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Glutamatergic dysfunction.

I read with interest the article by Drs. Kantrowitz and Javitt ("Glutamate: New hope for schizophrenia treatment/' Current Psychiatry, April 2011, p. 68-74) describing the glutama-tergic model of schizophrenia. There is extensive evidence that in addition to neurocognitive deficits, schizophrenia is characterized by various neuromuscular abnormalities, including skeletal muscle fiber changes, alterations of alpha-motor neuron excitability, increased motor unit fiber densities, increased branching of terminal motor nerves, and elevated levels of muscular enzymes. (1), (2) These neuromuscular abnormalities also are found in healthy first-degree relatives of patients with schizophrenia. (3) Although the precise cause of these neuromuscular abnormalities has not been elucidated, one possible explanation is that they may be the result of neuronal injury mediated by excitatory amino acids. (1) For example, Stevens4 suggested that abnormal sprouting and reinnervation of neurons in schizophrenia might be caused by such injury.

Amyotrophic lateral sclerosis (ALS) is a progressive degenerative syndrome involving upper and lower alpha-motor neuron systems. A substantial body of evidence supports the hypothesis that glutamate-mediated excito-toxicity is responsible for the death of motor neurons in ALS. (5) Evidence suggests that having schizophrenia may be associated with an increased risk of developing ALS, and this risk might be explained by the toxic effects of excitatory amino acids on neuronal function. (1), (6) Recently Stommel et al (7) hypothesized that treating schizophrenia could protect against development of ALS, which is of interest because antipsychotics may have direct and indirect effects on modulating glutamate receptor systems. (8)

References

(1.) Howland RH. Excitatory amino acids, schizophrenia, and amyotrophic lateral sclerosis. Integrative Psychiatry. 1993;9(2):72-76.

(2.) Flyckt L, Borg J, Borg K, et a I. Muscle biopsy, macro EMG, and clinical characteristics in patients with schizophrenia. Biol Psychiatry. 2000;47:991-999.

(3.) Flyckt L, Wiesel FA, Borg J, et al. Neuromuscular and psychomotor abnormalities in patients with schizophrenia and their first-degree relatives. J Psychiatr Res. 2000;34:355-364.

(4.) Stevens JR. Abnormal reinnervation as a basis for schizophrenia: a hypothesis. Arch Gen Psychiatry.

(1992;49:238-243.)

(5.) Neale JH, Olszewski RT, Gehl LM, et al. The neurotransmitter N-acetylaspartyl-glutamate in models of pain, ALS, diabetic neuropathy, CNS injury and schizophrenia. Trends Pharmacol Sci.2005;26:477-484.

(6.) Howland RH. Schizophrenia and amyotrophic lateral sclerosis. Compr Psychiatry. 1990;31(4): 327-336.

(7.) Stommel EW, Graber D, Montanye J, et al. Does treating schizophrenia reduce the chances of developing amyotrophic lateral sclerosis? Med Hypoth. 2007;69:1021-1028.

(9.) Homayoun H, Moghaddam B. Orbitofrontal cortex neurons as a common target for classic and lutamatergic antipsychotic drugs. PNAS. 2008; 1()5(46):18041-18046.

Robert H. Howland, MD Associate Professor of Psychiatry University of Pittsburgh School of Medicine Western Psychiatric Institute and Clinic Pittsburgh, PA

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Title Annotation:Comments & Controversies
Author:Howland, Robert H.
Publication:Current Psychiatry
Article Type:Report
Geographic Code:1USA
Date:Jul 1, 2011
Words:447
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