AIMS: Using primary cultures of mouse hippocampal neurons, we studied the molecular and functional interactions between high mobility group box-1 (HMGB1) and the N-methyl-d-aspartate receptor (NMDAR), two proteins playing a key role in neuronal hyperexcitability. By measuring NMDA-induced calcium (Ca(2+)) increase in neuronal somata and neurotoxicity as functional read-out parameters, we explored the role of the redox state of HMGB1, the receptor involved, and the molecular signaling underlying its interactions with postsynaptic NMDAR. We also investigated whether HMGB1 redox state affects its proconvulsive effects in mice. RESULTS: Nonoxidizable HMGB1 with a triple cysteine-to-serine replacement (3S-HMGB1) was ineffective on NMDA response. Conversely, the disulfide-containing form of HMGB1 dose dependently enhanced NMDA-induced Ca(2+) increase in neuronal cell bodies. This effect was prevented by BoxA, a competitive HMGB1 antagonist, and by Rhodobacter sphaeroides lipopolysaccharide (LPS-RS), a toll-like receptor 4 (TLR4) selective antagonist, and it was abrogated in neurons lacking TLR4 while persisting in the absence of receptor for advanced glycation end products (RAGE). TLR4 and NMDAR subunit 1 (NR1) and 2B (NR2B) were colocalized in neurons. Disulfide HMGB1 effect on NMDA-induced Ca(2+) influx was prevented by 3-O-methylsphingomyelin (3-O-MS) and 4-amino-5-(4-chlorophenyl)-7-(t-butyl) pyrazolo [3,4-d] pyrimidine, (PP2) selective inhibitors of neutral sphingomyelinase and Src-family Tyr kinases, respectively. Disulfide HMGB1, but not 3S-HMGB1, increased Tyr(1472) phosphorylation of the NR2B subunit of the NMDAR, which is known to increase Ca(2+) channel permeability. Similarly, disulfide HMGB1 increased NMDA-induced neuronal cell death in vitro and enhanced kainate-induced seizures in vivo. INNOVATION AND CONCLUSION: We describe a novel molecular neuronal pathway activated by HMGB1 that could be targeted in vivo to prevent neurodegeneration and seizures mediated by excessive NMDARs stimulation.
AIMS: Using primary cultures of mouse hippocampal neurons, we studied the molecular and functional interactions between high mobility group box-1 (HMGB1) and the N-methyl-d-aspartate receptor (NMDAR), two proteins playing a key role in neuronal hyperexcitability. By measuring NMDA-induced calcium (Ca(2+)) increase in neuronal somata and neurotoxicity as functional read-out parameters, we explored the role of the redox state of HMGB1, the receptor involved, and the molecular signaling underlying its interactions with postsynaptic NMDAR. We also investigated whether HMGB1 redox state affects its proconvulsive effects in mice. RESULTS: Nonoxidizable HMGB1 with a triple cysteine-to-serine replacement (3S-HMGB1) was ineffective on NMDA response. Conversely, the disulfide-containing form of HMGB1 dose dependently enhanced NMDA-induced Ca(2+) increase in neuronal cell bodies. This effect was prevented by BoxA, a competitive HMGB1 antagonist, and by Rhodobacter sphaeroideslipopolysaccharide (LPS-RS), a toll-like receptor 4 (TLR4) selective antagonist, and it was abrogated in neurons lacking TLR4 while persisting in the absence of receptor for advanced glycation end products (RAGE). TLR4 and NMDAR subunit 1 (NR1) and 2B (NR2B) were colocalized in neurons. DisulfideHMGB1 effect on NMDA-induced Ca(2+) influx was prevented by 3-O-methylsphingomyelin (3-O-MS) and 4-amino-5-(4-chlorophenyl)-7-(t-butyl) pyrazolo [3,4-d] pyrimidine, (PP2) selective inhibitors of neutral sphingomyelinase and Src-family Tyr kinases, respectively. DisulfideHMGB1, but not 3S-HMGB1, increased Tyr(1472) phosphorylation of the NR2B subunit of the NMDAR, which is known to increase Ca(2+) channel permeability. Similarly, disulfideHMGB1 increased NMDA-induced neuronal cell death in vitro and enhanced kainate-induced seizures in vivo. INNOVATION AND CONCLUSION: We describe a novel molecular neuronal pathway activated by HMGB1 that could be targeted in vivo to prevent neurodegeneration and seizures mediated by excessive NMDARs stimulation.
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