Authors
Lorga, I., Soares, J., Bravo, J., Mesquita, P., Ribeiro, N., Rodrigues, J., Hassan, A., Mesquita, M., Cavadas, B., Georgiev, H., Magalhaes, A., Summavielle, T., Vilanova, M., Ribot, J. C., Bonifacio Andrade, E.
Abstract
Neonatal bacterial meningitis is a life-threatening condition and a leading cause of neurodevelopmental impairment among survivors. Despite its prevalence, the role of meningeal immunity on disease pathology during early life remains largely unexplored. Using a clinically relevant mouse model of neonatal group B streptococcal meningitis and single-cell RNA sequencing, we observed that IL-17A (IL-17)-producing {gamma}{delta} T cells ({gamma}{delta}17 T cells) accumulate in the meninges during the acute phase of infection and persist throughout the lifespan. Importantly, mice deficient in {gamma}{delta} T cells or in IL-17 show a significantly lower bacterial colonisation in the brain parenchyma, and IL-17 neutralisation in the cerebrospinal fluid leads to a similar phenotype. Reduced blood-brain barrier permeability in the absence of {gamma}{delta} T cells results in decreased bacterial invasion and diminished microglia activation. Wild-type but not {gamma}{delta} T cell-deficient mice surviving infection exhibit increased hyperactivity and open space anxiety during early adulthood, a behavioural profile that may reflect attention deficit and hyperactivity (ADHD)-like tendencies. Altogether, these findings establish a pathogenic role for meningeal {gamma}{delta}17 T cells in early life, uncovering a key mechanism that drives long-term sequelae in GBS neonatal meningitis.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 11 Nov 2025.
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