Human Metapneumovirus Attachment Protein Contributes to Neutrophil Recruitment into the Airways of Infected Mice

Cheemarla, Nagarjuna R.; Guerrero-Plata, Antonieta

doi:10.3390/v9100310

Cited by 11 publications

(16 citation statements)

References 45 publications

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“…HMPV shares with RSV the same ability to decrease IFN response, despite the lack of NS1 and NS2 proteins. It has been documented that HMPV-G protein has the ability to inhibit the IFN type 1 response in vitro and in vivo [38,39] and that its SH and M2-2 proteins can also modulate the host's immune responses [40][41][42]. Both HMPV and RSV can persist in the lungs of an infected animal host, despite the presence of neutralizing antibodies [34,43].…”

Section: Need For a Vaccinementioning

confidence: 99%

Engineering of Live Chimeric Vaccines against Human Metapneumovirus

2020

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Human metapneumovirus (HMPV) is an important human pathogen that, along with respiratory syncytial virus (RSV), is a major cause of respiratory tract infections in young infants. Development of an effective vaccine against Pneumoviruses has proven to be particularly difficult; despite over 50 years of research in this field, no vaccine against HMPV or RSV is currently available. Recombinant chimeric viruses expressing antigens of other viruses can be generated by reverse genetics and used for simultaneous immunization against more than one pathogen. This approach can result in the development of promising vaccine candidates against HMPV, and several studies have indeed validated viral vectors expressing HMPV antigens. In this review, we summarize current efforts in generating recombinant chimeric vaccines against HMPV, and we discuss their potential optimization based on the correspondence with RSV studies.

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Section: Need For a Vaccinementioning

confidence: 99%

Engineering of Live Chimeric Vaccines against Human Metapneumovirus

2020

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“…Among these, the attachment or G glycoprotein has the function to recognize and promote the first interaction with the host ( 26 ). It has also been described that the G protein has the ability to inhibit the IFN-I response not only in vitro ( 17 ), but also in an in vivo model ( 27 ). The latter study showed that the G protein is associated with the recruitment of neutrophils into the alveolar space in lungs of mice infected with hMPV ( 27 ).…”

Section: Role and Effect Of The Hmpv-proteins In Avoiding The Immune mentioning

confidence: 99%

“…It has also been described that the G protein has the ability to inhibit the IFN-I response not only in vitro ( 17 ), but also in an in vivo model ( 27 ). The latter study showed that the G protein is associated with the recruitment of neutrophils into the alveolar space in lungs of mice infected with hMPV ( 27 ). The authors propose that this phenomenon is due to the inhibition of the IFN response, detecting important changes in molecules involved in the recruitment of neutrophils such as; CCL3, CCL4, VEGF, TNF, IL-17, and CXCL2 ( 27 ).…”

Section: Role and Effect Of The Hmpv-proteins In Avoiding The Immune mentioning

confidence: 99%

Human Metapneumovirus: Mechanisms and Molecular Targets Used by the Virus to Avoid the Immune System

et al. 2018

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Human metapneumovirus (hMPV) is a respiratory virus, first reported the year 2001. Since then, it has been described as one of the main etiological agents that causes acute lower respiratory tract infections (ALRTIs), which is characterized by symptoms such as bronchiolitis, wheezing and coughing. Susceptible population to hMPV-infection includes newborn, children, elderly and immunocompromised individuals. This viral agent is a negative-sense, single-stranded RNA enveloped virus, that belongs to the Pneumoviridae family and Metapneumovirus genus. Early reports—previous to 2001—state several cases of respiratory illness without clear identification of the responsible pathogen, which could be related to hMPV. Despite the similarities of hMPV with several other viruses, such as the human respiratory syncytial virus or influenza virus, mechanisms used by hMPV to avoid the host immune system are still unclear. In fact, evidence indicates that hMPV induces a poor innate immune response, thereby affecting the adaptive immunity. Among these mechanisms, is the promotion of an anergic state in T cells, instead of an effective polarization or activation, which could be induced by low levels of cytokine secretion. Further, the evidences support the notion that hMPV interferes with several pattern recognition receptors (PRRs) and cell signaling pathways triggered by interferon-associated genes. However, these mechanisms reported in hMPV are not like the ones reported for hRSV, as the latter has two non-structural proteins that are able to inhibit these pathways. Several reports suggest that viral glycoproteins, such as G and SH, could play immune-modulator roles during infection. In this work, we discuss the state of the art regarding the mechanisms that underlie the poor immunity elicited by hMPV. Importantly, these mechanisms will be compared with those elicited by other common respiratory viruses.

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“…Several studies have shown that infection with different strains of HMPV induce a strong immune response characterized by production of interferons in vitro [ 57 , 86 , 87 , 88 , 89 ] or in vivo [ 57 , 88 , 90 , 91 , 92 , 93 ] ( Table 1 ). However, this response is contingent on viral replication as IFN induction is abolished in UV-inactivated HMPV infected cells [ 57 , 94 , 95 ] and in vivo [ 90 ].…”

Section: Induction Of Interferon By Hmpv Infectionmentioning

confidence: 99%

“…In fact, the G protein is implicated to have an inhibitory effect on RIG-I mediated activation of type I IFN (IFN-α/β) production in airway epithelial cells [ 89 ] and in human moDC [ 105 ]. Furthermore, our laboratory has shown that the HMPV G protein also attenuates the activation and production of IFN-λ in vitro and in vivo [ 57 ] and that the release of IFN-α is also compromised in the airways of infected mice, by the effect of the G protein [ 90 ]. The protective immunogenicity properties exhibited by the rHMPVΔG virus makes it a potential vaccine candidate.…”

Section: Inhibition Of Ifn Response By Hmpvmentioning

confidence: 99%

Interferon-Mediated Response to Human Metapneumovirus Infection

Uche

Guerrero-Plata

2018

Viruses

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Human metapneumovirus (HMPV) is one of the leading causes of respiratory diseases in infants and children worldwide. Although this pathogen infects mainly young children, elderly and immunocompromised people can be also seriously affected. To date, there is no commercial vaccine available against it. Upon HMPV infection, the host innate arm of defense produces interferons (IFNs), which are critical for limiting HMPV replication. In this review, we offer an updated landscape of the HMPV mediated-IFN response in different models as well as some of the defense tactics employed by the virus to circumvent IFN response.

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Human Metapneumovirus Attachment Protein Contributes to Neutrophil Recruitment into the Airways of Infected Mice

Cited by 11 publications

References 45 publications

Engineering of Live Chimeric Vaccines against Human Metapneumovirus

Engineering of Live Chimeric Vaccines against Human Metapneumovirus

Human Metapneumovirus: Mechanisms and Molecular Targets Used by the Virus to Avoid the Immune System

Interferon-Mediated Response to Human Metapneumovirus Infection

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