Abstract
Physical exercise has been shown to increase neurogenesis, to decrease neuronal injury and to improve memory in animal models of stroke and head trauma. Therefore, we investigated the effect of voluntary wheel running on survival, neuronal damage and cell proliferation in a mouse model of pneumococcal meningitis. Mice were housed in cages equipped with voluntary running wheels or in standard cages before induction of bacterial meningitis by a subarachnoid injection of a Streptococcus pneumoniae type 3 strain. 24 hours later antibiotic treatment was initiated with ceftriaxone (100 mg/kg twice daily). Experiments were terminated either 30 hours or 4 days (short-term) or 7 weeks (long-term) after infection, and the survival time, inflammatory cytokines and corticosterone levels, neurogenesis in the dentate gyrus of the hippocampal formation and the cognitive function were evaluated in surviving mice. Survival time was significantly increased in running mice compared to control animals (p = 0.0087 in short-term and p = 0.016 in long-term experiments, log-rank test). At the end of the long-term experiment, mortality was lower in trained than in sedentary animals (p = 0.031, Fisher’s Exact test). Hippocampal neurogenesis – assessed by the density of doublecortin-, TUC-4- and BrdU + NeuN-colabeled cells - was significantly increased in running mice in comparison to the sedentary group after meningitis. However, Morris water maze performance of both groups 6 weeks after bacterial meningitis did not reveal differences in learning ability. In conclusion, physical exercise prior to infection increased survival in a mouse model of bacterial meningitis and stimulated neurogenesis in the dentate gyrus of the hippocampal formation.
Highlights
Mortality in bacterial meningitis is high, amounting to approximately 25% in adults, and survivors frequently suffer from long-term sequelae, from learning and memory deficits [1,2]
We investigated if physical exercise by voluntary wheel running prior to induction of bacterial meningitis is able to alleviate the course of the disease, to strengthen the power of resistance against bacterial infection and to increase neurogenesis
The weight of mice suffering from bacterial meningitis decreased during acute disease, with the maximum weight loss corresponding to the poorest motor performance at 36 hours after infection
Summary
Mortality in bacterial meningitis is high, amounting to approximately 25% in adults, and survivors frequently suffer from long-term sequelae, from learning and memory deficits [1,2]. Neuronal cell damage is evident in the hippocampal formation, the neocortex, the basal ganglia, and the brain stem of victims of bacterial meningitis [3,4]. While acute diseases of the brain regularly cause cell damage and neuronal death, endogenous mechanisms of evidence for a beneficial effect of motor activity on brain function [17,18]. In animal models of brain diseases such as stroke and traumatic injury, physical exercise was able to mediate neuroprotection and to reduce memory deficits observed regularly in these diseases. We investigated if physical exercise by voluntary wheel running prior to induction of bacterial meningitis is able to alleviate the course of the disease, to strengthen the power of resistance against bacterial infection and to increase neurogenesis
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