Molecular and biological characterization of the 5 human-bovine rotavirus (WC3)-based reassortant strains of the pentavalent rotavirus vaccine, RotaTeq.

RotaTeq is a pentavalent rotavirus vaccine that contains five human-bovine reassortant strains (designated G1, G2, G3, G4, and P1) on the backbone of the naturally attenuated tissue culture-adapted parental bovine rotavirus (BRV) strain WC3. The viral genomes of each of the reassortant strains were completely sequenced and compared pairwise and phylogenetically among each other and to human rotavirus (HRV) and BRV reference strains. Reassortants G1, G2, G3, and G4 contained the VP7 gene from their corresponding HRV parent strains, while reassortants G1 and G2 also contained the VP3 gene (genotype M1) from the HRV parent strain. The P1 reassortant contained the VP4 gene from the HRV parent strain and all the other gene segments from the BRV WC3 strain. The human VP7s had a high level of overall amino acid identity (G1: 95-99%, G2: 94-99% G3: 96-100%, G4: 93-99%) when compared to those of representative rotavirus strains of their corresponding G serotypes. The VP4 of the P1 reassortant had a high identity (92-97%) with those of serotype P1A[8] HRV reference strains, while the BRV VP7 showed identities ranging from 91% to 94% to those of serotype G6 HRV strains. Sequence analyses of the BRV or HRV genes confirmed that the fundamental structure of the proteins in the vaccine was similar to those of the HRV and BRV references strains. Sequences analyses showed that RotaTeq exhibited a high degree of genetic stability as no mutations were identified in the material of each reassortant, which undergoes two rounds of replication cycles in cell culture during the manufacturing process, when compared to the final material used to fill the dosing tubes. The infectivity of each of the reassortant strains of RotaTeq, like HRV strains, did not require the presence of sialic acid residues on the cell surface. The molecular and biologic characterization of RotaTeq adds to the significant body of clinical data supporting the consistent efficacy, immunogenicity, and safety of RotaTeq.

Development and application of a quantitative RT-PCR potency assay for a pentavalent rotavirus vaccine (RotaTeq).

A sensitive and reproducible method to determine the in vitro infectious potency of a pentavalent reassortant rotavirus vaccine (RotaTeq) has been developed as an alternative to classical potency assays. Potency was determined based on cell-based viral replication followed by quantitative reverse-transcription polymerase chain reaction (RT-QPCR) analysis. In the assay, confluent Vero cell monolayers in 96-well plates were inoculated with serial dilutions of test samples, a pentavalent reassortant rotavirus reference standard and assay controls, followed by incubation for 24h. The cells were lysed with a Triton X-100 solution and the lysates assayed by RT-QPCR to quantitate viral nucleic acid produced during replication. The RT-QPCR utilizes primer/probe sets specific to each virus reassortant and the potencies of each sample were determined relative to the reference standard. This assay, hereafter referred to as the Multivalent QPCR-Based Potency Assay (M-QPA), permits the specific quantitation of each individual reassortant virus in the presence of the other four reassortant viruses. In addition, the assay was demonstrated to be concordant with a traditional method (plaque assay) for the quantitation of infectious virus particles. It is anticipated that assays of this type will become a valuable tool in the assignment of potency values and in the monitoring of stability of live virus vaccines.

A novel type of VP4 carried by a porcine rotavirus strain.

The gene encoding the VP8* trypsin-cleavage product of the VP4 protein of porcine rotavirus strain A34 was sequenced, and the predicted amino acid (aa) sequence was compared to the homologous region of all known P genotypes. The aa sequence of the VP8* of strain A34 shared low identity, ranging from 39% (bovine strain B223, P8[11]) to 76% (human strain 69M, P4[10]), with the homologous sequences of representative strains of the remaining 21 P genotypes. Phylogenetic relationships showed that the VP8* of strain A34 shares a common evolutionary lineage with those of human 69M (P4[10]) and equine H-2 (P4[12]) strains. Hyperimmune sera raised to strain A34 and to a genetic reassortant strain containing the VP4 gene from strain A34, both with high homologous neutralization titer via VP4, failed to neutralize strains representative of 15 different P genotypes. These results indicate that strain A34 should be considered as prototype of a new P genotype and serotype (P14[23]) and provide further evidence for the vast genetic and antigenic diversity of group A rotaviruses.