Abstract
Infection of hosts by morbilliviruses is facilitated by the interaction between viral hemagglutinin (H-protein) and the signaling lymphocytic activation molecule (SLAM). Recently, the functional importance of the n-terminal region of human SLAM as a measles virus receptor was demonstrated. However, the functional roles of this region in the infection process by other morbilliviruses and host range determination remain unknown, partly because this region is highly flexible, which has hampered accurate structure determination of this region by X-ray crystallography. In this study, we analyzed the interaction between the H-protein from canine distemper virus (CDV-H) and SLAMs by a computational chemistry approach. Molecular dynamics simulations and fragment molecular orbital analysis demonstrated that the unique His28 in the N-terminal region of SLAM from Macaca is a key determinant that enables the formation of a stable interaction with CDV-H, providing a basis for CDV infection in Macaca. The computational chemistry approach presented should enable the determination of molecular interactions involving regions of proteins that are difficult to predict from crystal structures because of their high flexibility.
Highlights
Morbilliviruses belong to the Paramyxoviridae family and cause systemic infection of animals with high mortality and morbidity rates [1]
Residues 28 and 48 in the V domain differ in amino acid type between the macaca and human signaling lymphocytic activation molecule (SLAM) (Figure 1a), suggesting that these two residues may account for the functional difference between human and macaca SLAMs in CDV infection
Modeling of the N-terminal region structure of human SLAM complexed with measles virus (MV)-H suggested that residue 28 plays only
Summary
Morbilliviruses belong to the Paramyxoviridae family and cause systemic infection of animals with high mortality and morbidity rates [1]. The viral hemagglutinin (H) protein interacts with the signaling lymphocytic activation molecule (SLAM) and poliovirus receptor-like 4 (nectin-4), which are expressed on host immune and epithelial cells, respectively [1]. The amino acid sequence of nectin-4 is highly conserved among species, whereas the amino acid sequence of SLAM is not conserved, suggesting that the interaction between the H-protein and SLAM defines host selectivity of morbilliviruses. The canine morbillivirus (canine distemper virus, CDV) causes a severe and fatal infection for animals in the Carnivora order and has attracted research interest as a target for determining the cross-species transmission of morbilliviruses, because CDV causes lethal outbreaks in non-human primates [2,3,4]. Accumulating evidence indicates that CDV infects animals in the genus Macaca but not humans. Defining the molecular mechanism responsible for CDV cross-species transmission in primates may be resolved by analyzing the differences among SLAMs from these species, with structural data playing an important role in providing insights into this mechanism
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