Meningeal inflammation and arachnoid barrier breakdown in a mouse model of neonatal bacterial meningitis

Newborns are especially susceptible to bacterial meningitis, primarily caused by Group B Streptococcus (GBS), due to incomplete maturation of immune and barrier systems. While meningitis is well known to break down the blood-brain barrier (BBB), how the meningeal arachnoid barrier, a critical component of the blood-cerebrospinal fluid barrier (B-CSFB), responds to infection is poorly understood. Using a neonatal mouse model of bacterial meningitis, we demonstrate that GBS infection significantly increases arachnoid barrier permeability, coinciding with alterations in Claudin-11 tight junction distribution and elevated meningeal production of proinflammatory cytokines (IL-6, TNF-, CXCL1). CD206+/Lyve1+ border-associated macrophages (BAMs) undergo significant morphological and molecular activation post-infection, but their depletion prior to GBS infection did not attenuate arachnoid barrier leakage or inflammatory cytokine levels during infection. We show that meningeal fibroblasts are a main source of proinflammatory cytokines in response to GBS infection and that exposure to the inflammatory cytokine TNF- alone is sufficient to induce neonatal arachnoid barrier breakdown. These results support neonatal arachnoid barrier is vulnerable to cytokine-induced breakdown in bacterial infection and highlight the role of non-immune meningeal cells like fibroblasts during bacterial infection.