Epochal coevolution of minor capsid protein in norovirus GII.4 variants with major capsid protein based on their interactions over the last five decades

Abstract

Norovirus is a leading cause of viral gastroenteritis outbreaks worldwide, with GII.4 responsible for the majority of infections. Minor capsid protein VP2 has been found to have functions such as stabilizing virus particles, and VP2 is one of the highly variable proteins of norovirus, similar to major capsid protein VP1. However, whether the variation of VP2 is functionally driven still remains unclear. In this study, VP2 showed a higher evolutionary rate (2.642×10−3 substitutions/site/year) than VP1 (1.587×10−3 substitutions/site/year), and a hypervariable region in VP2 in a serial of norovirus GII.4 over the past 50 years had been observed. Notably, the high variation of VP2 was not haphazard. The evolutionary process of VP2 is similar to that of VP1 with comparable topologies when the phylogenetic trees were constructed. Moreover, VP2 was found to interact with VP1 among epidemic variants of GII.4 using the yeast two-hybrid experiments. The results of interactions were grouped into time-adjacent (e.g. Ancestral-VP1 plus US95-VP2) and non-adjacent (e.g. Ancestral-VP1 plus Sydney-VP2) according to the epochal chronologically based prevalence of GII.4 norovirus. Interestingly, the interaction of the former group was significantly stronger than that of the latter group (P=0.0001). Furthermore, the interaction regions on VP2 (residues 131-160 and 171-180) were mapped to the hypervariable region. And these interaction regions did show an important role in the evolutionary process of VP2, which was consistent with that of VP1. In summary, the minor capsid protein VP2 of GII.4 noroviruses had shown the epochal coevolution with VP1 based on their interactions over the past 50 years. The findings of this study provided valuable information for further understanding and completing the evolutionary mechanism of norovirus.