Non‐structural protein NSP2 induces heterotypic antibody responses during primary rotavirus infection and reinfection in children

Kirkwood, Carl D.; Boniface, Karen; Richardson, S C; Taraporewala, Zenobia F.; Patton, John T.; Bishop, Ruth F.

doi:10.1002/jmv.21160

Cited by 15 publications

(22 citation statements)

References 33 publications

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“…4A and B) (1,22,23). By using a genetic approach, previous studies showed that at least eight genome segments (i.e., genes encoding VP3, VP4, VP6, VP7, NSP1, NSP2, NSP3, and NSP4) were involved in the virulence of rotaviruses (6,17,24,25). Our analysis of sequence data from mouse-passaged (virulent, in vivo) and cell culture-passaged viruses (attenuated, in vitro) was generally consistent with those of previous genetic approaches, although there were some disparities.…”

Section: Discussionmentioning

confidence: 99%

Virulence-Associated Genome Mutations of Murine Rotavirus Identified by Alternating Serial Passages in Mice and Cell Cultures

Tsugawa

Tatsumi

Tsutsumi

2014

J Virol

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Although significant clinical efficacy and safety of rotavirus vaccines were recently revealed in many countries, the mechanism of their attenuation is not well understood. We passaged serially a cell culture-adapted murine rotavirus EB strain in mouse pups or in cell cultures alternately and repeatedly and fully sequenced all 11 genes of 21 virus samples passaged in mice or in cell cultures. Sequence analysis revealed that mouse-passaged viruses that regained virulence almost consistently acquired four kinds of amino acid (aa) substitutions in VP4 and substitution in aa 37 (Val to Ala) in NSP4. In addition, they gained and invariably conserved the 3= consensus sequence in NSP1. The molecular changes occurred along with the acquisition of virulence during passages in mice and then disappeared following passages in cell cultures. Intraperitoneal injection of recombinant NSP4 proteins confirmed the aa 37 site as important for its diarrheagenic activity in mice. These genome changes are likely to be correlated with rotavirus virulence. IMPORTANCESerial passage of a virulent wild-type virus in vitro often results in loss of virulence of the virus in an original animal host, while serial passage of a cell culture-adapted avirulent virus in vivo often gains virulence in an animal host. Actually, live attenuated virus vaccines were originally produced by serial passage in cell cultures. Although clinical efficacy and safety of rotavirus vaccines were recently revealed, the mechanism of their attenuation is not well understood. We passaged serially a murine rotavirus by alternating switch of host (mice or cell cultures) repeatedly and sequenced the eleven genes of the passaged viruses to identify mutations associated with the emergence or disappearance of virulence. Sequence analysis revealed that changes in three genes (VP4, NSP1, and NSP4) were associated with virulence in mice. Intraperitoneal injection of recombinant NSP4 proteins confirmed its diarrheagenic activity in mice. These genome changes are likely to be correlated with rotavirus virulence. R otaviruses, which form one genus within the family Reoviridae, are divided into at least seven species/groups (A to G/H) (1, 2). Although group A to C rotaviruses have been detected in humans with diarrhea, group A rotavirus is the single most important etiologic agent causing severe diarrhea in infants and young children worldwide, resulting in approximately 453,00 deaths (37% of deaths attributable to diarrhea and 5% of all deaths) among children Ͻ5 years of age in 2008 (3). In the United States alone, rotavirus (RV) infections are estimated to cause approximately 20 to 30 deaths, 50,000 to 67,000 hospitalizations, 390,000 to 410,000 physician visits, and a more than $890 million to $1 billion societal cost annually (4, 5). Thus, the introduction of a RV vaccine capable of alleviating this enormous health burden has been an important global public health goal.The RV genome consisting of 11 segments of double-stranded RNA (dsRNA) encodes six structural protein...

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Section: Discussionmentioning

confidence: 99%

Virulence-Associated Genome Mutations of Murine Rotavirus Identified by Alternating Serial Passages in Mice and Cell Cultures

Tsugawa

Tatsumi

Tsutsumi

2014

J Virol

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“…Although NT Abs are important for immunity to rotavirus, their concentration does not necessarily correlate with protection of children following natural RV infection. Data from Svensson et al, [26] and others [54][55][56][57][58][59][60][61][62] indicate that RV structural proteins other than VP4 and VP7 and non-structural proteins carrying non-NT epitopes are able to induce immune response during RV infection. Despite the importance of neutralizing activity of VP4 and VP7, increasing evidence revealed the protective immunity of VP6 and NSP4 proteins in animal model in the absence neutralizing activity [21,56,58,63].…”

Section: Introductionmentioning

confidence: 98%