Abstract
Elevated peripheral proline is associated with psychiatric disorders, and there is evidence that proline is a neuromodulator. The proline dehydrogenase (PRODH) gene, which encodes the enzyme that catalyzes proline catabolism, maps to human chromosome 22q11.2, a region conferring risk of schizophrenia. In the Prodh-null mouse, an interaction between elevated peripheral proline and another 22q11.2 gene, catechol-O-methyltransferase (COMT), on neurotransmission and behavior has been reported. We explored the relationship between fasting plasma proline levels and COMT Val158Met genotype on symptoms (positive, negative and total) in schizophrenia patients. In an exploratory study we also examined symptom change in patients with bipolar disorder. There was a significant interaction between peripheral proline and COMT on negative symptoms in schizophrenia (P<0.0001, n=95). In COMT Val/Val patients, high proline was associated with low Scale for the Assessment of Negative Symptom (SANS) scores. In contrast, high proline was associated with high SANS scores in patients carrying a Met allele. The relationship between proline and COMT also appears to modify negative symptoms across psychiatric illness. In bipolar disorder, a significant interaction was also observed on negative-symptom change (P=0.007, n=43). Negative symptoms are intractable and largely unaddressed by current medications. These data indicate a significant interaction between peripheral proline and COMT genotype, influencing negative symptoms in schizophrenia and bipolar disorder. That high proline has converse effects on symptoms by COMT genotype, may have implications for therapeutic decisions.
Highlights
Schizophrenia symptoms are typically divided into positive, negative and cognitive clusters, along with mood symptoms.[1]
We achieved 100% accuracy from confirmatory regenotyping and a sample of 90 control subjects were in Hardy–Weinberg equilibrium for COMT Val158Met (P40.05, data not shown)
COMT distributions of the schizophrenia patients deviated from Hardy–Weinberg equilibrium (χ2 = 8.08, df = 1, P o 0.05), which has been previously reported for this polymorphism in schizophrenia.[34]
Summary
Schizophrenia symptoms are typically divided into positive, negative and cognitive clusters, along with mood symptoms.[1]. Peripheral hyperprolinemia, which reflects CNS proline elevation,[4,5,6,7,8,9] has been associated with psychiatric disorders including schizophrenia.[10,11,12] The proline dehydrogenase gene (PRODH) encodes proline oxidase (POX), the enzyme that catalyzes the first step in proline catabolism. The direct consequences of elevated proline for neurotransmission have been best demonstrated by work on the hyperprolinemic Prodh-null model.[7,8] In the presence of POX deficiency and elevated proline (peripheral and CNS), the mouse exhibits altered glutamate and dopamine signaling, including an enhancement of glutamatergic synaptic transmission, prefrontal dopamine transmission, and functional hyperdopaminergic responses.[8]
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