Neuronal death in pneumococcal meningitis is triggered by pneumolysin and pilus-1 interactions with β-actin

Abstract: Neuronal damage is a major consequence of bacterial meningitis, but little is known about mechanisms that lead to neuronal death. Streptococcus pneumoniae (pneumococcus) is a leading cause of bacterial meningitis and many survivors develop neurological sequelae after the acute infection has resolved, possibly due to neuronal damage. Here, we studied mechanisms for pneumococcal interactions with neurons. Using human primary neurons and co-immunoprecipitation assays, we showed that pneumococci interact with the … Show more

“…In addition to the expression of RrgA, the small size of these pneumococcal variants might explain easier penetration of the BBB ( Iovino et al, 2016a ). In addition, recent data imply that meningitis related neuronal death is mediated by an interaction of RrgA and pneumolysin with β-actin of human neurons ( Tabusi et al, 2020 ). The formation of biofilms promotes the persistence of pathogenic bacteria on patient’s tissues and overall virulence ( Muhammad et al, 2020 ).…”

Streptococcus pneumoniae Type 1 Pilus – A Multifunctional Tool for Optimized Host Interaction

“…In addition to the expression of RrgA, the small size of these pneumococcal variants might explain easier penetration of the BBB ( Iovino et al, 2016a ). In addition, recent data imply that meningitis related neuronal death is mediated by an interaction of RrgA and pneumolysin with β-actin of human neurons ( Tabusi et al, 2020 ). The formation of biofilms promotes the persistence of pathogenic bacteria on patient’s tissues and overall virulence ( Muhammad et al, 2020 ).…”

Streptococcus pneumoniae Type 1 Pilus – A Multifunctional Tool for Optimized Host Interaction