Impaired Kynurenine Pathway Metabolism in The Prefrontal Cortex of Individuals With Schizophrenia
Korrapati V. Sathyasaikumar,Erin K. Stachowski,Ikwunga Wonodi,Rosalinda C. Roberts,Rosalinda C. Roberts,Arash Rassoulpour,Robert P. McMahon,Robert Schwarcz +7 more
TLDR
The present results further support the hypothesis that the normalization of cortical KP metabolism may constitute an effective new treatment strategy in SZ.Abstract:
The levels of kynurenic acid (KYNA), an astrocyte-derived metabolite of the branched kynurenine pathway (KP) of tryptophan degradation and antagonist of α7 nicotinic acetylcholine and N-methyl-D-aspartate receptors, are elevated in the prefrontal cortex (PFC) of individuals with schizophrenia (SZ). Because endogenous KYNA modulates extracellular glutamate and acetylcholine levels in the PFC, these increases may be pathophysiologically significant. Using brain tissue from SZ patients and matched controls, we now measured the activity of several KP enzymes (kynurenine 3-monooxygenase [KMO], kynureninase, 3-hydroxyanthranilic acid dioxygenase [3-HAO], quinolinic acid phosphoribosyltransferase [QPRT], and kynurenine aminotransferase II [KAT II]) in the PFC, ie, Brodmann areas (BA) 9 and 10. Compared with controls, the activities of KMO (in BA 9 and 10) and 3-HAO (in BA 9) were significantly reduced in SZ, though there were no significant differences between patients and controls in kynureninase, QPRT, and KAT II. In the same samples, we also confirmed the increase in the tissue levels of KYNA in SZ. As examined in rats treated chronically with the antipsychotic drug risperidone, the observed biochemical changes were not secondary to medication. A persistent reduction in KMO activity may have a particular bearing on pathology because it may signify a shift of KP metabolism toward enhanced KYNA synthesis. The present results further support the hypothesis that the normalization of cortical KP metabolism may constitute an effective new treatment strategy in SZ.read more
Citations
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Kynurenines in the mammalian brain: when physiology meets pathology
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TL;DR: An overview of the physiological and pathophysiological roles of tryptophan metabolism is provided, focusing on the clinical potential and challenges associated with targeting this pathway.
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TL;DR: Support for the relevance of a low-level neuroinflammatory process in schizophrenia is provided by the loss of central nervous system volume and microglial activation demonstrated in neuroimaging studies, and the benefit of anti-inflammatory medications found in some studies and the intrinsic anti- inflammatory and immunomodulatory effects of antipsychotics provide further support for the role of inflammation in this debilitating disease.
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TL;DR: Anti-inflammatory effects of antipsychotics, therapeutic effects of anti-inflammtory compounds, genetic, biochemical, and immunological findings point to a major role of inflammation in schizophrenia.
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Inflammation and Schizophrenia
TL;DR: The purposes of this special feature are to clarify the key findings on inflammation in schizophrenia, identify major gaps in the literature, and suggest priorities for research in this area.
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TL;DR: Comparison of structural analogues indicated that the 4-hydroxyl and carboxyl groups of kynurenic acid are essential for effective light emission, and that an additional 8-Hydroxyl residue leading to an intramolecular hydrogen bond diminishes the reaction rate.
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Journal ArticleDOI
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Russell Foster,Apsara Kandanearatchi,Claire Beasley,Brenda P. Williams,Nadeem A. Khan,Magne K. Fagerhol,Ian P. Everall +6 more
TL;DR: It is suggested that increased levels of calprotecitn in the brain may reflect inflammatory processes, which play a role in the pathogenesis of major psychiatric disorders, and calprotectin may influence dendritic plasticity.