Memantine protects thalamocortical hyper‐glutamatergic transmission induced by NMDA receptor antagonism via activation of system xc⁻

Abstract: Deficiencies in N‐methyl‐d‐aspartate (NMDA)/glutamate receptor (NMDAR) signaling have been considered central to the cognitive impairments of schizophrenia; however, an NMDAR antagonist memantine (MEM) improves cognitive impairments of Alzheimer's disease and schizophrenia. These mechanisms of paradoxical clinical effects of NMDAR antagonists remain unclear. To explore the mechanisms by which MK801 and MEM affect thalamocortical transmission, we determined interactions between local administrations of MK801, M… Show more

“…Based on the established thalamocortical and related networks, the present study was designed. The MDTN is strongly regulated by GABAergic inhibition from the RTN (Asanuma, ) and the MDTN (Fukuyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ). The pyramidal neurons in the frontal cortex receive at least three projections from the LC and VTA.…”

“…The pyramidal neurons in the frontal cortex receive at least three projections from the LC and VTA. Both selective noradrenergic terminals from the LC and selective dopaminergic terminals from the VTA project to deeper layers of the frontal cortex, whereas co‐releasing catecholaminergic terminals (noradrenaline and dopamine) from the LC project to the superficial layers of the frontal cortex (Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ). In the deeper layers, the presynaptic terminals of selective noradrenergic and dopaminergic projections are regulated by inhibitory GABAergic input, whereas in the superficial layers, the co‐releasing catecholaminergic presynaptic terminals are regulated by the excitatory thalamocortical glutamatergic pathway via activation of AMPA receptors (Ohoyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ).…”

“…To accurately measure the concentrations of lurasidone and MK‐801 in the insula, MDTN, and RTN, in vivo probe diffusion was determined according to a reverse dialysis procedure (Okada, Fukuyama, Kawano, Shiroyama, Suzuki, & Ueda, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Okada, Yoshida, Zhu, Hirose, & Kaneko, ). Solute diffusion occurs in both directions across dialysis membranes; hence, the loss of solute from the perfusate occurs at the same rate as recovery of the solute into the perfusate.…”

“…The frontal cortex receives two major glutamatergic projections: one from other cortical regions and one from the mediodorsal thalamic nucleus (MDTN) (Kuroda, Yokofujita, & Murakami, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ). Recently, we demonstrated that aripiprazole, memantine and guanfacine, all of which improve cognitive function, normalized thalamocortical glutamatergic abnormalities in the mPFC and orbitofrontal cortex (Fukuyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ).…”

“…Systemic administration of NMDA receptor antagonists also increased l ‐glutamate release in the mPFC (Fukuyama, Hasegawa, & Okada, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ), resulting in increased firing of cortical neurons (Lorrain, Baccei, Bristow, Anderson, & Varney, ). In contrast to systemic administration, however, local infusion of an NMDA receptor antagonist directly into the mPFC did not affect regional extracellular l ‐glutamate levels (Tanahashi, Yamamura, Nakagawa, Motomura, & Okada, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ).…”

Lurasidone inhibits NMDA receptor antagonist‐induced functional abnormality of thalamocortical glutamatergic transmission via 5‐HT₇ receptor blockade

“…Based on the established thalamocortical and related networks, the present study was designed. The MDTN is strongly regulated by GABAergic inhibition from the RTN (Asanuma, ) and the MDTN (Fukuyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ). The pyramidal neurons in the frontal cortex receive at least three projections from the LC and VTA.…”

“…The pyramidal neurons in the frontal cortex receive at least three projections from the LC and VTA. Both selective noradrenergic terminals from the LC and selective dopaminergic terminals from the VTA project to deeper layers of the frontal cortex, whereas co‐releasing catecholaminergic terminals (noradrenaline and dopamine) from the LC project to the superficial layers of the frontal cortex (Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ). In the deeper layers, the presynaptic terminals of selective noradrenergic and dopaminergic projections are regulated by inhibitory GABAergic input, whereas in the superficial layers, the co‐releasing catecholaminergic presynaptic terminals are regulated by the excitatory thalamocortical glutamatergic pathway via activation of AMPA receptors (Ohoyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ).…”

“…To accurately measure the concentrations of lurasidone and MK‐801 in the insula, MDTN, and RTN, in vivo probe diffusion was determined according to a reverse dialysis procedure (Okada, Fukuyama, Kawano, Shiroyama, Suzuki, & Ueda, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Okada, Yoshida, Zhu, Hirose, & Kaneko, ). Solute diffusion occurs in both directions across dialysis membranes; hence, the loss of solute from the perfusate occurs at the same rate as recovery of the solute into the perfusate.…”

“…The frontal cortex receives two major glutamatergic projections: one from other cortical regions and one from the mediodorsal thalamic nucleus (MDTN) (Kuroda, Yokofujita, & Murakami, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ). Recently, we demonstrated that aripiprazole, memantine and guanfacine, all of which improve cognitive function, normalized thalamocortical glutamatergic abnormalities in the mPFC and orbitofrontal cortex (Fukuyama et al, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ).…”

“…Systemic administration of NMDA receptor antagonists also increased l ‐glutamate release in the mPFC (Fukuyama, Hasegawa, & Okada, ; Okada, Fukuyama, Kawano, Shiroyama, & Ueda, ), resulting in increased firing of cortical neurons (Lorrain, Baccei, Bristow, Anderson, & Varney, ). In contrast to systemic administration, however, local infusion of an NMDA receptor antagonist directly into the mPFC did not affect regional extracellular l ‐glutamate levels (Tanahashi, Yamamura, Nakagawa, Motomura, & Okada, ; Yamamura, Ohoyama, Hamaguchi, Kashimoto, et al, ; Yamamura, Ohoyama, Hamaguchi, Nakagawa, et al, ).…”

Lurasidone inhibits NMDA receptor antagonist‐induced functional abnormality of thalamocortical glutamatergic transmission via 5‐HT₇ receptor blockade

Memantine protects thalamocortical hyper‐glutamatergic transmission induced by NMDA receptor antagonism via activation of system xc⁻

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