Roles of the putative integrin-binding motif of the human metapneumovirus fusion (f) protein in cell-cell fusion, viral infectivity, and pathogenesis. Wei, Y; Zhang, Y; Cai, H; Mirza, AM; Iorio, RM; Peeples, ME; Niewiesk, S; Li, J Journal of virology
88
4338-52
2014
Mostrar resumen
Human metapneumovirus (hMPV) is a relatively recently identified paramyxovirus that causes acute upper and lower respiratory tract infection. Entry of hMPV is unusual among the paramyxoviruses, in that fusion is accomplished by the fusion (F) protein without the attachment glycoprotein (G protein). It has been suggested that hMPV F protein utilizes integrin αvβ1 as a cellular receptor. Consistent with this, the F proteins of all known hMPV strains possess an integrin-binding motif ((329)RGD(331)). The role of this motif in viral entry, infectivity, and pathogenesis is poorly understood. Here, we show that α5β1 and αv integrins are essential for cell-cell fusion and hMPV infection. Mutational analysis found that residues R329 and G330 in the (329)RGD(331) motif are essential for cell-cell fusion, whereas mutations at D331 did not significantly impact fusion activity. Furthermore, fusion-defective RGD mutations were either lethal to the virus or resulted in recombinant hMPVs that had defects in viral replication in cell culture. In cotton rats, recombinant hMPV with the R329K mutation in the F protein (rhMPV-R329K) and rhMPV-D331A exhibited significant defects in viral replication in nasal turbinates and lungs. Importantly, inoculation of cotton rats with these mutants triggered a high level of neutralizing antibodies and protected against hMPV challenge. Taken together, our data indicate that (i) α5β1 and αv integrins are essential for cell-cell fusion and viral replication, (ii) the first two residues in the RGD motif are essential for fusion activity, and (iii) inhibition of the interaction of the integrin-RGD motif may serve as a new target to rationally attenuate hMPV for the development of live attenuated vaccines.Human metapneumovirus (hMPV) is one of the major causative agents of acute respiratory disease in humans. Currently, there is no vaccine or antiviral drug for hMPV. hMPV enters host cells via a unique mechanism, in that viral fusion (F) protein mediates both attachment and fusion activity. Recently, it was suggested that hMPV F protein utilizes integrins as receptors for entry via a poorly understood mechanism. Here, we show that α5β1 and αv integrins are essential for hMPV infectivity and F protein-mediated cell-cell fusion and that the integrin-binding motif in the F protein plays a crucial role in these functions. Our results also identify the integrin-binding motif to be a new, attenuating target for the development of a live vaccine for hMPV. These findings not only will facilitate the development of antiviral drugs targeting viral entry steps but also will lead to the development new live attenuated vaccine candidates for hMPV. | 24478423
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Estimates of individuals exposed to human metapneumovirus in a community-based Taiwanese population in 1999. Chung-Guei Huang,Kuo-Chien Tsao,Tzou-Yien Lin,Yhu-Chering Huang,Li-Ang Lee,Tzu-Hou Chen,Ya-Ling Huang,Shin-Ru Shih Archives of virology
155
2009
Mostrar resumen
Human metapneumovirus (hMPV) causes both upper and lower respiratory tract infection worldwide. Because little is known about the estimated level of exposure to hMPV in Taiwan, data for 1999 are presented. One thousand one hundred twenty sera from otherwise healthy community-based subjects aged 1 month to 99 years were tested in an enzyme-linked immunosorbent assay; the proportion of seropositive individuals was 68.1%. Moreover, 53.2% of preschool children were seronegative, whereas 88.3% of school-aged individuals and 93.7% of adults had antibodies to hMPV. In summary, the present study provides an earlier evidence of a high rate of exposure to hMPV characterized the seroprevalence among Taiwanese individuals in 1999. In addition, our findings suggest that preschool children in particular would benefit from vaccination against hMPV. | 20112120
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