Gianpiera Ceresoli-Borroni scite author profile

The brain and cerebrospinal fluid levels of kynurenic acid (KYNA), a metabolite of the kynurenine pathway of tryptophan degradation and antagonist of the glycine(B) receptor and the alpha7 nicotinic acetylcholine receptor, are elevated in persons with schizophrenia. To evaluate whether this increase is related to antipsychotic medication, we examined the effects of haloperidol (HAL), clozapine (CLOZ) or raclopride (RAC) on brain KYNA levels in rats. Animals received either acute drug injections or ingested the drugs chronically with the drinking water. Acute application or one-week drug exposure had no effect on brain KYNA levels. After one month, HAL, CLOZ and RAC all caused significant reductions in KYNA levels in striatum, hippocampus and frontal cortex. Quantitatively similar reductions in the brain tissue content of KYNA were observed after one year of HAL administration. All these effects were accompanied by equivalent decreases in the extracellular concentration of KYNA, measured by striatal microdialysis. Separate animals received an intrastriatal infusion of (3)H-kynurenine to probe the entire kynurenine pathway acutely in rats treated with HAL for one year. These animals showed reduced (3)H-KYNA production, but no changes in the formation of other kynurenine pathway metabolites. By enhancing glutamatergic and cholinergic neurotransmission, reduced brain KYNA levels may play a role in the clinical effects of prolonged antipsychotic medication.

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Perinatal kynurenine pathway metabolism in the normal and asphyctic rat brain

Ceresoli-Borroni

Schwarcz

2000

Amino Acids

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The kynurenine pathway of tryptophan degradation contains several metabolites which may influence brain physiology and pathophysiology. The brain content of one of these compounds, kynurenic acid (KYNA), decreases precipitously around the time of birth, possibly to avoid deleterious N-methyl-D-aspartate (NMDA) receptor blockade during the perinatal period. The present study was designed to determine the levels of KYNA, the free radical generator 3-hydroxykynurenine (3-HK), and their common precursor L-kynurenine (L-KYN) between gestational day 16 and adulthood in rat brain and liver. The cerebral activities of the biosynthetic enzymes of KYNA and 3-HK, kynurenine aminotransferases (KATs) I and II and kynurenine 3-hydroxylase, respectively, were measured at the same ages. Additional studies were performed to assess whether and to what extent kynurenines in the immature brain derive from the mother, and to examine the short-term effects of birth asphyxia on brain KYNA and 3-HK levels. The results revealed that 1) the brain and liver content of L-KYN, KYNA and 3-HK is far higher pre-term than postnatally; 2) KAT I and kynurenine 3-hydroxylase activities are quite uniform between E-16 and adulthood, whereas KAT II activity rises sharply after postnatal day 14; 3) during the perinatal period, KYNA, but not L-KYN, may originate in part from the maternal circulation; and 4) oxygen deprivation at birth affects the brain content of both KYNA and 3-HK 1 h but not 24h later.

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Acute and chronic changes in kynurenate formation following an intrastriatal quinolinate injection in rats

Ceresoli-Borroni

Guidetti

Schwarcz

1999

Journal of Neural Transmission

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Intrastriatal injection of the endogenous excitotoxin quinolinate in experimental animals causes a lesion which duplicates many features of Huntington's disease (HD). This lesion can be prevented by a related metabolite, kynurenate. Since kynurenate levels are reduced in the HD neostriatum, a deficiency in brain kynurenate may be the cause of neuron loss in HD. In order to investigate the relationship between excitotoxic neurodegeneration and kynurenate formation, effects of a unilateral quinolinate injection on several measures of kynurenate metabolism were studied in the rat striatum and substantia nigra. Within 2 hours, quinolinate caused an approximately 100% increase in striatal kynurenate levels in the absence of changes in its bioprecursor L-kynurenine or its biosynthetic enzymes kynurenine aminotransferases (KATs) I and II. This increase was more dramatic after 2 days (+735%) and was accompanied by an increase in L-kynurenine (+182%). No change or a slight decrease in enzyme activities were detected at this time-point. More chronic excitotoxic lesions produced a substantial increase in kynurenate levels (by approximately 2-, 4- and 4-fold, respectively, after 7 days, 1 and 5 months). Lesion-induced changes in KAT II activity essentially paralleled those seen with kynurenate, whereas KAT I remained slightly decreased at all timepoints. Nigral KAT II activity was increased ipsilaterally 2 days, 1 and 5 months after the striatal quinolinate injection. Kinetic analyses, performed in the striatum 5 months after the quinolinate injection, showed an almost 3-fold decrease in Km values for KAT II in the absence of v(max) changes. These findings indicate that 1) different mechanisms regulate kynurenate production at different stages after an intrastriatal quinolinate injection; 2) an increased substrate affinity to KAT II is responsible for the elevation of kynurenate in the chronically lesioned rat striatum; and 3) qualitative differences in kynurenate metabolism exist between the HD neostriatum and the excitotoxin-lesioned rat striatum, supporting the idea that (a decrease in) kynurenate tone may play a primary role in the pathophysiology of HD.

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