The free-living amoebaNaegleria fowleriis the aetiological agent of primary amoebic meningoencephalitis (PAM), a disease leading to death in the vast majority of cases. In patients suffering from PAM, and in corresponding animal models, the brain undergoes a massive inflammatory response, followed by haemorrhage and severe tissue necrosis. Both,in vivoandin vitromodels are currently being used to study PAM infection. However, animal models may pose ethical issues, are dependent upon availability of specific infrastructural facilities, and are time-consuming and costly. Conversely, cell cultures lack the complex organ-specific morphology foundin vivo, and thus, findings obtainedin vitrodo not necessarily reflect the situationin vivo. The present study reports infection of organotypic slice cultures from rat brain withN. fowleriand compares the findings in this culture system within vivoinfection in a rat model of PAM, that proved complementary to that of mice. We found that brain morphology, as presentin vivo, is well retained in organotypic slice cultures, and that infection time-course including tissue damage parallels the observationsin vivoin the rat. Therefore, organotypic slice cultures from rat brain offer a newin vitroapproach to studyN. fowleriinfection in the context of PAM.
Multivariate analysis reveals shared genetic architecture of brain morphology and human behavior