Pneumococcal pneumolysin and H2O2 mediate brain cell apoptosis during meningitis
Johann S. Braun, Jack E. Sublett, Dorette Freyer, Tim J. Mitchell, John L. Cleveland, Elaine I. Tuomanen, Joerg R. Weber
Johann S. Braun, Jack E. Sublett, Dorette Freyer, Tim J. Mitchell, John L. Cleveland, Elaine I. Tuomanen, Joerg R. Weber
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Pneumococcal pneumolysin and H2O2 mediate brain cell apoptosis during meningitis

Abstract

Pneumococcus is the most common and aggressive cause of bacterial meningitis and induces a novel apoptosis-inducing factor–dependent (AIF–dependent) form of brain cell apoptosis. Loss of production of two pneumococcal toxins, pneumolysin and H2O2, eliminated mitochondrial damage and apoptosis. Purified pneumolysin or H2O2 induced microglial and neuronal apoptosis in vitro. Both toxins induced increases of intracellular Ca2+ and triggered the release of AIF from mitochondria. Chelating Ca2+ effectively blocked AIF release and cell death. In experimental pneumococcal meningitis, pneumolysin colocalized with apoptotic neurons of the hippocampus, and infection with pneumococci unable to produce pneumolysin and H2O2 significantly reduced damage. Two bacterial toxins, pneumolysin and, to a lesser extent, H2O2, induce apoptosis by translocation of AIF, suggesting new neuroprotective strategies for pneumococcal meningitis.

Authors

Johann S. Braun, Jack E. Sublett, Dorette Freyer, Tim J. Mitchell, John L. Cleveland, Elaine I. Tuomanen, Joerg R. Weber

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Inactivation of pneumolysin and blocking H2O2 inhibits mitochondrial dam...
Inactivation of pneumolysin and blocking H2O2 inhibits mitochondrial damage induced by live pneumococci. Changes of ultrastructure of microglial cells exposed to pneumococci (107 CFU/ml) for 3 hours were monitored by transmission electron microscopy. D39 and plnA caused massive swelling of the mitochondria (arrows) and endoplasmic reticulum (ER). Treatment of D39-exposed cells with NAC (10 mM) failed to prevent that damage. By contrast, when cells exposed to plnA were treated with NAC (10 mM), swelling of mitochondria and the endoplasmic reticulum was markedly attenuated. The double mutant plnA/spxB also showed attenuated mitochondrial damage. ×7,500. N, nucleus.