Human Metapneumovirus (HMPV) Binding and Infection Are Mediated by Interactions between the HMPV Fusion Protein and Heparan Sulfate

Chang, Andrés; Masante, Cyril; Buchholz, Ursula J.; Dutch, Rebecca Ellis

doi:10.1128/jvi.06706-11

Cited by 94 publications

(121 citation statements)

References 71 publications

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“…Consistent with this, recombinant hMPVs carrying these mutations replicated as efficiently as wild- type hMPV in cell culture and in cotton rats. Previously, it was shown that virus with the D331A mutation retains approximately 80% of fusion activity (25), which was consistent with our observation. In addition, we found that rhMPV-D331A was defective in viral replication in cell culture and cotton rats.…”

Section: Discussionsupporting

confidence: 93%

“…Recently, Chang et al (2012) suggested that heparan sulfate proteoglycans may function as the primary receptor for hMPV F protein (25). Mutant CHO cell lines lacking the ability to synthesize glycosaminoglycans (GAGs), particularly heparan sulfate proteoglycans, were resistant to hMPV binding and infection, although wild-type CHO-K1 cells were permissive.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, hMPV infection was abolished when CHO-K1 cells were treated with heparinases to remove heparan sulfate proteoglycans from the cell surface. Thus, it was proposed that the interaction between integrins and hMPV occurs after the initial binding of hMPV F to heparan sulfate proteoglycans (25). Perhaps the simplest explanation is that hMPV F protein uses integrins and heparan sulfate proteoglycans as coreceptors.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, the same group of investigators showed that hMPV binds to RGD-binding integrins and that this interaction is necessary for virus attachment, viral RNA transcription, and subsequent productive infection (24). Recently, Chang et al (2012) proposed that heparan sulfate proteoglycans function as the primary receptor for hMPV and that binding to heparan sulfate proteoglycans is mediated by the F protein (25). They hypothesized that the interaction between integrins and hMPV may occur after the initial binding of hMPV F protein to heparan sulfate.…”

Section: H Uman Metapneumovirus (Hmpv) Is a Member Of The Genusmentioning

confidence: 99%

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Roles of the Putative Integrin-Binding Motif of the Human Metapneumovirus Fusion (F) Protein in Cell-Cell Fusion, Viral Infectivity, and Pathogenesis

Wei

Zhang

Cai

et al. 2014

J Virol

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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 ␣v␤1 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 ␣5␤1 and ␣v 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) ␣5␤1 and ␣v 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. IMPORTANCEHuman 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 ␣5␤1 and ␣v integrins are essential for hMPV infectivity and F proteinmediated 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.

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Section: Discussionsupporting

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: H Uman Metapneumovirus (Hmpv) Is a Member Of The Genusmentioning

confidence: 99%

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Roles of the Putative Integrin-Binding Motif of the Human Metapneumovirus Fusion (F) Protein in Cell-Cell Fusion, Viral Infectivity, and Pathogenesis

Wei

Zhang

Cai

et al. 2014

J Virol

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“…For viruses in the Paramyxovirinae subfamily, it is firmly established that membrane fusion requires a specific interaction between two glycoproteins, the attachment protein (HN, H, or G) and the fusion (F) protein (1,9,14,15,23,39), and such fusion occurs at neutral pH (4,27). Specifically, it is thought that the binding of the attachment protein to cell surface receptors triggers major conformational changes in F, which in turn activates membrane fusion (1,27,29,30,39).However, membrane fusion of pneumoviruses appears to be unique among the paramyxoviruses, in that fusion is accomplished by the F protein alone without help from the attachment glycoprotein (6,7,17,21,42,43). This suggests that the F proteins of pneumoviruses possess dual functions, receptor binding and fusion promotion.…”

mentioning

confidence: 99%

Localization of a Region in the Fusion Protein of Avian Metapneumovirus That Modulates Cell-Cell Fusion

Wei

Feng²,

Yao³

et al. 2012

J Virol

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eThe genus Metapneumovirus within the subfamily Pneumovirinae of the family Paramyxoviridae includes two members, human metapneumovirus (hMPV) and avian metapneumovirus (aMPV), causing respiratory tract infections in humans and birds, respectively. Paramyxoviruses enter host cells by fusing the viral envelope with a host cell membrane. Membrane fusion of hMPV appears to be unique, in that fusion of some hMPV strains requires low pH. Here, we show that the fusion (F) proteins of aMPV promote fusion in the absence of the attachment protein and low pH is not required. Furthermore, there are notable differences in cell-cell fusion among aMPV subtypes. Trypsin was required for cell-cell fusion induced by subtype B but not subtypes A and C. The F protein of aMPV subtype A was highly fusogenic, whereas those from subtypes B and C were not. By construction and evaluation of chimeric F proteins composed of domains from the F proteins of subtypes A and B, we localized a region composed of amino acid residues 170 to 338 in the F protein that is responsible for the hyperfusogenic phenotype of the F from subtype A. Further mutagenesis analysis revealed that residues R295, G297, and K323 in this region collectively contributed to the hyperfusogenicity. Taken together, we have identified a region in the aMPV F protein that modulates the extent of membrane fusion. A model for fusion consistent with these data is presented.T he subfamily Pneumovirinae of the family Paramyxoviridae includes a number of significant human and animal respiratory pathogens, such as human respiratory syncytial virus (hRSV), bovine RSV (bRSV), human metapneumovirus (hMPV), avian metapneumovirus (aMPV), and pneumonia virus of mice (PVM). The major cytopathic effect in paramyxovirus-infected culture cells is the formation of multinucleate syncytia. This is mediated by membrane fusion induced by surface glycoprotein spikes (reviewed in reference 24). For viruses in the Paramyxovirinae subfamily, it is firmly established that membrane fusion requires a specific interaction between two glycoproteins, the attachment protein (HN, H, or G) and the fusion (F) protein (1,9,14,15,23,39), and such fusion occurs at neutral pH (4,27). Specifically, it is thought that the binding of the attachment protein to cell surface receptors triggers major conformational changes in F, which in turn activates membrane fusion (1,27,29,30,39).However, membrane fusion of pneumoviruses appears to be unique among the paramyxoviruses, in that fusion is accomplished by the F protein alone without help from the attachment glycoprotein (6,7,17,21,42,43). This suggests that the F proteins of pneumoviruses possess dual functions, receptor binding and fusion promotion. To date, RSV F is arguably the best characterized F protein within the Pneumovirus subfamily. The F protein of RSV is capable of causing membrane fusion and initiating virus infection in the absence of its attachment G glycoprotein at neutral pH (6, 57). Furthermore, it has been demonstrated that RSV F specifically recognize...

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Respiratory Syncytial Virus and Human Metapneumovirus

Berry,

Babady

2023

ClinMicroNow

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Human respiratory syncytial virus (RSV) is a member of the genus Orthopneumovirus , family Pneumoviridae , order Mononegavirales . Most general viral specimen collection principles also apply to specimen collection for RSV detection and culture. Although RSV can be visualized by electron microscopy, its application has been limited to research laboratories. However, characteristic syncytial cytopathic effects in lung biopsies can facilitate the diagnosis. Human metapneumovirus (HMPV) virus belongs to the order Mononegavirales , the family Pneumoviridae , and the genus Metapneumovirus , which also includes avian metapneumovirus, also known as turkey rhinotracheitis virus, a cause of respiratory tract infections in turkeys, ducks, and chickens. HMPV is the only human pathogen within the genus Metapneumovirus . Orthopneumovirus , the other genus in the family Pneumoviridae , includes the closely related human RSV.

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Human Metapneumovirus (HMPV) Binding and Infection Are Mediated by Interactions between the HMPV Fusion Protein and Heparan Sulfate

Cited by 94 publications

References 71 publications

Roles of the Putative Integrin-Binding Motif of the Human Metapneumovirus Fusion (F) Protein in Cell-Cell Fusion, Viral Infectivity, and Pathogenesis

Roles of the Putative Integrin-Binding Motif of the Human Metapneumovirus Fusion (F) Protein in Cell-Cell Fusion, Viral Infectivity, and Pathogenesis

Localization of a Region in the Fusion Protein of Avian Metapneumovirus That Modulates Cell-Cell Fusion

Respiratory Syncytial Virus and Human Metapneumovirus

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