Potentiation of the NMDA receptor in the treatment of schizophrenia: focused on the glycine site

N-methyl-D-aspartate receptor (NMDAR) hypo-function theory of schizophrenia proposes that impairment in NMDAR function be associated with the pathophysiology of schizophrenia and suggests that enhancement of the receptor function may produce efficacy for schizophrenia. Consistent with this theory, for the last decade, clinical trials have demonstrated that the enhancement of NMDAR function by potentiating the glycine site of the receptor is efficacious in the treatment of schizophrenia. Full agonists of the glycine site, glycine and D-serine and a glycine transporter-1 inhibitor, sarcosine, added to antipsychotic drugs, have been shown to be effective in the treatment of negative symptoms and possibly cognitive symptoms without significantly affecting the positive symptoms of schizophrenia. A partial agonist of the glycine site, D-cycloserine, added to antipsychotic drugs, can be effective for the negative symptoms at the therapeutic doses. However, these drugs have not shown clinical efficacy when added to clozapine, suggesting that the interactions of clozapine and the glycine site potentiators may be different from those of other antipsychotic drugs and the potentiators. This article suggests that the glycine site potentiators may produce efficacy for negative and cognitive symptoms by blocking apoptosis-like neuropathological processes in patients with chronic schizophrenia and thereby can deter progressive deterioration of the disorder. This article proposes a polypharmacy of glycine site potentiators augmented with antipsychotic drugs to control positive and negative symptoms in a synergistic manner and block deterioration in schizophrenia. Since the NMDAR complex consists of multiple sites modulating receptor functions, the efficacy of glycine site potentiators for schizophrenia suggests the possibility that manipulation of other modulating sites of the NMDAR can also be efficacious in the treatment of schizophrenia.     

A placebo-controlled crossover trial of D-cycloserine added to clozapine in patients with schizophrenia.

BACKGROUND: D-Cycloserine, a partial agonist at the glycine recognition site of the NMDA receptor, has previously been shown to improve negative symptoms when added to conventional antipsychotics and, in one preliminary dose-finding study, worsened negative symptoms when added to clozapine. METHODS: Seventeen schizophrenia outpatients treated with clozapine were assigned in random order to 6-week trials of D-cycloserine 50 mg/day and placebo in a crossover design separated by a 1 week placebo washout. RESULTS: Eleven patients competed the 13-week study. D-Cycloserine significantly worsened ratings of negative symptoms compared to placebo but did not significantly affect ratings of psychotic symptoms. CONCLUSIONS: The differing effects of D-cycloserine on negative symptoms when added to clozapine compared to conventional antipsychotics suggests that activation of the glycine recognition site may play a role in clozapine's efficacy for negative symptoms.     

High-dose glycine added to olanzapine and risperidone for the treatment of schizophrenia.

BACKGROUND: Clinical trials indicate that glycine site agonists of the N-methyl-D-aspartate (NMDA) receptors may reduce negative and cognitive symptoms in treatment-resistant schizophrenia when used as adjuvants to conventional antipsychotics but possibly not to clozapine. In this study, we assessed whether high-dose glycine may also be therapeutically beneficial when added to olanzapine and risperidone treatment. METHODS: Seventeen olanzapine- or risperidone-treated schizophrenia patients participated in a double-blind, placebo-controlled, 6-week crossover treatment trial with.8 g/kg/day glycine added to their ongoing antipsychotic medication. Clinical assessments were performed biweekly throughout the study. Clinical laboratory parameters and amino acid serum levels were monitored. RESULTS: Glycine treatment was well tolerated and resulted in a significant (p <.0001) 23% +/- 8% reduction in negative symptoms. Significant improvements were also registered in cognitive and positive symptoms. The negative symptoms improvement remained significant even following covariation for changes in other symptom clusters and extrapyramidal side effects. High posttreatment glycine serum levels significantly predicted (r =.60) clinical response. CONCLUSIONS: These findings indicate that the efficacy of olanzapine and risperidone may be augmented using high-dose adjuvant glycine treatment and suggest that these atypical antipsychotics may affect NMDA receptor-mediated neurotransmission differently than clozapine.     

Clozapine modulates midbrain dopamine neuron firing via interaction with the NMDA receptor complex

The mode of action by which the atypical antipsychotic drug clozapine exerts its superior efficacy to ameliorate both positive and negative symptoms is still relatively unknown. A recent study shows that a pharmacologically increased concentration of brain kynurenic acid, an endogenous antagonist at the glycine-site of the NMDA receptor as well as at the alpha7* nicotinic receptor, reverses the excitatory effects of clozapine on ventral tegmental area (VTA) dopamine (DA) neurons into an inhibitory action. In the present in vivo electrophysiological study, we further investigated the mechanisms of action of clozapine on VTA DA neurons. In control rats intravenously administered clozapine (1.25-10 mg/kg) was associated with increased firing rate and burst firing activity of VTA DA neurons. However, administration of the N-methyl-D-aspartate (NMDA)-receptor antagonist MK 801 blocked the excitatory action of clozapine. Moreover, in rats pretreated with the antagonist of the glycine-site of the NMDA receptor, L-701,324, the effects of clozapine on VTA DA neurons were converted to purely inhibitory responses, including a decrease in firing rate and burst firing activity. Pretreatment with the alpha7* nicotinic receptor antagonist MLA did not affect the excitatory action of clozapine on VTA DA neurons. The results of the present study suggest that clozapine interacts with the NMDA receptor complex. In this regard, clozapine could affect the glycine site of the NMDA receptor or tentatively inhibit the glycine transporter. The inhibitory action of clozapine on VTA DA neurons may account for its beneficial effects in ameliorating symptoms of schizophrenia and may suggest further studies to investigate a role of the glycine site of the NMDA receptor as a target for novel antipsychotics.     

Glutamate as a therapeutic target in psychiatric disorders

Glutamate is the primary excitatory neurotransmitter in the mammalian brain. Glutamatergic neurotransmission may be modulated at multiple levels, only a minority of which are currently being exploited for pharmaceutical development. Ionotropic receptors for glutamate are divided into N-methyl-D-aspartate receptor (NMDAR) and AMPA receptor subtypes. NMDAR have been implicated in the pathophysiology of schizophrenia. The glycine modulatory site of the NMDAR is currently a favored therapeutic target, with several modulatory agents currently undergoing clinical development. Of these, the full agonists glycine and D-serine have both shown to induce significant, large effect size reductions in persistent negative and cognitive symptoms when added to traditional or newer atypical antipsychotics in double-blind, placebo-controlled clinical studies. Glycine (GLYT1) and small neutral amino-acid (SNAT) transporters, which regulate glycine levels, represent additional targets for drug development, and may represent a site of action of clozapine. Brain transporters for D-serine have recently been described. Metabotropic glutamate receptors are positively (Group I) or negatively (Groups II and III) coupled to glutamatergic neurotransmission. Metabotropic modulators are currently under preclinical development for neuropsychiatric conditions, including schizophrenia, depression and anxiety disorders. Other conditions for which glutamate modulators may prove effective include stroke, epilepsy, Alzheimer disease and PTSD.     

Alpha-adrenoceptor modulation hypothesis of antipsychotic atypicality

Although all currently used antipsychotic drugs act as dopamine (DA) D2 receptor antagonists, clozapine, the prototype for atypical antipsychotics, shows superior efficacy, especially regarding negative and cognitive symptoms, in spite of a significantly reduced central D2 receptor occupancy compared with typical (conventional) antipsychotic drugs. Clozapine, as well as several other atypicals, displays significant affinities also for several other neurotransmitter receptors, including other dopaminergic receptors, alpha-adrenergic receptors and different serotonergic and cholinergic receptors, which in several ways may contribute to the clinical effectiveness of the drugs. Preclinical and clinical results suggest a dysregulated mesocorticolimbic DA system in schizophrenia, with an impaired prefrontal DA projection, which may relate to negative and cognitive symptoms, concomitant with an overactive or overreactive striatal DA projection, with bearing on psychotic (positive) symptomatology. Available data suggest that blockage of alpha1-adrenoceptors by antipsychotics may contribute to suppress positive symptoms, especially in acute schizophrenia, whereas alpha2-adrenoceptor blockage, a prominent effect of clozapine and, to some extent, risperidone but not other antipsychotics, may rather be involved in relief of negative and cognitive symptoms. Whereas alpha1-adrenoceptor blockage may act by suppressing, at the presynaptic level, striatal hyperdopaminergia, alpha2-adrenoceptor blockage may act by augmenting and improving prefrontal dopaminergic functioning. Thus, the prominent alpha1- and alpha2-adrenoceptor blocking effects of clozapine may generally serve to stabilize dysregulated central dopaminergic systems in schizophrenia, allowing for improved efficacy in spite of a reduced central D2 receptor occupancy compared with typical antipsychotic drugs.     

D-serine efficacy as add-on pharmacotherapy to risperidone and olanzapine for treatment-refractory schizophrenia.

BACKGROUND: D-serine, a selective full agonist at the glycine site of N-methyl-D-aspartate glutamate receptor, might presently be the compound of choice for counteracting the hypothesized dysfunction of this receptor class in schizophrenia. Studies performed with Taiwanese patients indicate that D-serine significantly improves schizophrenia symptoms when used as adjuvant to conventional neuroleptics but not to clozapine. We assessed the efficacy and safety of D-serine adjuvant treatment for Occidental schizophrenia patients treated with newer atypical antipsychotics. METHODS: Thirty-nine risperidone- or olanzapine-treated schizophrenia patients participated in a double-blind, placebo-controlled, 6-week crossover trial with 30 mg/kg/day D-serine added to their antipsychotic medication. Measures of clinical efficacy and side effects were determined biweekly throughout the study. Clinical laboratory parameters and amino acid serum levels were monitored. RESULTS: D-serine administration induced increased serine serum levels (p < .001) and resulted in significant (p < .001) improvements in negative, positive, cognitive, and depression symptoms, as measured by the Positive and Negative Syndrome Scale. For approximately one third of the sample, D-serine treatment resulted in significant (>20%) reductions in Brief Psychiatric Rating Scale total scores. D-serine was well tolerated, and no detrimental changes in clinical laboratory parameters were noted. CONCLUSIONS: These findings 1) indicate that risperidone and olanzapine efficacy might be augmented with D-serine adjuvant treatment; 2) confirm D-serine efficacy against main schizophrenia symptom domains; and 3) warrant the assessment of D-serine antipsychotic monotherapy for this illness.     

Glycine site agonists of the N‐methyl‐d‐aspartate receptor and Parkinson's disease: A hypothesis

Limitations of current pharmacological approaches to Parkinson's disease (PD) highlight the need for the development of nondopaminergic therapeutic strategies. The potential role of glutamatergic neurotransmission modulators, including those active at the N‐methyl‐D‐aspartate receptor (NMDAR), is presently under investigation. Most literature proposes the use of NMDAR antagonists based on neurodegenerative theories of NMDAR function. Nevertheless, NMDAR antagonism has proven disappointing in clinical trials and may be associated with serious adverse events. More recent theories indicate that NMDAR target selectivity may be a cardinal prerequisite for efficacy, with present efforts being devoted primarily to development of NMDAR‐NR2B subunit antagonists. We propose a novel hypothesis according to which NMDAR stimulation, accomplished through allosteric modulation via the glycine modulatory site, may be beneficial in late‐phase PD. This hypothesis stems from: (1) meta‐analysis of randomized controlled trials performed in schizophrenia, indicating that glycine site agonists (eg, glycine, D‐serine) alleviate antipsychotic‐induced parkinsonian symptoms; (2) clinical observations indicating that NMDAR hypofunction is associated with motor disturbances; (3) results of a preliminary D‐serine trial in PD; (4) data indicating glycine efficacy in a rat tardive dyskinesia model; and (5) no evidence of excitotoxic damage following chronic high‐dose glycine nutritional supplementation. This hypothesis is discussed in the context of glycine site agonist effects on intrasynaptic NMDAR subunits and striatal synaptic plasticity. © 2013 Movement Disorder Society     

D-Cycloserine added to risperidone in patients with primary negative symptoms of schizophrenia

BACKGROUND: D-Cycloserine, a partial agonist at the glycine recognition site of the NMDA receptor has previously been shown to improve negative symptoms when added to conventional antipsychotics and to worsen negative symptoms when added to clozapine. The purpose of this study was to examine the effects of D-cycloserine when added to risperidone on negative symptoms of schizophrenia. METHOD: Ten patients with schizophrenia who were treated with risperidone completed consecutive two week trials of placebo and four doses of D-cycloserine. Clinical assessments were videotaped and were scored by a rater who was blind to temporal sequence. RESULTS: D-Cycloserine at a dose of 50mg/day was associated with significant reduction in negative symptoms (mean=10%). Ratings of depression, extrapyramidal side effects, and cognitive function were unchanged. Serum concentrations of glutamate and serine increased significantly on this dose of D-cycloserine. CONCLUSIONS: This preliminary study suggests that combination of D-cycloserine, 50mg/day, with risperidone may improve negative symptoms of schizophrenia over a narrow dose range. The degree of improvement appears to be intermediate between improvement of negative symptoms observed with combination of D-cycloserine with conventional antipsychotics and worsening of negative symptoms observed with combination of D-cycloserine with clozapine in previous trials of identical design.     

Is the glycine site half saturated or half unsaturated? Effects of glutamatergic drugs in schizophrenia patients

PURPOSE OF REVIEW: Current treatments for schizophrenia target the dopamine system. Developments of new treatments that target the glutamate system, however, are under progress, in particular, for the N-methyl-D-aspartate-type glutamate receptor. Compared with dopaminergic treatments, these treatments may show improved efficacy in the treatment of persistent negative symptoms. RECENT FINDINGS: During the past year, clinical trials have been published with several agonists at the glycine site of the N-methyl-D-aspartate receptor, including glycine, D-serine, D-alanine and with the glycine transport inhibitor, sarcosine. Studies published during the past year indicate highly significant beneficial effects on negative symptoms when these compounds are added to both conventional and newer atypical antipsychotics in efficacy models although an effectiveness trial of current formulations of glycine and D-cycloserine failed to show an overall benefit. Relevant issues across studies may include the compound chosen, its formulation and tolerability, populations studied, and the nature and dose of the base antipsychotic treatment. SUMMARY: The present findings continue to support the use of N-methyl-D-aspartate/glycine site agonists as potential new treatments for persistent negative symptoms of schizophrenia. Ongoing work with novel compounds and new formulations may assist in the translation of these advances into clinic-ready pharmacotherapies.     

Placebo-controlled trial of glycine added to clozapine in schizophrenia

OBJECTIVE: The purpose of this study was to evaluate the effects of high-dose oral glycine on positive and negative symptoms and cognitive function when added to clozapine in adults with schizophrenia. METHOD: The authors conducted a double-blind, placebo-controlled, parallel-group trial of 60 g/day of glycine added to clozapine for 8 weeks in 30 adults with schizophrenia. Clinical ratings were performed every 2 weeks. RESULTS: Twenty-seven patients completed the trial. Glycine augmentation of clozapine produced no statistically significant change in positive or negative symptoms or cognitive functioning. No subjects showed clinically significant worsening of clinical ratings. CONCLUSIONS: These data, combined with data from previous trials with D-cycloserine and glycine, suggest that agonists at the glycine site may be less effective when combined with clozapine than they are when combined with conventional antipsychotics.     

Differential effects of topiramate on prefrontal glutamatergic transmission when combined with raclopride or clozapine

Treatment with topiramate may improve negative symptoms in schizophrenia when added to typical antipsychotic drugs (APDs) but not to clozapine. Both dopaminergic and glutamatergic transmissions in the medial prefrontal cortex (mPFC) are facilitated by atypical, but not typical, APDs, which is thought to improve negative symptoms and cognitive dysfunction in schizophrenia. Our previous results show that topiramate increases prefrontal dopamine (DA) outflow when added to the D_2/3 receptorantagonist raclopride. Here, using intracellular recording in vitro, we investigated the effects of topiramate on glutamatergic neurotransmission in the rat mPFC, both when given alone and in combination with raclopride or clozapine. Neither topiramate nor raclopride alone had any effect on N‐methyl‐D ‐aspartate (NMDA)‐induced currents in pyramidal cells of the mPFC. However, the combination of topiramate and raclopride facilitated the NMDA‐induced currents, and this effect was blocked by the D₁ receptor antagonist SCH23390. Topiramate also facilitated the effect of a submaximal, but inhibited the effect of a maximal, concentration of clozapine on these currents. The effect of combined topiramate and a submaximal concentration of clozapine could be blocked by SCH23390. In addition, combined topiramate and raclopride facilitated excitatory postsynaptic potentials. In contrast, topiramate inhibited clozapine's facilitating effect on these potentials. These data may help explain the improvement of negative symptoms when topiramate is used as adjunctive therapy in schizophrenic patients receiving typical APDs, but they may also shed light on the observed deterioration of symptoms when topiramate is added to full dose clozapine. Synapse 63:913–920, 2009. © 2009 Wiley‐Liss, Inc.     

From revolution to evolution: the glutamate hypothesis of schizophrenia and its implication for treatment

Glutamate is the primary excitatory neurotransmitter in mammalian brain. Disturbances in glutamate-mediated neurotransmission have been increasingly documented in a range of neuropsychiatric disorders including schizophrenia, substance abuse, mood disorders, Alzheimer's disease, and autism-spectrum disorders. Glutamatergic theories of schizophrenia are based on the ability of N-methyl-D-aspartate receptor (NMDAR) antagonists to induce schizophrenia-like symptoms, as well as emergent literature documenting disturbances of NMDAR-related gene expression and metabolic pathways in schizophrenia. Research over the past two decades has highlighted promising new targets for drug development based on potential pre- and postsynaptic, and glial mechanisms leading to NMDAR dysfunction. Reduced NMDAR activity on inhibitory neurons leads to disinhibition of glutamate neurons increasing synaptic activity of glutamate, especially in the prefrontal cortex. Based on this mechanism, normalizing excess glutamate levels by metabotropic glutamate group 2/3 receptor agonists has led to potential identification of the first non-monoaminergic target with comparable efficacy as conventional antipsychotic drugs for treating positive and negative symptoms of schizophrenia. In addition, NMDAR has intrinsic modulatory sites that are active targets for drug development, several of which show promise in preclinical/early clinical trials targeting both symptoms and cognition. To date, most studies have been done with orthosteric agonists and/or antagonists at specific sites. However, allosteric modulators, both positive and negative, may offer superior efficacy with less danger of downregulation.     

Glycine transporter I inhibitor, N-methylglycine (sarcosine), added to antipsychotics for the treatment of schizophrenia.

BACKGROUND: Hypofunction of N-methyl-D-aspartate glutamate receptor had been implicated in the pathophysiology of schizophrenia. Treatment with D-serine or glycine, endogenous full agonists of the glycine site of N-methyl-D-aspartate receptor, or D-cycloserine, a partial agonist, improve the symptoms of schizophrenia. N-methylglycine (sarcosine) is an endogenous antagonist of glycine transporter-1, which potentiates glycine's action on N-methyl-D-aspartate glycine site and can have beneficial effects on schizophrenia. METHODS: Thirty-eight schizophrenic patients were enrolled in a 6-week double-blind, placebo-controlled trial of sarcosine (2 g/d), which was added to their stable antipsychotic regimens. Twenty of them received risperidone. Measures of clinical efficacy and side effects were determined every other week. RESULTS: Patient who received sarcosine treatment revealed significant improvements in their positive, negative, cognitive, and general psychiatric symptoms. Similar therapeutic effects were observed when only risperidone-treated patients were analyzed. Sarcosine was well-tolerated, and no significant side effect was noted. CONCLUSIONS: Sarcosine treatment can benefit schizophrenic patients treated by antipsychotics including risperidone. The significant improvement with the sarcosine further supports the hypothesis of N-methyl-D-aspartate receptor hypofunction in schizophrenia. Glycine transporter-1 is a novel target for the pharmacotherapy to enhance N-methyl-D-aspartate function.     

Low-dose clozapine for the treatment of Parkinson's disease in a patient with schizophrenia

Clozapine is known to be beneficial for the treatment of dopamine agonist-induced psychotic states in patients with Parkinson's disease (PD). Many reports have suggested that it may also be efficacious for the treatment of parkinsonian tremor. We describe a patient with schizophrenia in whom early-onset PD appeared after treatment with antipsychotic drugs. When the parkinsonian symptoms proved resistant to anticholinergic agents, we introduced a trial with up to 50 mg clozapine daily, which yielded a prompt and dramatic response. Thereafter, the parkinsonian symptoms reappeared each time the patient discontinued clozapine and rapidly disappeared on its repeat initiation. There was also a marked improvement in his psychotic and depressive symptoms. This report suggests that some patients with concomitant schizophrenia and PD-a difficult treatment challenge-may benefit from clozapine treatment alone for both disorders.     

Differential effects of clozapine and haloperidol on ketamine-induced brain metabolic activation

Subanesthetic doses of N-methyl- -aspartate (NMDA) receptor antagonists such as ketamine and phencyclidine precipitate psychotic symptoms in schizophrenic patients. In addition, these drugs induce a constellation of behavioral effects in healthy individuals that resemble positive, negative, and cognitive symptoms of schizophrenia. Such findings have led to the hypothesis that decreases in function mediated by NMDA receptors may be a predisposing, or even causative, factor in schizophrenia. The present study examined the effects of the representative atypical (clozapine) and typical (haloperidol) antipsychotic drugs on ketamine- induced increases in -2-deoxyglucose (2-DG) uptake in the rat brain. As previously demonstrated, administration of subanesthetic doses of ketamine increased 2-DG uptake in specific brain regions, including medial prefrontal cortex, retrosplenial cortex, hippocampus, nucleus accumbens, basolateral amygdala, and anterior ventral thalamic nucleus. Pretreatment of rats with 5 or 10 mg/kg clozapine alone produced minimal or no change in 2-DG uptake, yet clozapine completely blocked ketamine-induced changes in 2-DG uptake in all brain regions studied. In striking contrast, a dose of haloperidol (0.5 mg/kg) that produces a substantial cataleptic response, potentiated, rather than blocked, ketamine-induced activation of 2-DG uptake. These results demonstrate, in a model with potential relevance to schizophrenia, a striking neurobiological difference between the actions of prototypical typical and atypical antipsychotic drugs. The dramatic blockade by clozapine of ketamine-induced brain metabolic activation suggests that antagonism of the consequences of reduced NMDA receptor function could contribute to the superior therapeutic effects of this atypical antipsychotic agent. The results also suggest that this model of ketamine-induced alterations in 2-DG uptake may be extremely useful for understanding the complex neural mechanisms of atypical antipsychotic drug action.     

Clozapine and negative symptoms. An open study

1. Clozapine, the first atypical antipsychotic, has demonstrated an efficacy in the treatment of resistant schizophrenia. But one of the major challenge in the treatment of schizophrenia remains the lack of efficacy of antipsychotics on negative symptoms of schizophrenia. 2. The authors studied the efficacy of clozapine in an open study in a population of 51 patients, who met the DSM IV criteria for schizophrenia. Using the positive and negative symptom scale (P.A.N.S.S.), and the Extra Pyramidal Symptoms Rating Scale (E.S.R.S.), we try to identify the specificity of the action of clozapine on the different symptomatic dimensions of schizophrenia. 3. The efficacy of clozapine was clinically significant on the negative symptomatology but was delayed compared to the efficacy on the other dimensions of symptomatology evaluated using the PANSS. 4. Nine patients, were considered as deficit patients; in this sample clozapine also demonstrated a significant efficacy on negative symptoms. The efficacy of clozapine did not seem to be a consequence of the better neurological tolerance of this antipsychotic evaluated with ESRS.     

Inhibition of system A-mediated glycine transport in cortical synaptosomes by therapeutic concentrations of clozapine: implications for mechanisms of action

Clozapine is an atypical antipsychotic with particular efficacy in schizophrenia, possibly related to potentiation of brain N-methyl-D-aspartate receptor (NMDAR) -mediated neurotransmission. NMDARs are regulated in vivo by glycine, which is regulated in turn by glycine transporters. The present study investigates transport processes regulating glycine uptake into rat brain synaptosomes, along with effects of clozapine on synaptosomal glycine transport. Amino-acid uptake of amino acids was assessed in rat brain P2 synaptosomal preparations using a radiotransport assay. Synaptosomal glycine transport was inhibited by a series of amino acids and by the selective System A antagonist MeAIB (2-methyl-aminoisobutyric acid). Clozapine inhibited transport of both glycine and MeAIB, but not other amino acids, at concentrations associated with preferential clinical response (0.5-1 microg/ml). By contrast, other antipsychotics studied were ineffective. The novel glycine transport inhibitor N[3-(4'-fluorophenyl)-3-(4'-phenylphenoxy)propyl]sarcosine (NFPS) produced biphasic inhibition of [(3)H]glycine transport, with IC(50) values of approximately 25 nM and 25 microM, respectively. NFPS inhibition of [(3)H]MeAIB was monophasic with a single IC(50) value of 31 microM. Clozapine significantly inhibited [(3)H]glycine binding even in the presence of 100 nM NFPS. In conclusion, this study suggests first that System A transporters, or a subset thereof, may play a critical role in regulation of synaptic glycine levels and by extension of NMDA receptor regulation, and second that System A antagonism may contribute to the differential clinical efficacy of clozapine compared with other typical or atypical antipsychotics.     

Treatment-refractory schizophrenia in children and adolescents: an update on clozapine and other pharmacologic interventions

Treatment-refractory early-onset schizophrenia is a rare but severe form of the disorder associated with poor premorbid function and long-term disability. The currently available evidence suggests that clozapine remains the most efficacious treatment for the amelioration of both positive and negative symptoms of the disorder and problematic aggressive behaviors. Clozapine use in children and adolescents, however, is limited by its association with hematologic adverse events and an increased frequency of seizure activity. Further studies are needed to examine the usefulness of antipsychotic combinations and of augmentation therapies to antipsychotic medications in order to treat persistent residual psychotic symptoms in children and adolescents who have schizophrenia and who have not responded to several sequential trials of antipsychotic monotherapy.     

Mechanisms of typical and atypical antipsychotic drug action in relation to dopamine and NMDA receptor hypofunction hypotheses of schizophrenia.

Available evidence indicates that clozapine is the most effective antipsychotic currently used for the pharmacotherapy of schizophrenia. Unfortunately, clozapine can cause serious side effects that limit the use of the drug. The therapeutic mechanism of action of clozapine is poorly understood, and accordingly, it has been difficult to design new drugs with the advantageous therapeutic properties of clozapine. Based on hypotheses that dopaminergic and serotonergic receptor-blocking properties of clozapine account for its clinical efficacy, several novel antipsychotic drugs have been introduced recently. There is currently insufficient data to reach definitive conclusions regarding the efficacy of the newer 'atypical' antipsychotics in comparison to clozapine. However, most published studies, and general clinical impressions, suggest that none of the newer drugs are as effective as clozapine in treating patients resistant to typical antipsychotic drug therapy. The present paper briefly reviews the clinical experience with the newer 'atypical' antipsychotic drugs and then discusses clinical and preclinical data potentially relevant to mechanisms of action of clozapine in relation to the NMDA receptor hypofunction hypothesis of schizophrenia.