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Allosteric modulation of NMDA receptors prevents the antibody effects of patients with anti-NMDAR encephalitis
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Anti-N-Methyl-D-Aspartate Receptor (NMDAR) encephalitis is an immune-mediated disease characterized by a complex neuropsychiatric syndrome in association with an antibody-mediated decrease of NMDAR. About 85% of patients respond to immunotherapy (and removal of an associated tumor if it applies), but it often takes several months or more than 1 year for patients to recover. There are no complementary treatments, beyond immunotherapy, to accelerate this recovery. Previous studies showed that SGE-301, a synthetic analog of 24(S)-hydroxycholesterol, which is a potent, and selective positive allosteric modulator of NMDAR, reverted the memory deficit caused by phencyclidine (a non-competitive antagonist of NMDAR), and prevented the NMDAR dysfunction caused by patients' NMDAR antibodies in cultured neurons. An advantage of SGE-301 is that it is optimized for systemic delivery such that plasma and brain exposures are sufficient to modulate NMDAR activity. Here, we used SGE-301 to confirm that in cultured neurons it prevented the antibody-mediated reduction of receptors, and then we applied it to a previously reported mouse model of passive cerebroventricular transfer of patients' CSF antibodies. Four groups were established: mice receiving continuous (14-day) infusion of patients' or controls' CSF, treated with daily subcutaneous administration of SGE-301 or vehicle (no drug). The effects on memory were examined with the novel object location (NOL) test at different time points, and the effects on synaptic levels of NMDAR (assessed with confocal microscopy) and plasticity (long-term potentiation [LTP]) were examined in the hippocampus on day 18, which in this model corresponds to the last day of maximal clinical and synaptic alterations. As expected, mice infused with patients' CSF antibodies, but not those infused with controls' CSF, and treated with vehicle developed severe memory deficit without locomotor alteration, accompanied by a decrease of NMDAR clusters and impairment of LTP. All antibody-mediated pathogenic effects (memory, synaptic NMDAR, LTP) were prevented in the animals that were treated with SGE-301, despite that this compound did not antagonize antibody binding. Additional investigations on the potential mechanisms related to these SGE-301 effects showed that (1) in cultured neurons SGE-301 prolonged the decay time of NMDAR-dependent spontaneous excitatory postsynaptic currents suggesting a prolonged open time of the channel, and (2) it significantly decreased the internalization of antibody-bound receptors suggesting that additional, yet unclear mechanisms, contribute in keeping unchanged the surface NMDAR density. Overall, these findings suggest that SGE-301, or similar modulators of NMDAR, could potentially serve as complementary treatment for anti-NMDAR encephalitis and deserve future investigations.
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MANNARA, Francesco, RADOSEVIC, Marija, PLANAGUMÀ, Jesús, SOTO DEL CERRO, David, AGUILAR, Esther, GARCÍA SERRA, Anna, MAUDES, Estibaliz, PEDREÑO, Marta, PAUL, Steven, DOHERTY, James, QUIRK, Michael, DAI, Jing, GASULL CASANOVA, Xavier, LEWIS, Mike, DALMAU OBRADOR, Josep. Allosteric modulation of NMDA receptors prevents the antibody effects of patients with anti-NMDAR encephalitis. _Brain_. 2020. Vol. 143, núm. 9, pàgs. 2709-2720. [consulta: 28 de gener de 2026]. ISSN: 0006-8950. [Disponible a: https://hdl.handle.net/2445/183500]