Abstract
Previous studies have demonstrated a potential role of brain endogenous microglia and meningeal macrophages in inflammation and brain injury during bacterial meningitis. However, the contribution of previously engrafted monocytes and microglia to this process is still unknown. We therefore used genetically labelled bone marrow-derived cells from transgenic mice expressing the green fluorescent protein (GFP) under the chicken beta-actin promoter to deliver fluorescently labelled monocytes to the diseased brain. Approximately 24 hours after Streptococcus pneumoniae infection, GFP-expressing parenchymal microglia changed their morphology to an activated phenotype and upregulated major histocompatibility complex class II molecules. Bacterial meningitis increased the engraftment of GFP+ monocytes and their differentiation to microglia during the post-inflammatory period, but not during acute meningitis. Importantly, these newly recruited monocytes became an integral part of the pool of parenchymal microglia and contributed to the clearance of damaged tissue by increased lysosomal activity and close location to apoptotic cells. Thus, circulating cells entering the brain such as monocytes/macrophages might provide a potential cellular target for the treatment of the tissue damage following meningitis via peripheral cell therapy.
Highlights
Microglia are representatives of the resident mononuclear phagocyte population within the central nervous system (CNS)
Our experiments revealed that bone marrow-derived cells (BMCs) predominantly of the myeloid lineage were recruited to the meninges in response to acute S. pneumoniae infection
In order to determine whether the longterm engraftment of microglia from haematopoietic cells was changed following bacterial meningitis we examined the number of green fluorescent protein (GFP)+ monocyte-derived microglia 4 weeks after infection compared with saline-infected controls (Figs 4 and 5)
Summary
Microglia are representatives of the resident mononuclear phagocyte population within the central nervous system (CNS) These cells share many phenotypical and functional characteristics with other tissue macrophages as well as peripheral blood monocytes, suggesting that microglia participate in innate immune reactions of the brain. They are rapidly activated in response to any pathology within the CNS, where they have a key role in the defence of the brain parenchyma against infection, in inflammation, ischaemia, trauma, brain tumours and neurodegeneration (Kreutzberg, 1996). We and others had previously shown that cells derived from bone marrow enter the brain early during postnatal
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