Abstract
Globally eliminating measles using available vaccines is biologically feasible because the measles virus (MV) hemagglutinin (H) protein is antigenically stable. The H protein is responsible for receptor binding, and is the main target of neutralizing antibodies. The immunodominant epitope, known as the hemagglutinating and noose epitope, is located near the receptor-binding site (RBS). The RBS also contains an immunodominant epitope. Loss of receptor binding correlates with an escape from the neutralization by antibodies that target the epitope at RBS. Another neutralizing epitope is located near RBS and is shielded by an N-linked sugar in certain genotype strains. However, human sera from vaccinees and measles patients neutralized all MV strains with similar efficiencies, regardless of the N-linked sugar modification or mutations at these epitopes. Two other major epitopes exist at a distance from RBS. One has an unstructured flexible domain with a linear neutralizing epitope. When MV-H forms a tetramer (dimer of dimers), these epitopes may form the dimer-dimer interface, and one of the two epitopes may also interact with the F protein. The neutralization mechanisms of antibodies that recognize these epitopes may involve inhibiting the H-F interaction or blocking the fusion cascade after MV-H binds to its receptors.
Highlights
Measles has been a leading cause of childhood death in the past, and a significant number of measles-related deaths are still reported, mainly in developing countries
This review summarizes the details of the individual epitopes, and noose epitope (HNE), receptor-binding epitope (RBE), sugar-shielded epitope (SSE), neutralizing including their locations and known and predicted functions, and clarifies why the measles virus (MV)-H protein epitope (NE), and loop epitope (LE)
This review summarizes the details of the individual epitopes, remains antigenically stable.and known and predicted functions, and clarifies why the MV-H protein including their locations remains antigenically stable
Summary
Measles has been a leading cause of childhood death in the past, and a significant number of measles-related deaths are still reported, mainly in developing countries. Recent studies antigenic variations are caused by specific amino acid changes the H structures. Recent studies provided extensivetoinsight intoand the maximize mechanismour of understanding membrane fusion and additional datahave (provided in this review) organize of the triggered by theand interaction betweenbasis the Hof and proteins [21]. The major of the H protein are classified into five types: and hemagglutinating our understanding of the H protein epitopes and the molecular basis of the antigenic stability of MV. This review summarizes the details of the individual epitopes, and noose epitope (HNE), receptor-binding epitope (RBE), sugar-shielded epitope (SSE), neutralizing including their locations and known and predicted functions, and clarifies why the MV-H protein epitope (NE), and loop epitope (LE). This review summarizes the details of the individual epitopes, remains antigenically stable.and known and predicted functions, and clarifies why the MV-H protein including their locations remains antigenically stable
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