Please use this identifier to cite or link to this item:http://hdl.handle.net/20.500.12105/6825
Engineering, Structure and Immunogenicity of the Human Metapneumovirus F Protein in the Postfusion Conformation
Mas-Lloret, Vicente ISCIII | Rodriguez, Laura ISCIII | Olmedillas Cela, Eduardo ISCIII | Cano, Olga ISCIII | Palomo-Sanz, Concepcion ISCIII | Terrón, María C | Luque, Daniel ISCIII | Melero, Jose Antonio ISCIII | McLellan, Jason S
PLoS Pathog. 2016 Sep 9;12(9):e1005859.
Human metapneumovirus (hMPV) is a paramyxovirus that is a common cause of bronchiolitis and pneumonia in children less than five years of age. The hMPV fusion (F) glycoprotein is the primary target of neutralizing antibodies and is thus a critical vaccine antigen. To facilitate structure-based vaccine design, we stabilized the ectodomain of the hMPV F protein in the postfusion conformation and determined its structure to a resolution of 3.3 Å by X-ray crystallography. The structure resembles an elongated cone and is very similar to the postfusion F protein from the related human respiratory syncytial virus (hRSV). In contrast, significant differences were apparent with the postfusion F proteins from other paramyxoviruses, such as human parainfluenza type 3 (hPIV3) and Newcastle disease virus (NDV). The high similarity of hMPV and hRSV postfusion F in two antigenic sites targeted by neutralizing antibodies prompted us to test for antibody cross-reactivity. The widely used monoclonal antibody 101F, which binds to antigenic site IV of hRSV F, was found to cross-react with hMPV postfusion F and neutralize both hRSV and hMPV. Despite the cross-reactivity of 101F and the reported cross-reactivity of two other antibodies, 54G10 and MPE8, we found no detectable cross-reactivity in the polyclonal antibody responses raised in mice against the postfusion forms of either hMPV or hRSV F. The postfusion-stabilized hMPV F protein did, however, elicit high titers of hMPV-neutralizing activity, suggesting that it could serve as an effective subunit vaccine. Structural insights from these studies should be useful for designing novel immunogens able to induce wider cross-reactive antibody responses.
Amino Acid Sequence | Animals | Antibodies, Monoclonal | Antibodies, Neutralizing | Antibodies, Viral | Antigens, Viral | Cross Reactions | Crystallography, X-Ray | Female | Genetic Engineering | Humans | Metapneumovirus | Mice | Mice, Inbred BALB C | Models, Molecular | Molecular Conformation | Respiratory Syncytial Virus, Human | Sequence Alignment | Viral Fusion Proteins
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