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Monday, 05 Dec, 2022

A dengue vaccine? Duke-NUS scientists identify new findings in a key protein that may help

First-in-the-world high-resolution imaging allows scientists to study the dengue protein in greater detail to yield valuable insights.

 

SINGAPORE, 5 December 2022 – Dengue, a mosquito-borne tropical disease, remains a threat not just in Singapore but in Southeast Asia and beyond. Just this year, Singapore had more than 30,000 cases. Using advanced techniques in cryogenic electron microscopy, scientists from Duke-NUS Medical School and colleagues from the UK have obtained the first high-resolution views of an important dengue virus protein involved in the development of severe disease.

Published in Nature Communications, the team’s insights may potentially inform and refine treatment strategies as well as drug and vaccine development against this endemic disease. 

The team revealed that the non-structural protein 1 (NS1) can be presented outside the cell in both six- and four-unit formats and promote vascular leakage, a key contributor to dengue haemorrhagic fever. The authors also found that the four-unit format can resist antibodies binding, suggesting that this format is harder to tackle.

“These findings show how some NS1 proteins that are outside cells can escape the immune response,” said Professor Lok Shee-Mei from Duke-NUS Emerging Infectious Diseases (EID) Programme and senior author of the study. “When this happens in someone who has the dengue virus in their body, the individual has an increased risk of developing dengue haemorrhagic fever.”

However, the study will provide the structural information to help design drugs that will be more susceptible to antibody binding.

Currently, there is one globally approved vaccine, which contains a cocktail that presents four different serotypes chimeric dengue particles, but it is only partly effective and works only on those who have been infected by the dengue virus before.

“Vaccines that stimulate a response against some, but not all, serotypes of the virus can backfire by causing the immune system to facilitate enhanced dengue entry into and the infection of circulating immune cells,” said Dr Bo Shu, first author of the study and Research Fellow with Duke-NUS’ EID Programme. “One possible way to make an effective vaccine is to NS1, which is produced by the dengue virus.”

Prior to this study, the details of NS1’s different structures had never been fully studied, adding to the challenge of creating that effective vaccine. The team took advantage of advances in cryogenic electron microscopy to construct the first high-resolution structures of the NS1 that is secreted outside virus-infected cells, called secreted NS1 (sNS1).

While intracellular NS1 is involved in dengue virus replication, which allows the virus to multiply inside cells, extracellular sNS1 makes blood vessels leak and triggers nose, skin, gum and intracranial bleeding—all symptoms of dengue haemorrhagic fever, the more severe form of dengue fever.

The high-resolution images revealed how four (tetrameric) or six (hexameric) units of NS1 interact to form either stably or loosely structured proteins. Interestingly, the scientists found that antibodies against sNS1 only attach to the loosely structured versions of the protein. This breaks them apart and ultimately reduces blood vessel leakiness. Stable tetrameric sNS1, on the other hand, was more resistant to antibody binding and would remain intact.

“Our results pave the way to investigating how these different forms of sNS1 can stimulate different pathways, leading to the complex vascular leakage that occurs in severe dengue disease,” said Prof Lok, who is also NUS Provost’s Chair Professor.

“Dengue is not only a global concern but remains a particular threat here in Singapore, where we have once again faced a major outbreak this year,” said Professor Patrick Casey, Senior Vice-Dean for Research at Duke-NUS. “This innovative fundamental research by Prof Lok and her team yields valuable insights that can inform and refine treatment strategies and vaccine development against this endemic disease.”

 

Reference: Shu, B., Ooi, J.S.G., Tan, A.W.K. et al. CryoEM structures of the multimeric secreted NS1, a major factor for dengue hemorrhagic fever. Nat Commun 13, 6756 (2022). https://doi.org/10.1038/s41467-022-34415-1


For media enquires, pls contact Dionne Seah, Duke-NUS Communications.

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