Resourceful viral protein combats monkey and human defenses differently

Tokyo Medical and Dental University

Researchers from Tokyo Medical and Dental University (TMDU) find that different parts of simian immunodeficiency virus viral protein U are needed to interact with the same host protein in monkeys versus humans

Tokyo, Japan - In the epic battle between hosts and viruses, viruses are constantly evolving to be more infectious. Now, researchers from Japan have found that human genes also evolve to help protect our bodies from invasion by life-threatening viruses.

In a study published in December in Journal of Virology, researchers from Tokyo Medical and Dental University (TMDU) have revealed that a monkey variant of human immunodeficiency virus (HIV) can counteract a human protein that defends against viral infection in a different way than it counteracts the same protein in monkeys.

Simian immunodeficiency virus (SIV) is closely related to HIV, and both viruses tend to use similar strategies to escape their hosts' defenses, which also tend to be very similar. One of these defenses is a protein called tetherin (also known as BST-2 or CD317). If a cell is invaded by the virus, tetherin prevents the virus from leaving the cell and infecting other nearby cells. To counter this measure, HIV and SIV make a protein called viral protein U (Vpu) that attaches to tetherin and blocks its effects.

"Because viruses adapt to their hosts, HIV Vpu is most effective against human tetherin, while SIV Vpu is most effective against monkey tetherin," explains Dr. Takeshi Yoshida, senior author of the study. "But in at least one unusual case, a strain of SIV that typically infects the greater spot-nosed monkey can also overcome human defenses, which suggests that SIV potentially infects humans."

To explore how SIV Vpu affects human tetherin, the researchers mutated different parts of the protein and looked at how well it blocked tetherin's normal activities and effects.

"The results were unexpected," says Dr. Weitong Yao, lead author. "We discovered that the parts of SIV Vpu that are needed to counteract monkey tetherin are not the same as the parts needed to counteract human tetherin."

The researchers pinpointed seven specific amino acids (the basic building blocks of proteins) that are needed for SIV to block human tetherin. Importantly, these seven amino acids were not essential for the virus to block monkey tetherin.

"What this tells us is that SIV Vpu may use a totally distinct mechanisms to counteract the effects of monkey and human tetherin," says Yoshida.

Given the different approaches that this viral protein uses to neutralize monkey and human tetherin, it seems likely that the gene encoding human tetherin faced different pressures over the course of evolution than the gene encoding monkey tetherin. The results from this study could help us better understand the evolution of host genes as a result of host-pathogen interactions.

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