AI Article Synopsis
- - Nipah virus can infect humans and is deadly, with its receptor-binding protein being crucial for entering host cells and a main target for antibodies.
- - The study uses deep mutational scanning to analyze how various mutations in the receptor-binding protein affect its function and ability to evade antibodies.
- - Researchers found important areas of the receptor-binding protein that affect its binding to host cells, and noted that there are few mutations in natural Nipah strains, which could aid in creating effective vaccines and therapies.
Article Abstract
Nipah virus recurrently spills over to humans, causing fatal infections. The viral receptor-binding protein (RBP or G) attaches to host receptors and is a major target of neutralizing antibodies. Here we use deep mutational scanning to measure how all amino-acid mutations to the RBP affect cell entry, receptor binding, and escape from neutralizing antibodies. We identify functionally constrained regions of the RBP, including sites involved in oligomerization, along with mutations that differentially modulate RBP binding to its two ephrin receptors. We map escape mutations for six anti-RBP antibodies, and find that few antigenic mutations are present in natural Nipah strains. Our findings offer insights into the potential for functional and antigenic evolution of the RBP that can inform the development of antibody therapies and vaccines.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11042328 | PMC |
| http://dx.doi.org/10.1101/2024.04.17.589977 | DOI Listing |
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