Spaceflight activates herpes in astronauts

Spaceflight creates a stressful environment for astronauts, awakening dormant viruses.

Four of eight human herpes viruses have been detected, including oral and genital herpes, chicken pox and shingles. Because herpes viruses reside in nerve and immune cells, they never really leave, so they can "wake up".

But fortunately for astronauts, reactivation of viruses does not necessarily mean that symptoms return.

"Only six astronauts have developed symptoms due to viral reactivation," said Mehta. "All were minors."

But the implication of infecting others when astronauts return to Earth is very real, especially for those with compromised immune systems or for newborns.

Signs of chicken pox and infectious shingles were still present in body fluids up to 30 days after the return of the astronauts.

Researchers are also considering future space missions, which will lead them to the Moon and Mars in the long term, in deep space. A round-trip mission on Mars could take up to three years.

"The magnitude, frequency, and duration of viral shedding all increase with the duration of spaceflight," said Mehta. "The ideal countermeasure is the vaccination of astronauts, but this one is only available against chickenpox."

Since trials of other herpesvirus vaccines are not promising, the researchers focused on developing targeted treatment regimens for those suffering the consequences of viral reactivation.

"This research is also of considerable clinical relevance to patients on Earth, and our spaceborne technologies for rapid detection of viruses in saliva are already being used in clinics and hospitals around the world," said Mehta.

What happens to immune systems in the space

"Cancer represents a significant risk to astronauts during very long space flight missions due to radiation exposure," said Richard Simpson, lead author of the study and associate professor of radiation sciences. Nutrition at the University of Arizona, in a statement. "[NK-cells] are also very important for killing cells infected with the virus. When you're in the space station, the environment is very sterile – you probably do not get the flu, a rhinovirus, or a community-type infection – but the problematic infections are the viruses that are already there. in your body. These are mostly viruses that cause things like shingles, mononucleosis or cold sores; they stay in your body for the rest of your life and they wake up when you're stressed. "

During the study, scientists studied blood samples from eight astronauts who spent time on the space station and compared them to healthy people who did not experience spaceflight. Blood samples from astronauts were taken before, during and after spaceflight.

Compared with healthy controls and pre-flight condition, astronaut NK cell function was altered during and after spaceflight. On day 90 of their stay at the space station, samples of NK cell activity against leukemic cells in dishes in culture were reduced by 50% in crew members.

The effect was even more pronounced for first-time space-faring astronauts compared to those who had previously performed missions.

"I think there is no doubt that the function of NK cells decreases in the space flight environment when it is analyzed in a cell culture system," Simpson said.

But what caused that? As in the new study, researchers in this study believe that this could be stress-induced. The first-time astronauts were also younger than the space flight veterans and found their first experience more stressful, which could exacerbate their cellular response.

The study does not imply that astronauts are more susceptible to cancer. On this question, future studies can say.

"The next question would be: how can we mitigate these effects? How to prevent the immune system from degrading when traveling in space?" Simpson said. "To do that, you first have to understand what's causing the decline, it's stress, it's microgravity, it's the radiation, it's a plethora of things to directly target and mitigate those factors. ".

Researchers at the Johnson Space Center are working on possible countermeasures, including exercise, nutrition, and pharmacology, to preserve astronauts' health in the space. All this could stimulate the immune response.