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    Meningitis changes immune cell makeup in the mouse brain lining

    Meningitis, a group of serious diseases which infect the brain’s lining, leaves its mark and can affect the body’s ability to fight such infections in the future. According to a new study, infections can have long-lasting effects on a population of meningeal immune cells, replacing them with cells from outside the meninges that then change and become less likely to recognize and ward off future attacks.



    Meningeal macrophages (shown in white, red, and blue) are on constant alert against potential threats to brain tissue. Photo: McGavern Lab, NINDS


    Using real time imaging, Dorian McGavern, Ph.D., National Institute of Neurological Disorders and Stroke (NINDS), scientist and his colleagues took a detailed look at mouse meningeal macrophages, which are immune cells that live in the meninges, the protective layers covering the brain and spinal cord.

    One group of these macrophages is found along blood vessels in the dura mater (the outermost layer of the meninges) and helps catch pathogens from the blood before they reach brain tissue.

    Blood vessels in the dura mater are relatively open compared to the tightly sealed vessels found in other brain regions, and macrophages in the dura mater often serve as the first line of defense against harmful blood-borne agents.

    They observed that during normal conditions, meningeal macrophages were on constant alert against threats, continually extending their thin arms and surveying their environment.

    They next watched how macrophages changed after infection by lymphocytic choriomeningitis virus (LCMV), which targets the meninges, causing viral meningitis. Within two days of the infection, levels of antiviral cytokines, part of the immune response to viruses, increased in the meninges.

    After four days, one-third of meningeal macrophages were infected, and showed activity in many genes involved in fighting viruses.

    The then investigated the long-term effects of this infection, after the virus was cleared and the meningitis had subsided. Within a week, most of the infected macrophages had died and were removed from the area by immune cells, leaving a depleted stock of meningeal macrophages. This supply was refilled by monocytes, immune cells recruited from the blood.

    Some of these monocytes eventually turned into macrophages but had different properties from the original cells. The new macrophages were missing a specific receptor that detects bacteria, making them less effective at responding to future infections.

    The new macrophages also had lower levels of another receptor that recognizes the brain chemical acetylcholine, which normally dulls inflammation in meningeal macrophages. Consequently, the new macrophages were less responsive to this signal and had trouble quieting an infection-induced inflammatory response. These results indicate that infections in the brain can have lasting effects, long after the virus leaves the system.

    These findings suggest that in addition to identifying the type of infection, it may also be important to know if it is coming on the heels of an earlier bug because that may affect how the system responds. Getting a virus out of the brain does not necessarily mean that everything goes back to normal. (National Institutes of Health)

    APRIL 4, 2019



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