Combining antibiotic with anti-TLR2/TLR13 therapy prevents brain pathology in pneumococcal meningitis
Susanne Dyckhoff-Shen, Ilias Masouris, Heba Islam, Sven Hammerschmidt, Barbara Angele, Veena Marathe, Jan Buer, Stefanie Völk, Hans-Walter Pfister, Matthias Klein, Uwe Koedel, Carsten J. Kirschning
Susanne Dyckhoff-Shen, Ilias Masouris, Heba Islam, Sven Hammerschmidt, Barbara Angele, Veena Marathe, Jan Buer, Stefanie Völk, Hans-Walter Pfister, Matthias Klein, Uwe Koedel, Carsten J. Kirschning
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Research Article Infectious disease

Combining antibiotic with anti-TLR2/TLR13 therapy prevents brain pathology in pneumococcal meningitis

Abstract

Despite effective antibiotic therapy, brain-destructive inflammation often cannot be avoided in pneumococcal meningitis. The causative signals are mediated predominantly through TLR-recruited myeloid differentiation primary response adaptor 88 (MyD88), as indicated by a dramatic pneumococcal meningitis phenotype of Myd88–/– mice. Because lipoproteins and single-stranded RNA are crucial for recognition of Gram-positive bacteria such as Streptococcus pneumoniae by the host immune system, we comparatively analyzed the disease courses of Myd88–/– and Tlr2–/– Tlr13–/– mice. Their phenotypic resemblance indicated TLR2 and -13 as master sensors of S. pneumoniae in the cerebrospinal fluid. A neutralizing anti-TLR2 antibody (T2.5) and chloroquine (CQ) — the latter applied here as an inhibitor of murine TLR13 and its human ortholog TLR8 — abrogated activation of murine and human primary immune cells exposed to antibiotic-treated S. pneumoniae. The inhibitory effect of the T2.5/CQ cocktail was stronger than that of dexamethasone, the current standard adjunctive drug for pneumococcal meningitis. Accordingly, TLR2/TLR13 blockade concomitant with ceftriaxone application significantly improved the clinical course of pneumococcal meningitis compared with treatment with ceftriaxone alone or in combination with dexamethasone. Our study indicates the importance of murine TLR13 and human TLR8, besides TLR2, in pneumococcal meningitis pathology, and suggests their blockade as a promising antibiotic therapy adjunct.

Authors

Susanne Dyckhoff-Shen, Ilias Masouris, Heba Islam, Sven Hammerschmidt, Barbara Angele, Veena Marathe, Jan Buer, Stefanie Völk, Hans-Walter Pfister, Matthias Klein, Uwe Koedel, Carsten J. Kirschning

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Figure 3

The adjunctive use of neutralizing anti-TLR2 monoclonal antibody and chloroquine in antibiotic therapy provides significantly greater benefits to mice with pneumococcal meningitis as compared with administration of dexamethasone.

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The adjunctive use of neutralizing anti-TLR2 monoclonal antibody and chl...
(AJ) Pneumococcal meningitis was elicited by intracisternal injection of viable Streptococcus pneumoniae (with PBS as negative control, n = 4). Eighteen hours postinfection (p.i.), animals were treated with ceftriaxone (n = 10) and a cocktail of neutralizing anti-TLR2 mAb (T2.5) and chloroquine (CQ) (n = 10), with the additional (n = 10) or alternative (n = 12) administration of dexamethasone (DEXA) or placebo (n = 14). At 42 hours p.i., CSF leukocyte counts (A), bacterial load (B), intracranial pressure (ICP) (C), the number of cerebral hemorrhages (D), as well as plasma concentrations of neurofilament light chain (NEFL) (E) and S100B (F) — 2 biomarkers for brain injury — were evaluated. Mice also underwent clinical examination, including the assessment of weight loss (G), motor activity (H), and clinical scores (I). (J) Brain sections from representative mice of the investigated groups. Data are presented as median (line in box), 25%–75% percentile range (bounds of the box), and minimum and maximum (whiskers). The number of samples in individual experiments may be lower if mice had to be euthanized before the end of the experiment or technical issues appeared (for detailed information see Supporting Data Values file). Statistical test was 1-way ANOVA and subsequent Tukey’s post hoc test. ****P < 0.0001; ***P < 0.001; **P < 0.01; *P < 0.05. NS, not significant; CEF, ceftriaxone.