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Vaccinia Virus – New Insights into the Structure and Function of the Poxvirus Prototype

06 / 2024

  • An outbreak of infections with the mpox virus (formerly known as monkeypox) in Europe in 2022 revived interest in poxviruses.
  • An international research team investigated the structure of the poxvirus prototype, the vaccinia virus (VACV).
  • A10 protein trimers, an abundant vaccinia virus protein, play an important role in the formation of the mature virus.
  • These trimers may be involved in interactions with other cell components as part of the infection process.

Press Release

In 2022 an outbreak of infections with the mpox virus – formerly known as monkeypox – was observed in Europe. As a result, interest in poxviruses has increased again. An international research team investigated the structure of the poxvirus prototype, the vaccinia virus (VACV). The team found that trimers of the A10 protein, an abundant protein of the virus, play an important role in the formation of the mature virus. These trimers may also be involved in interactions with other cell components during infection, which could provide a starting point for the development of antiviral therapies against viruses from the poxvirus family.

Junior scientists at the laboratory (Quelle: Stock-Asso/Shutterstock.com)

The poxvirus prototype, the vaccinia virus (VACV), was used in the past as a live vaccine to eradicate smallpox. Despite intensive research, important questions regarding the biogenesis and structure of the mature virus (MV) remain unanswered.

A10 Trimers Important for Virus Assembly and Perhaps Beyond

The infectious MV is a quasi-brick-shaped particle measuring roughly 250 nm × 350 nm × 200 nm. It consists of an oval core enclosing the viral genome and the proteins necessary for transcription – of DNA into messenger RNA (mRNA) – early in infection. The MV is composed of up to 200 proteins. The proteins responsible for the virus' prominent palisade layer were hitherto unknown.

An international research team led by Professor Jacomina Krijnse Locker, LOEWE DRUIDLOEWE Professorship for Neglected Infectious Diseases/Imaging Techniques at the Paul-Ehrlich-Institut, investigated the molecular composition and structure of VACV. The study combined high-resolution imaging techniques such as cryo-electron tomography (cryo-ET), subtomogram averaging (STA) and AlphaFold2 (AF2) to decipher the molecular architecture of the VACV core.

In using these different techniques, the researchers found that the prominent palisade layer of the virus' core is composed of the A10 protein. The research team was able to show that the protein forms A10 trimers.

These A10 trimers are flexibly distributed on the surface of the core, displaying no specific pattern. A10 could potentially be involved in interactions with cell components after the virus enters the cell during the early phase of the infection cycle. Further studies will aim to clarify the exact functions of the A10 trimers and other proteins in connection with VACV infection.

"Our findings not only contribute to a better understanding of the biology of the vaccinia virus, but could also provide a starting point for the development of new antiviral therapies against infections with viruses from the poxvirus family", says Professor Jacomina Krijnse Locker, LOEWE DRUIDLOEWE Professorship for Neglected Infectious Diseases/Imaging Techniques at the Paul-Ehrlich-Institut.

Original Publication

Liu J, Corroyer-Dulmont S, Pražák V, Khusainov I, Bahrami K, Welsch S, Vasishtan D, Obarska-Kosińska A, Thorkelsson SR, Grünewald K, Quemin ERJ, Turoňová B, Krijnse Locker J (2024): The palisade layer of the poxvirus core is composed of flexible A10 trimers.
Nat Struct Mol Biol Feb 5 [Epub ahead of print].
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Updated: 29.04.2024