Home Future HIV hijacks ’emergency response’ in host cells

HIV hijacks ’emergency response’ in host cells

0


Researchers have discovered how HIV evades one of the body’s best defenses.

Their work could offer hope for future treatments that stop the spread of HIV in the body.

Messenger RNA (mRNA) from HIV is known to utilize a host cell’s system in order to create its own viral proteins. In response, the infected cell shuts down the infiltrated pathway. But despite these roadblocks, HIV is still able to replicate itself and spread.

Researchers and scientists have long struggled to determine how HIV accomplishes such a seemingly impossible trick.

Xiao Heng, associate professor of biochemistry at University of Missouri, was among the collaborators who discovered that after global mRNA translation pathways (tools that allow a cell to replicate) are shut down, HIV can impersonate the stress response of the host.

This disguise helps it gain access to emergency translation pathways—essentially offering forged credentials. These forged credentials allow HIV into “restricted” areas of the cell so that it can continue producing its own viral proteins.

“When the host cell recognizes HIV, it will stop dividing and just maintain survival,” Heng says. “In response, HIV learns from the host and uses the way cells react when they are stressed.”

After infection, HIV attacks white blood cells within the immune system. These cells will stay infected for the rest of a patient’s life. If untreated, HIV can develop into AIDS.

“AIDS has been around for almost four decades, and early on we were always talking about new antiviral therapeutics—but we still have 38 million people living with AIDS,” Heng says. “If we’re able to identify and stop or medically disrupt this process, we might be able to regulate HIV going forward.”

To help illustrate their findings, Heng brought the research to a group of third-, fourth-, and fifth-grade students in Columbia, Missouri. After discussing her work and answering questions, she asked students to draw what they imagined the process looked like inside a cell. Their creativity offered Heng another way to describe these complex functions.

In the drawing, HIV says, "I need to use their factory to make my proteins. But how?" Next, another drawing shows HIV wearing TMG "hat" and saying "What a magic hat!"
Digitized drawing from Heng’s work with grade school students at Paxton Keeley and Mill Creek elementary schools. The m7G “hat” allows HIV to access a cell’s global translation pathways need for mRNA translation. When those are shut down, HIV can then take on the TMG “hat,” gaining access to emergency translation pathways and allowing it to continue viral replication.

“The virus needs to use the host’s own factory to replicate,” she says. “But cells recognize it as an intruder and shut down the factory. Then HIV has to find a way to produce its own necessary protein. So, HIV is able to disguise itself using a different ‘hat’ that allows it access to use the host emergency pathways. This permits it to make its own proteins, package itself, and infect other cells.”

Heng is hopeful their discovery can be used to develop new, more effective treatments for HIV, including one day finding a cure.

The research appears in the Proceedings of the National Academy of Sciences. Additional contributors are from the University of Missouri and the University of Minnesota.

Funding came from a grant from the National Institutes of Health.

Source: University of Missouri

LEAVE A REPLY

Please enter your comment!
Please enter your name here