L-Kynurenine (KYN), an intermediary product in the kynurenine pathway of tryptophan metabolism, is the common precursor from which are formed both quinolinic acid, a potent endogenous "excitotoxin," and kynurenic acid, a nonselective antagonist of excitotoxins. The present work examines 3H-KYN transport in primary astrocyte cultures derived from the cerebra of newborn mice. Influx and efflux of 3H-KYN were attributable almost entirely to carrier-mediated transport. The tritium recovered in uptake experiments was identifiable as 3H-KYN, indicating a low rate of KYN metabolism during incubations up to 30 min. KYN uptake decreased in the presence of extracellular Na+, at least in part because KYN efflux was accelerated. Marked trans stimulation of KYN efflux by extracellular KYN provided evidence of the exchanging nature of the carrier. Saturation curves for the initial velocity of KYN uptake conformed to a 1-component saturable system with Km of 32 microM and Vmax of 2.1 nmol mg-1 protein min-1. KYN was notably concentrated by the astrocytes, with an estimated steady-state distribution ratio of 180-fold for 1 microM KYN. Analog inhibition studies showed that the KYN transporter exhibited a clear preference for large neutral amino acids; leucine, tryptophan, and phenylalanine were recognized with relatively higher affinity than KYN. In summary, KYN is concentratively transported into astrocytes by a Na+-independent exchanger with high affinity for branched-chain and aromatic neutral amino acids. The substrate specificity and high affinity of this transport system resemble the properties of neutral amino acid transport across the blood-brain barrier in the rat and human.
We have investigated the comparative effects of estradiol benzoate (EB), the antiestrogen clomiphene citrate (CC), and the progestin medroxyprogesterone acetate (MPA) on seizures induced by systemic injection of kainic acid (15 mg/kg i.p.) in male and female rats. Subcutaneous administration for 10 days of EB (10 micrograms/kg) or high doses of CC (50 mg/kg) significantly potentiated kainate-induced seizures, with this effect being more pronounced in male animals. Doses of 2.5 mg/kg of CC potentiated kainate-induced seizures in male rats but were ineffective in female rats. Low doses of CC (0.5 mg/kg) exhibited a mild anticonvulsant effect in both sexes. Repeated administration of MPA (2.5 mg/kg) partially protected female animals against kainate-induced seizures; in male animals, MPA induced a 30% increase in the seizure severity score, although the difference from the score of control male rats was not significant. These data suggest that sex steroids influence kainate-induced seizures in a sex-dependent manner and that the effects of the antiestrogen CC are dose dependent. This should be taken into account in view of a possible use of CC and MPA in hormonal therapy for seizure disorders.
The transport of [3H]kynurenine ([3H]KYN) into slices from rat tissue was examined in vitro. Brain accumulated KYN seven to eight times more effectively than any of several peripheral organs. Of all the organs tested, only the brain exhibited a sodium-dependent component of the uptake process. After an incubation period of 1 h, sodium-dependent transport amounted to 60% of total uptake. Both processes were abolished by prior sonication of the tissue and significantly inhibited by inclusion of metabolic blockers in the incubation medium. Time resolution showed that the sodium-independent uptake occurred rapidly and reached saturation within 30 min. In contrast, sodium-dependent transport was linear for at least 2 h of incubation. Brain regional analysis revealed a sevenfold difference between the areas of highest (cortex) and lowest (cerebellum) uptake. With the exception of cerebellar tissue, the ratio between sodium-dependent and sodium-independent processes was consistent among brain regions. Kinetic analyses were performed on striatal slices and revealed a Km of 927 microM and a Vmax of 18 nmol/h/mg of protein for the sodium-dependent process, and a Km of 3.8 mM and a Vmax of 38 nmol/10 min/mg of protein for the sodium-independent transport. The transporters were equally amenable to inhibition by KYN and tryptophan, indicating that KYN entry into the cell may be mediated by neutral amino acid uptake sites. No strict stereoselectivity existed, but L enantiomers were clearly more active than the D forms.(ABSTRACT TRUNCATED AT 250 WORDS)
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