A novel experimental in vivo model of cerebral immunomodulation induced by inactivated Staphylococcus epidermidis

2012 
Abstract The genesis and appropriate treatment of neuroinflammation in various infectious and non-infectious disorders of the central nervous system is still a matter of debate. We introduce an alternative and simple experimental model for the investigation of the cellular inflammatory response to bacterial antigens by stereotactic intracerebral injection of heat-inactivated Staphylococcus epidermidis (HISE). HISE-injection resulted in well-circumscribed intraparenchymal deposits encompassed by an early micro- and astroglial response and a selective but sustained opening of the blood–brain barrier (BBB). After 24 h, the HISE collections were densely infiltrated by granulocytes and few circumjacent macrophages that became the predominating immunocompetent cell type from day 4 on. CD8a+ lymphocytes peaked at day 4, whereas CD4+ and CD20+ lymphocytes increased gradually in number, developing a scattered infiltrate until day 17, indicating the initiation of an adaptive immune response. MHC class II presenting cells were abundantly recruited from day 1 and eventually shaped an increasingly dense accumulation within the lesion. Intracerebral HISE administration provides a controlled, highly reproducible and well defined influx of immunocompetent cells across the BBB leading to a distinct and condensed inflammatory reaction. The technique is straightforward, easily feasible and may significantly enable further investigations of the initiation, maintenance and therapeutic modulation of acute neuroinflammation.
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