The neurotoxic effect of the pro-inflammatory cytokine interleukin (IL)-1beta was studied in monolayer cultures, obtained using roller-drum incubation of hippocampal slices from neonatal Sprague Dawley rats. Following exposure to recombinant rat IL-1beta for four days, a concentration dependent loss was observed in the number of NMDAR1 receptor subunit immunoreactive pyramidal neurons in the cultures, reaching significance at 10 ng/ml rIL-1beta. Also incubation with recombinant mouse IL-1beta caused a loss of pyramidal neurons, with a significant effect at a concentration of 30 pg/ml. The vitamin E analog trolox (30 microM) was found to exert a protective effect against the rIL-1beta induced neuronal degeneration. A neuroprotective action against rIL-1beta was also found after co-incubation with the NMDA antagonist dizocilpine (MK-801; 30 microM), while no protection was found with the GABAA mimetic clomethiazole. Hence, the pro-inflammatory cytokine IL-1beta is neurotoxic to hippocampal pyramidal neurons when studied in an in vitro system with advanced phenotypic characteristics. The neuroprotective effects exerted by trolox and MK-801 suggest that free radicals and NMDA receptor-mediated processes are involved in IL-1beta -induced neurodegeneration.
The kynurenine pathway intermediate 3-hydroxyanthranilic acid (3-HANA) is converted by 3-HANA 3,4-dioxygenase (3-HAO) to the putative neuropathogen quinolinic acid (QUIN). In the present study, the neuroprotective effects of the 3-HANA analogue and 3-HAO inhibitor NCR-631 was investigated using organotypic cultures of rat hippocampus. An anoxic lesion was induced by exposing the cultures to 100% N2 for 150 min, resulting in a pronounced loss of pyramidal neurons, as identified using NMDA-R1 receptor subunit immunohistochemistry. NCR-631 provided a concentration-dependent protective effect against the anoxia. NCR-631 was also found to counteract the loss of pyramidal neurons in two models of neuroinflammatory-related damage; incubation with either LPS (10 ng/ml) or IL-1 beta (10 IU/ml). The findings suggest that NCR-631 has neuroprotective properties and that it may be a useful tool to study the role of kynurenines in neurodegeneration.
Neuroinflammation has been suggested to play an integral role in the pathophysiology of various neurodegenerative diseases. Bacterial lipopolysaccharide (LPS) endotoxins are general activators of immune-cells, including microglial cells, which induce expression of pro-inflammatory factors. The aim of this study was to characterize neurodegenerative effects of exposure to LPS, derived from Salmonella abortus equi bacteria, in an in vitro brain slice culture system. Quasi-monolayer cultures were obtained using roller-drum incubations of hippocampal slices from neonatal Sprague Dawley rats for three weeks. Microglia/macrophages were identified in the monolayer cultures by CD11b immunostaining, while neuronal populations identified included N-methyl-D-aspartate (NMDA-R1) receptor immunoreactive pyramidal neurons and smaller GABA-immunoreactive cells. Following exposure to LPS (100 ng/ml) an increased density of CD11b positive cells was found in the cultures. In addition, the LPS exposure produced a concentration-dependent loss of the NMDA-R1 immunoreactive neurons in the cultures which was substantial at 100 ng/ml LPS. The loss of NMDA-R1 cells was apparent already after 24 h exposure to LPS and seemed to be primarily due to necrotic-like cell death. However, a continued loss of cells was found when cultures were analyzed at 72 h, concomitant with an increase in the expression of p53 in the NMDA-R1 cells and TUNEL labeling of a few cells. Also the number of GABA-immunoreactive cells decreased rapidly and to a substantial extent after 24 h exposure to LPS, with a continued decrease up to 72 h. The findings show that Salmonella LPS increases the density of CD11b positive cells and acts as a potent neurotoxin in hippocampal roller-drum slice cultures. The LPS-induced neurodegeneration has both necrotic- and apoptotic-like properties and appears to be non-selective, affecting both pyramidal and GABA neurons. LPS-induced neurotoxicity in slice cultures may be a useful system to study processes involved in inflammatory-mediated neurodegeneration.
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