventh substrate for AVP. A new estimate on its copy number indicates that there are about 50 molecules of the L1 52/55k protein in the immature virus particle. Using a quasi-in vivo situation, i.e., the addition of recombinant AVP to mildly disrupted immature virus particles, we show that cleavage of L1 52/55k is DNA dependent, as is the cleavage of the other viral precursor proteins, and occurs at multiple sites, many not conforming to AVP consensus cleavage sites. Proteolytic processing of L1 52/55k disrupts its interactions with other capsid and core proteins, providing a mechanism for its removal during viral maturation. Our results support a model in which the role of L1 52/55k protein during assembly consists in tethering the viral core to the icosahedral shell and in which maturation proceeds simultaneously with packaging, before the viral particle is sealed.A denovirus morphogenesis ends with a maturation step comprising proteolytic cleavage of several capsid and core precursor proteins. Without these cleavages, the immature particle lacks infectivity because of its inability to uncoat (1-3). Maturation primes the viral particle for stepwise uncoating by facilitating penton release and by loosening the condensed genome and its attachment to the icosahedral shell (4, 5). Proteolytic processing is carried out by the adenovirus protease (AVP; or L3 23K protein) (6). In human adenovirus type 2 (HAdV-2), AVP recognizes (M/I/ L)XGX-G and (M/I/L)XGG-X sequence motifs (7,8). These sequences are present in the precursor proteins pIIIa, pVI, and pVIII in the icosahedral shell, as well as in the DNA-binding polypeptides pVII, pre-, and the terminal protein. These six precursor proteins have been shown to be substrates for AVP. Another potential substrate, because it contains an AVP consensus sequence motif, is polypeptide L1 52/55k.The L1 52/55k protein in HAdV-2 is 415 residues in length, with an AVP consensus cleavage site at the 351-352 position (LAGT-G). Although the molecular mass of L1 52/55k calculated from its sequence is 47 kDa, the protein was named by its electrophoretic mobility; it moved as a doublet due to two different phosphorylation states (9). L1 52/55k is part of the genome packaging machinery, together with polypeptides IIIa, IVa2, L4 33k, and L4 22k (10-15). An L1 52/55k deletion construct produces only empty capsids (10), and a thermosensitive mutation in the L1 52/55k C-terminal region (ts369; 333-EL-336 to 333-GP-336) causes partial packaging (16). L1 52/55k binds to the viral packaging sequence in vivo and to the putative packaging ATPase IVa2 in vitro (17-19). L1 52/55k contributes to the specificity of packaging, po...

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confidence: 99%

Processing of the L1 52/55k Protein by the Adenovirus Protease: a New Substrate and New Insights into Virion Maturation

Pérez-Berná

Mangel

McGrath

et al. 2014

J Virol

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“…In an earlier study, we found that the Ad17 L1-52/55K protein was not able to substitute for the Ad5 L1-52/55K protein in an infection with an Ad5 L1-52/55K mutant virus (28). In contrast, both the Ad17 IVa2 and L4-22K proteins were able to functionally substitute for their Ad5 counterparts (28). These results suggested the possibility that the serotype specificity is determined by the interaction be-tween the L1-52/55K protein and the Ad packaging domain and/or capsid components during virus assembly.…”

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“…The pseudopackaging of the genome of one Ad serotype into the capsid of another Ad serotype is generally inefficient except with highly related viruses (18). The Ad IVa2 and L1-52/55K proteins have been implicated in the serotype specificity of Ad DNA packaging (28,32). In an earlier study, we found that the Ad17 L1-52/55K protein was not able to substitute for the Ad5 L1-52/55K protein in an infection with an Ad5 L1-52/55K mutant virus (28).…”

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“…The Ad IVa2 and L1-52/55K proteins have been implicated in the serotype specificity of Ad DNA packaging (28,32). In an earlier study, we found that the Ad17 L1-52/55K protein was not able to substitute for the Ad5 L1-52/55K protein in an infection with an Ad5 L1-52/55K mutant virus (28). In contrast, both the Ad17 IVa2 and L4-22K proteins were able to functionally substitute for their Ad5 counterparts (28).…”

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Adenovirus Structural Protein IIIa Is Involved in the Serotype Specificity of Viral DNA Packaging

Hearing

2011

J Virol

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The packaging of the adenovirus (Ad) genome into a capsid displays serotype specificity. This specificity has been attributed to viral packaging proteins, the IVa2 protein and the L1-52/55K protein. We previously found that the Ad17 L1-52/55K protein was not able to complement the growth of an Ad5 L1-52/55K mutant virus, whereas two other Ad17 packaging proteins, IVa2 and L4-22K, could complement the growth of Ad5 viruses with mutations in the respective genes. In this report, we investigated why the Ad17 L1-52/55K protein was not able to complement the Ad5 L1-52/55K mutant virus. We demonstrate that the Ad17 L1-52/55K protein binds to the Ad5 IVa2 protein in vitro and the Ad5 packaging domain in vivo, activities previously associated with packaging function. The Ad17 L1-52/55K protein also associates with empty Ad5 capsids. Interestingly, we find that the Ad17 L1-52/55K protein is able to complement the growth of an Ad5 L1-52/55K mutant virus in conjunction with the Ad17 structural protein IIIa. The same result was found with the L1-52/55K and IIIa proteins of several other Ad serotypes, including Ad3 and Ad4. The Ad17 IIIa protein associates with empty Ad5 capsids. Consistent with the complementation results, we find that the IIIa protein interacts with the L1-52/55K protein in vitro and associates with the viral packaging domain in vivo. These results underscore the complex nature of virus assembly and genome encapsidation and provide a new model for how the viral genome may tether to the empty capsid during the encapsidation process.

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Virus Maturation

Martín¹

2019

Advances in Experimental Medicine and Biology

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Role for the L1-52/55K Protein in the Serotype Specificity of Adenovirus DNA Packaging

Cited by 14 publications

References 26 publications

Processing of the L1 52/55k Protein by the Adenovirus Protease: a New Substrate and New Insights into Virion Maturation

Processing of the L1 52/55k Protein by the Adenovirus Protease: a New Substrate and New Insights into Virion Maturation

Adenovirus Structural Protein IIIa Is Involved in the Serotype Specificity of Viral DNA Packaging

Virus Maturation

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