How The Cold Sore Virus Can Reach And Infect Your Brain
The virus affects critical brain regions tied to sleep, mood, and hormonal control, potentially linking HSV-1 to neurodegenerative diseases.
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The herpes simplex virus type 1 (HSV-1), which causes cold sores, has long been known to have effects on the brain and central nervous system.
Researchers from the University of Colorado and the University of Bourgogne in France have recently conducted a study that provides new information on how this virus spreads inside the brain.
Researchers mapped the areas affected by the virus by using mouse models to study how HSV-1 affected different parts of the brain. Their findings reveal that HSV-1 can access the central nervous system through two main pathways: the trigeminal nerve, which connects the face and brain, and the olfactory nerve, responsible for the sense of smell. Despite identifying these entry points, the exact mechanism of how HSV-1 spreads further within the brain remains unclear.
"Recently, this common virus has been implicated in neurodegenerative diseases, such as Alzheimer's disease, but no clear route of central nervous system invasion has been established," says Christy Niemeyer, PhD, assistant professor of neurology at the University of Colorado Anschutz Medical Campus and co-first and corresponding author. "Identifying how HSV-1 can get into the brain and what brain regions are vulnerable is key in understanding how it initiates disease."
Once HSV-1 enters the brain, researchers also wanted to determine if the virus migrates at random or to specific areas. They were able to map where and how the virus travels within the brain and infects critical brain regions that control many vital functions, such as the brain stem, which controls sleep and movement. Researchers also found HSV-1 in regions of the brain that produce serotonin and norepinephrine, as well as the hypothalamus, a critical center of appetite, sleep, mood, and hormonal control within the brain.
"Even though the presence of HSV-1 is not causing full-blown encephalitis in the brain, it can still affect how these regions function," says Niemeyer.
Niemeyer and coauthors also show how HSV-1 interacts with the brain's key immune cells; microglia. They found that microglia became "inflamed" when interacting with HSV-1, but in some brain regions, inflamed microglia persisted even after the virus was no longer detected.
"Identifying the role of microglia provides helpful clues to the consequences of HSV-1 infection, and how it triggers neurological diseases," says Niemeyer. "persistently inflamed cells can lead to chronic inflammation, a known trigger for a number of neurological and neurodegenerative diseases. This research offers important takeaways in better understanding how viruses interact with overall brain health as well as the onset of pervasive neurological diseases."
This study adds to the understanding of HSV-1's impact on the brain, a crucial step towards developing treatments to limit its effects on the nervous system.