Turski W A, Gramsbergen J B, Traitler H, Schwarcz R
Maryland Psychiatric Research Center, University of maryland School of Medicine, Baltimore 21228.
J Neurochem. 1989 May;52(5):1629-36. doi: 10.1111/j.1471-4159.1989.tb09218.x.
The incorporation of L-kynurenine (L-KYN) into kynurenic acid (KYNA) was examined in rat brain slices. KYNA was measured in the slices and in the incubation medium after purification by ion-exchange and HPLC chromatography. In pilot experiments, the formation of KYNA was confirmed by gas chromatography. KYNA was produced stereoselectively from L-KYN, and approximately 90% of the newly synthesized KYNA was recovered from the incubation medium. Intracellular KYNA was not actively retained by the tissue and was lost from the cells upon repeated washes. Thus, regulation of the levels of extracellular KYNA appears to occur at the level of L-KYN uptake and/or kynurenine transaminase, the biosynthetic enzyme of KYNA. KYNA production from L-KYN was linear up to 4 h and reached a plateau at a L-KYN concentration of 250 microM. The process was effectively inhibited by the transaminase inhibitor aminooxyacetic acid (IC50, approximately 25 microM), and showed pronounced regional distribution (hippocampus greater than cortical areas greater than thalamus much greater than cerebellum). The conversion of L-KYN to KYNA was dependent on oxygenation and on the presence of glucose in the incubation medium. Neither deletion of Ca2+ or Mg2+ nor addition of 20 mM Mg2+ had any effect. However, KYNA production was significantly attenuated in the absence of Cl- or in the presence of 50 mM K+ in the incubation medium. In Na+-free medium, the production of KYNA from L-KYN was increased by 30%.(ABSTRACT TRUNCATED AT 250 WORDS)
在大鼠脑片中检测了L-犬尿氨酸(L-KYN)向犬尿喹啉酸(KYNA)的转化。通过离子交换和高效液相色谱法纯化后,测定了切片和孵育培养基中的KYNA。在预实验中,通过气相色谱法证实了KYNA的形成。KYNA是由L-KYN立体选择性产生的,新合成的KYNA约90%从孵育培养基中回收。细胞内的KYNA不会被组织主动保留,经反复冲洗后会从细胞中丢失。因此,细胞外KYNA水平的调节似乎发生在L-KYN摄取和/或犬尿氨酸转氨酶(KYNA的生物合成酶)水平。L-KYN生成KYNA的过程在4小时内呈线性,在L-KYN浓度为250微摩尔时达到平台期。该过程被转氨酶抑制剂氨氧基乙酸有效抑制(半数抑制浓度约为25微摩尔),并表现出明显的区域分布(海马体大于皮质区域大于丘脑远大于小脑)。L-KYN向KYNA的转化依赖于氧合作用以及孵育培养基中葡萄糖的存在。去除Ca2+或Mg2+以及添加20毫摩尔Mg2+均无任何影响。然而,在孵育培养基中缺乏Cl-或存在50毫摩尔K+时,KYNA的生成显著减弱。在无Na+培养基中,L-KYN生成KYNA的量增加了30%。(摘要截断于250字)
