BK Polyomavirus Genotypes Represent Distinct Serotypes with Distinct Entry Tropism

Pastrana, Diana V.; Ray, Upasana; Magaldi, Thomas G.; Schowalter, Rachel M.; Çuburu, Nicolas; Buck, Christopher B.

doi:10.1128/jvi.01189-13

Cited by 92 publications

(97 citation statements)

References 41 publications

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“…The criterion used to designate serotypes is generally based upon a fold difference in antibody-mediated neutralization titers between viral types, which differ in magnitude and range between virus families: for adenovirus, 8-to 16-fold (52); for rotavirus, Ն20-fold (53); and for polyomavirus, 4-to 100-fold (54). For HPV there are no currently defined criteria with which to designate L1 serotypes.…”

Section: Discussionmentioning

confidence: 99%

Naturally Occurring Capsid Protein Variants of Human Papillomavirus Genotype 31 Represent a Single L1 Serotype

Bissett

Godi

Fleury

et al. 2015

J Virol

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We investigated naturally occurring variation within the major (L1) and minor (L2) capsid proteins of oncogenic human papillomavirus (HPV) genotype 31 (HPV31) to determine the impact on capsid antigenicity. L1L2 pseudoviruses (PsVs) representing the three HPV31 variant lineages, variant lineages A, B, and C, exhibited comparable particle-to-infectivity ratios and morphologies. Lineage-specific L1L2 PsVs demonstrated subtle differences in susceptibility to neutralization by antibodies elicited following vaccination or preclinical L1 virus-like particle (VLP) immunization or by monoclonal antibodies; however, these differences were generally of a low magnitude. These data indicate that the diagnostic lineage-specific single nucleotide polymorphisms within the HPV31 capsid genes have a limited effect on L1 antibody-mediated neutralization and that the three HPV31 variant lineages belong to a single L1 serotype. These data contribute to our understanding of HPV L1 variant antigenicity. IMPORTANCEThe virus coat (capsid) of the human papillomavirus contains major (L1) and minor (L2) capsid proteins. These proteins facilitate host cell attachment and viral infectivity and are the targets for antibodies which interfere with these events. In this study, we investigated the impact of naturally occurring variation within these proteins upon susceptibility to viral neutralization by antibodies induced by L1 VLP immunization. We demonstrate that HPV31 L1 and L2 variants exhibit similar susceptibility to antibody-mediated neutralization and that for the purposes of L1 VLP-based vaccines, these variant lineages represent a single serotype. Human papillomaviruses (HPVs) have a double-stranded DNA genome of approximately 8 kb which is replicated via host cell polymerases with an error rate of ca. 2 ϫ 10 Ϫ8 base substitutions per site per year (1), substantially lower than that found in the majority of single-stranded RNA viruses (ca. 1 ϫ 10 Ϫ3 base substitutions per site per year) (2). Despite the low evolutionary rate of the HPV genome, variants have arisen over time, leading to the generation of distinct intragenotype lineages classified by a sequence difference of 1 to 10% across the whole genome (3). The single nucleotide polymorphisms (SNPs) that allow segregation of these variants into distinct lineages can be found in each gene/ region, with the highest number accumulating in the noncoding regions (NCR1, NCR2, and URR) and the lowest number accumulating in structural (L1 and L2) genes (4).The HPV structural genes encode the major (L1) and minor (L2) proteins that form the nonenveloped icosahedral viral capsid, which comprises 72 pentameric L1 capsomers, and each capsomer has an upper estimate of one L2 protein (5). The L1 protein mediates attachment to host cells (6), while the L2 protein is essential for subsequent viral infectivity (7).The humoral immune response following natural HPV infection predominately targets conformational epitopes on the surface-exposed loop regions of the L1 protein (8, 9). Seroconvers...

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Section: Discussionmentioning

confidence: 99%

Naturally Occurring Capsid Protein Variants of Human Papillomavirus Genotype 31 Represent a Single L1 Serotype

Bissett

Godi

Fleury

et al. 2015

J Virol

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“…BKPyV persists in the urinary tract of the individual and is shed in the urine asymptomatically. BKPyV exists in 4 genotypes (I-IV) and subtypes, which are distinguishable by neutralization serology (Pastrana et al 2013). Subtype Ia is thought to be the most prevalent subtype and is prevalent worldwide, and subtype IV is less common and its prevalence appears to vary in different world regions Jin 1993;Takasaka et al 2004).…”

Section: Bkpyvmentioning

confidence: 99%

“…Studies based on virus-like particle (VLP)-based neutralizing assays indicated that VP1 capsid proteins of each of the major BKPyV genotypes can reciprocally escape from neutralization by antibodies raised against the other types. These serotypedefining differences between the genotypes can be related to a few key amino acid differences within the VP1-BC2 surface loop (Pastrana et al 2013). Based on cellbased transduction assays, this study also indicated that different BKPyV genotypes and subtypes may have altered attachment requirements and virulence potential in vivo, reflecting the changes in amino acids within their VP1 capsomere knob (Pastrana et al 2013).…”

Section: Receptors and Coreceptorsmentioning

confidence: 99%

“…These serotypedefining differences between the genotypes can be related to a few key amino acid differences within the VP1-BC2 surface loop (Pastrana et al 2013). Based on cellbased transduction assays, this study also indicated that different BKPyV genotypes and subtypes may have altered attachment requirements and virulence potential in vivo, reflecting the changes in amino acids within their VP1 capsomere knob (Pastrana et al 2013). Komagome et al (2002) found through screening that the VLPs containing the JCPyV major viral capsid protein VP1 had the highest affinity for neoglycoproteins containing the terminal ␣2,6-linked sialic acid.…”

Section: Receptors and Coreceptorsmentioning

confidence: 99%

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Entry, infection, replication, and egress of human polyomaviruses: an update

Bhattacharjee

Chattaraj

2017

Can. J. Microbiol.

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Polyomaviruses (PyVs), belonging to the family Polyomaviridae, are a group of small, nonenveloped, double-stranded, circular DNA viruses widely distributed in the vertebrates. PyVs cause no apparent disease in adult laboratory mice but cause a wide variety of tumors when artificially inoculated into neonates or semipermissive animals. A few human PyVs, such as BK, JC, and Merkel cell PyVs, have been unequivocally linked to pathogenesis under conditions of immunosuppression. Infection is thought to occur early in life and persists for the lifespan of the host. Over evolutionary time scales, it appears that PyVs have slowly co-evolved with specific host animal lineages. Host cell surface glycoproteins and glycolipids seem to play a decisive role in the entry stage of viral infection and in channeling the virions to specific intracellular membrane-bound compartments and ultimately to the nucleus, where the genomes are replicated and packaged for release. Therefore the transport of the infecting virion or viral genome to this site of multiplication is an essential process in productive viral infection as well as in latent infection and transformation. This review summarizes the major findings related to the characterization of the nature of the interactions between PyV and host protein and their impact in host cell invasion.

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“…Many viral surface antigens have the ability to selfassemble into VLPs that resemble the native viral particles in appearance, for example, in case of Human Papillomavirus (Kemp et al, 2011;Schiller and Muller, 2015), JC polyomavirus (Ray et al, 2015), BK polyomavirus (Pastrana et al, 2013) etc. Many others that cannot self-assemble, or those where the viral capsid is encased inside a lipid envelope, or those where the viral surface proteins are relatively mobile/ not rigid, can also potentially be displayed in a more rigid and thermodynamically stable fashion as synthetic VLPs.…”

Section: Synthetic Vlpsmentioning

confidence: 99%

Virus Like Nanoparticles: Display Matters

Ray

2016

Proceedings of the Indian National Science Academy

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An efficacious way to avoid atleast a bunch of infections by microbes is to neutralize the microbial infection right at the very beginning. This is well achieved by vaccination against many infectious agents. While vaccine is available for many pathogenic micro-organisms, we are still struggling to achieve success to develop prophylactic strategies for many others. Most commonly, the vaccines are developed by attenuation/ inactivation of infectious agents or by using killed pathogens. Yet another variety includes the sub-unit vaccines. In this review, a subcategory of subunit vaccine has been discussed; where the viral surface antigens when displayed in a rigid multivalent fashion at high densities, induce very potent and robust neutralizing antibody response as a result of very strong and extensive cross-linking of B-cell receptors.

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BK Polyomavirus Genotypes Represent Distinct Serotypes with Distinct Entry Tropism

Cited by 92 publications

References 41 publications

Naturally Occurring Capsid Protein Variants of Human Papillomavirus Genotype 31 Represent a Single L1 Serotype

Naturally Occurring Capsid Protein Variants of Human Papillomavirus Genotype 31 Represent a Single L1 Serotype

Entry, infection, replication, and egress of human polyomaviruses: an update

Virus Like Nanoparticles: Display Matters

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