Nanobodies Targeting Norovirus Capsid Reveal Functional Epitopes and Potential Mechanisms of Neutralization

Koromyslova, A.D.; Hansman, Grant S.

doi:10.1016/j.bpj.2017.11.1222

Cited by 8 publications

(12 citation statements)

References 57 publications

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“…GII.4 VLPs and their corresponding P domains have been extensively examined for binding to co-factors (HBGAs and bile acid), antibodies, human milk oligosaccharides (HMOs), and Nanobodies (21, 31, 37, 39-41). NSW-2012 P domains were capable of binding numerous HBGA types and the VLPs cross-reacted with Nanobodies and antibodies that were raised against other genotypes or GII.4 variants.…”

Section: Resultsmentioning

confidence: 99%

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Heterologous Expression of Human Norovirus GII.4 VP1 Leads to Assembly of T=4 Virus-Like Particles

Devant

Hofhaus

Bhella

et al. 2019

Preprint

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18 19 Human noroviruses are a leading cause of acute gastroenteritis, yet there are still no 20 vaccines or antivirals available. Expression of the norovirus capsid protein (VP1) in 21 insect cells typically results in the formation of virus-like particles (VLPs) that are 22 IMPORTANCE 39 40The discovery that the GII.4 VLPs have a T=4 symmetry is of significance, since this 41 represents the first known T=4 calicivirus structure. Interestingly, the GII.4 2012 42 variant shares 96% amino acid identity with a current GII.4 VLP vaccine candidate 43 sequence, which suggests that this vaccine might also have a T=4 symmetry. Our 44 previous results with these GII.4 VLPs showed functional binding properties to 45 antibodies and Nanobodies that were raised against T=3 (GII.10) VLPs. This suggests 46 that the T=4 VLPs were antigenically comparable to T=3 particles, despite the 47 (EM). The VLPs were diluted 1:30 in distilled water and applied to EM grids. The 130 grids were washed with distilled water, stained with 0.75% uranyl acetate, and the 131 excess uranyl acetate was removed with filter paper. Virion samples were applied to 132 EM grids, washed with water, fixed with 4% glutaraldehyde, and then stained as 133 above. EM images were acquired on a Zeiss 910 electron microscope at 50,000× 134 magnification. 135

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Section: Resultsmentioning

confidence: 99%

“…The NSW-2012 and CHDC-1974 VLPs (Genebank accession numbers JX459908 and ACT76142, respectively) were expressed in a baculovirus system as previously described (29-31). Briefly, the bacmid containing the recombinant VP1 gene was transfected in Sf9 insect cells.…”

Section: Methodsmentioning

confidence: 99%

Heterologous Expression of Human Norovirus GII.4 VP1 Leads to Assembly of T=4 Virus-Like Particles

Devant

Hofhaus

Bhella

et al. 2019

Preprint

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“…Therefore, this might suggest that the host could produces neutralizing antibodies against epitopes on the T=4 VLPs that were not as accessible on T=3 virions and that efficacy is difficult. Indeed, we have identified several Nanobodies that bind to occluded regions on the T=4 GII.4 VLPs (30, 33).…”

Section: Resultsmentioning

confidence: 99%

“…The NSW-2012 and CHDC-1974 VLPs (Genebank accession numbers JX459908 and ACT76142, respectively) were expressed in a baculovirus system as previously described (19–21). Briefly, the bacmid containing the recombinant VP1 gene was transfected in Sf9 insect cells.…”

Section: Methodsmentioning

confidence: 99%

Novel Structural Features of Human Norovirus Capsid

Devant

Hofhaus

Hansman

2019

Preprint

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16Human noroviruses are a major cause of gastroenteritis, yet there are still no vaccines 17 or antivirals available. Nevertheless, a number of vaccine candidates that are currently 18 in clinical trials are composed of norovirus virus-like particles (VLPs). These VLPs 19 are recognized as morphologically and antigenically similar to norovirus virions. An 20 X-ray crystal structure of the prototype (GI.1) VLPs showed that the norovirus capsid 21 has a T=3 icosahedral symmetry and is composed of 180 copies of the major capsid 22 protein (VP1) that folds into three quasi-equivalent subunits (A, B, and C). In this 23 study, we determined the cryo-EM structure of VLPs for two GII.4 noroviruses that 24were detected in 1974 and 2012. We showed that these VLPs had a T=4 symmetry 25 and were composed of 240 copies of VP1. The VP1 on the T=4 VLPs adapted four 26 quasi-equivalent subunits (termed A, B, C, and D), which formed two distinct dimers 27 (A/B and C/D). We found that the T=4 protruding domain was elevated ~21 Å off the 28 capsid shell, which was ~7 Å more than the previously determined for the T=3 GII.10 29 norovirus. Another interesting feature of the T=4 VLPs was a small cavity and flap-30 like structure located at the twofold axis. This structural feature was associated with 31 the shell domain (D subunit) and disrupted the contiguous shell. Altogether, we 32 showed that the T=4 VLPs had a number of structural similarities and differences 33 with other noroviruses, but how these structural changes associate with norovirus 34 virions could be important for vaccine studies. 35 65 tolerated, highly immunogenic, and appeared to be safe, since they did not comprise 66 of live or attenuated virus. However, limitations of the current vaccine formulations 67 included mild norovirus like-symptoms, restricted long-term immunity, and limited 68 cross-protection (5, 6). 69 70 Structural analysis of GI.1 VLPs reveals that VP1 is separated into two distinct 71 domains: a shell domain (S domain) that encloses the RNA and a protruding domain 72 Journal of physics. Condensed matter : an Institute of Physics journal 421 30:064006.

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“…Moreover, the IgA was GI.1 specific and lacked blocking activity against other GI genotypes. Likewise, we discovered a Nanobody (VHH) that bound at the GII.10 HBGA pocket and showed convincing HBGA blocking potential, but was also genotype specific (27). Other Nanobodies were shown to inhibit norovirus binding to HBGAs by several distinct mechanisms, including allosteric inhibition and disruption of capsid integrity (27).…”

Section: Introductionmentioning

confidence: 94%

Human Norovirus Neutralized by a Monoclonal Antibody Targeting the HBGA Pocket

Koromyslova

Morozov

Hefele

et al. 2018

Preprint

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22Temporal changes in the GII.4 human norovirus capsid sequences occasionally result 23 in the emergence of genetic variants capable of causing new epidemics. The GII.4 24 persistence is believed to be associated with the recognition of numerous histo-blood 25 group antigen (HBGA) types and antigenic drift. We found that one of the earliest 26 known GII.4 isolate (1974) and a more recent epidemic GII.4 variant (2012) had 27 varied norovirus-specific monoclonal antibody (MAb) reactivities, yet similar HBGA 28 binding profiles. To better understand the binding interaction of one MAb (10E9) that 29 had varied reactivities with these GII.4 variants, we determined the X-ray crystal 30 structure of the NSW-2012 GII.4 P domain 10E9 Fab complex. We showed that the 31 10E9 Fab interacted with conserved and variable residues, which could be associated 32 with antigenic drift. Interestingly, the 10E9 Fab binding pocket partially overlapped 33 the HBGA pocket and had direct competition for conserved HBGA binding residues 34 (i.e., Arg345 and Tyr444). Indeed, the 10E9 MAb blocked norovirus VLPs from 35 binding to several sources of HBGAs. Moreover, the 10E9 antibody completely 36 abolished virus replication in the human norovirus intestinal enteroid cell culture 37 system. Our new findings provide first direct evidence that competition for GII.4 38 HBGA binding residues and steric obstruction could lead to norovirus neutralization. 39On the other hand, the 10E9 MAb recognized residues flanking the HBGA pocket, 40 which are often substituted as the virus evolves. This mechanism of antigenic drift 41 likely influences herd immunity and impedes the possibility of acquiring broadly 42 reactive HBGA-blocking antibodies. 43 3 IMPORTANCE 44 45

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Nanobodies Targeting Norovirus Capsid Reveal Functional Epitopes and Potential Mechanisms of Neutralization

Cited by 8 publications

References 57 publications

Heterologous Expression of Human Norovirus GII.4 VP1 Leads to Assembly of T=4 Virus-Like Particles

Heterologous Expression of Human Norovirus GII.4 VP1 Leads to Assembly of T=4 Virus-Like Particles

Novel Structural Features of Human Norovirus Capsid

Human Norovirus Neutralized by a Monoclonal Antibody Targeting the HBGA Pocket

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