The process by which measles virus causes subacute sclerosing panencephalitis, or SSPE has been discovered by researchers. SSPE is a rare, fatal neurological disorder that can occur several years after a measles infection. Although the normal form of the measles virus cannot infect the nervous system, the team found that viruses that persist in the body can develop mutations in a key protein that controls how they infect cells. The mutated proteins can interact with their normal form, making them capable of infecting the brain. Their findings were reported in the journal Science Advances.
‘In the genome of the measles virus, the patients with the neurological disorder had mutations accumulate in their F protein.’
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If you are of a certain age, you may have gotten the measles as a child. Many born after the 1970s have never gotten it thanks to vaccines. The condition is caused by the virus of the same name, which is one of the most contagious pathogens to this day. The World Health Organization estimates that nearly nine million people worldwide were infected with measles in 2021, with the number of deaths reaching 128,000. "Despite its availability, the recent COVID-19 pandemic has set back vaccinations, especially in the Global South," explains Yuta Shirogane, Assistant Professor at Kyushu University's Faculty of Medical Sciences. "SSPE is a rare but fatal condition caused by the measles virus. However, the normal measles virus does not have the ability to propagate in the brain, and thus it is unclear how it causes encephalitis."
Measles Virus Causes Neurological Disorder
A virus infects cells through a series of proteins that protrude from its surface. Usually, one protein will first facilitate the virus to attach to a cell's surface, then another surface protein will cause a reaction that lets the virus into the cell, leading to an infection. Therefore, what a virus can or cannot infect can depend heavily on the type of cell."Usually, the measles virus only infects your immune and epithelial cells, causing the fever and rash," continues Shirogane. "Therefore, in patients with SSPE, the measles virus must have remained in their body and mutated, then gained the ability to infect nerve cells. RNA viruses like measles mutate and evolve at very high rates, but the mechanism of how it evolved to infect neurons has been a mystery."
The key player in allowing the measles virus to infect a cell is a protein called fusion protein, or F protein. In the team's previous studies, they showed that certain mutations in the F protein puts it in a 'hyperfusongenic' state, allowing it to fuse onto neural synapses and infect the brain.
"This was surprising to see, but we found an explanation. When the virus infects a neuron, it infects it through 'en bloc transmission,' where multiple copies of the viral genome enter the cell," continues Shirogane. "In this case, the genome encoding the mutant F protein is transmitted simultaneously with the genome of the normal F protein, and both proteins are likely to coexist in the infected cell."
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In another case, the team found that a different set of mutations in the F protein results in a completely opposite result: a reduction in fusion activity. However, to their surprise, this mutation can actually cooperate with normal F proteins to increase fusion activity. Thus, even mutant F proteins that appear to be unable to infect neurons can still infect the brain.
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"There are many mysteries in the mechanisms by which viruses cause diseases. Since I was a medical student, I was interested in how the measles virus caused SSPE. I am happy that we were able to elucidate the mechanism of this disease," concludes Shirogane.
Source-Eurekalert