AI Article Synopsis
- Enteroviruses have various serotypes and can lead to severe neurological issues, complicating the creation of effective treatments and vaccines due to their complex life cycle and interactions with host cells.* -
- A newly identified antibody, h1A6.2, offers strong protection against enterovirus A71 and coxsackievirus A16 in mice, working through multiple mechanisms that reduce inflammation and enhance tissue repair.* -
- Advanced imaging techniques reveal that h1A6.2 binds adaptively to a key part of the virus, allowing it to neutralize different enterovirus types effectively, making it a promising candidate for future pan-enterovirus vaccine development.*
Article Abstract
Enteroviruses contain multiple serotypes and can cause severe neurological complications. The intricate life cycle of enteroviruses involving dynamic virus-receptor interaction hampers the development of broad therapeutics and vaccines. Here, using function-based screening, we identify a broadly therapeutic antibody h1A6.2 that potently protects mice in lethal models of infection with both enterovirus A71 and coxsackievirus A16 through multiple mechanisms, including inhibition of the virion-SCARB2 interactions and monocyte/macrophage-dependent Fc effector functions. h1A6.2 mitigates inflammation and improves intramuscular mechanics, which are associated with diminished innate immune signalling and preserved tissue repair. Moreover, cryogenic electron microscopy structures delineate an adaptive binding of h1A6.2 to the flexible and dynamic nature of the VP2 EF loop with a binding angle mimicking the SCARB2 receptor. The coordinated binding mode results in efficient binding of h1A6.2 to all viral particle types and facilitates broad neutralization of enterovirus, therefore informing a promising target for the structure-guided design of pan-enterovirus vaccine.
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| http://dx.doi.org/10.1038/s41564-024-01822-7 | DOI Listing |
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