AI Article Synopsis
- There are existing live attenuated Rotavirus vaccines, but their effectiveness is lower in low- to middle-income countries, prompting the search for alternative vaccines.
- A promising new candidate is a trivalent nonreplicating RV vaccine made up of three modified RV proteins, designed to improve stability and efficacy.
- Analytical techniques revealed physical and chemical stability differences among the proteins, with the findings contributing to vaccine development and future assessments.
Article Abstract
Although live attenuated Rotavirus (RV) vaccines are available globally to provide protection against enteric RV disease, efficacy is substantially lower in low- to middle-income settings leading to interest in alternative vaccines. One promising candidate is a trivalent nonreplicating RV vaccine, comprising 3 truncated RV VP8 subunit proteins fused to the P2 CD4 epitope from tetanus toxin (P2-VP8-P[4/6/8]). A wide variety of analytical techniques were used to compare the physicochemical properties of these 3 recombinant fusion proteins. Various environmental stresses were used to evaluate antigen stability and elucidate degradation pathways. P2-VP8-P[4] and P2-VP8-P[6] displayed similar physical stability profiles as function of pH and temperature while P2-VP8-P[8] was relatively more stable. Forced degradation studies revealed similar chemical stability profiles with Met most susceptible to oxidation, the single Cys residue (at position 173/172) forming intermolecular disulfide bonds (P2-VP8-P[6] was most susceptible), and Asn undergoing the highest levels of deamidation. These results are visualized in a structural model of the nonreplicating RV antigens. The establishment of key structural attributes of each antigen, along with corresponding stability-indicating methods, have been applied to vaccine formulation development efforts (see companion paper), and will be utilized in future analytical comparability assessments.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6941226 | PMC |
| http://dx.doi.org/10.1016/j.xphs.2019.08.002 | DOI Listing |
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