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Scientists discover how a protein protects against HIV and herpes

by Medical Xpress
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Graphical abstract. Credit: Cell Host & Microbe (2024). DOI: 10.1016/j.chom.2024.09.002

A group of researchers discovered how a protein linked to the human immune system wards off HIV-1 and herpes simplex virus-1 by assembling structures in the cell that lure in these viruses and then trap them or even take them apart. The research was spearheaded by first author George Moschonas, published in Cell Host & Microbe, and could be used to devise new strategies to combat these viruses. The team was led by Xavier Saelens and Sven Eyckerman at the VIB-UGent Center for Medical Biotechnology.

The innate immune system of the human body can sense and respond to by producing alarm cytokines, most notably interferons. These proteins act as an alarm system that goes off when a cell is infected by a virus, warning surrounding cells of an invasion and prompting them to activate their antiviral defenses.

These defenses comprise so-called interferon-stimulated genes (ISGs), which produce specific proteins with antiviral qualities. One example of this is the MX protein, which was discovered 60 years ago and restricts a broad range of viruses, including those that cause AIDS and herpes.

To date, researchers were unsure how the antiviral properties of the MX protein worked. However, in this new study led by Saelens and Eyckerman of the VIB-UGent Center for Medical Biotechnology and in collaboration with Beate Sodeik (Hannover Medical School), Zeger Debyser (KU Leuven), Linos Vanderkerckhove (UGent) and Nico Callewaert (VIB-UGent), the secret of the MX protein’s antiviral activity was uncovered.

A virus decoy

A herpes or HIV virus delivers its genome in the host cell nucleus through the nuclear pore complex. This delivery is essential for the virus to launch its genetic program, hijack the cell’s machinery and propagate. As a result, new viruses are made that leave the cell and spread to surrounding .

In an illuminating discovery, the researchers show how the MX protein drives the assembly of virus decoy structures that mimic nuclear pore complexes.

Eyckerman said, “We noticed that incoming viruses were being lured into structures that resembled nuclear pores. Through proteomics screens, we found that the MX protein interacts with proteins that are part of the nuclear pore complex. On closer inspection, we discovered that the MX protein orchestrates the assembly of nucleoporins into biomolecular condensates, membrane-less droplets inside a cell that act like a separate compartment. Viruses mistake these condensates for the actual cell door to the cell nucleus and get trapped or punctured.”

Saelens added, “By tricking viruses into prematurely releasing their , the MX ultimately prevents the spread of viral infections. This discovery not only clarifies how MX proteins combat viruses but also opens up potential new avenues for antiviral therapies.”

More information:
George D. Moschonas et al, MX2 forms nucleoporin-comprising cytoplasmic biomolecular condensates that lure viral capsids, Cell Host & Microbe (2024). DOI: 10.1016/j.chom.2024.09.002

Citation:
A viral trapdoor: Scientists discover how a protein protects against HIV and herpes (2024, October 9)
retrieved 9 October 2024
from https://medicalxpress.com/news/2024-10-viral-trapdoor-scientists-protein-hiv.html

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