Keppler D, Huber M, Weckbecker G, Hagmann W, Denzlinger C, Guhlmann A
Biochemisches Institut, University of Freiburg im Breisgau, West Germany.
Adv Enzyme Regul. 1987;26:211-24. doi: 10.1016/0065-2571(87)90015-x.
The metabolism of the glutathionyl leukotriene LTC4 in the mercapturic acid pathway was studied in suspensions of AS-30D hepatoma cells and hepatocytes, as well as in vivo in the bile duct-cannulated rat and in primates. 1. Isolated hepatocytes actively took up cysteinyl leukotrienes and metabolized LTC4 not only to LTD4 and LTE4 but also to N-acetyl-LTE4 and to metabolites more polar than LTC4. 2. AS-30D hepatoma cells are deficient in the transport system for the uptake of cysteinyl leukotrienes. Peptide cleavage of LTC4 to LTD4 and LTE4 was catalyzed by ectoenzymes of these cells. Inactivation of gamma-glutamyltransferase by acivicin and inhibition of LTD4 dipeptidase by penicillamine largely prevented further catabolism of LTC4 and LTD4, respectively. 3. [3H]LTC4 injected i.v. into rats was rapidly eliminated from the circulating blood, taken up by the liver, and excreted into bile where 77% of the administered radioactivity was recovered within 1 hr. The biliary LTC4 metabolites included LTD4, N-acetyl-LTE4, and metabolites more polar than LTC4. 4. Inhibition of [3H]LTC4 metabolism in vivo by i.v. penicillamine shifted the pattern of biliary cysteinyl leukotrienes; an extended half-life of [3H]LTD4 was associated with a retarded formation of N-acetyl-LTE4 and of polar metabolites. 5. Endogenous cysteinyl leukotrienes elicited by trauma were measured after HPLC separation by radioimmunologic analysis in plasma and bile of rats. The biliary concentration of these leukotrienes was up to 100 times as great as in plasma. N-Acetyl-LTE4 was the predominant endogenous metabolite in rat bile. 6. In the monkey Macaca fascicularis, cysteinyl leukotrienes were predominantly eliminated from blood via the liver into bile; renal excretion amounted to about 50% of the hepatobiliary elimination. Absorption of cysteinyl leukotrienes from the intestine resulted in enterohepatic circulation of these mediators. 7. Metabolites of [3H]LTC4 injected i.v. in the monkey were analyzed in bile and urine. In addition to polar metabolites and a small percentage of [3H]LTD4, [3H]LTE4 was a predominant metabolite particularly in bile. LTE4 was also the major endogenous cysteinyl leukotriene detected by radioimmunologic analysis in monkey bile. 8. LTE4 was the predominant endogenous cysteinyl leukotriene measured in human bile in patients suffering from acute pancreatitis. The detected amounts of LTE4 may be sufficient to induce known phenomena associated with acute pancreatitis including the shock-like reaction.
在AS - 30D肝癌细胞悬液、肝细胞悬液中,以及在胆管插管大鼠和灵长类动物体内,研究了谷胱甘肽白三烯LTC4在巯基尿酸途径中的代谢。1. 分离的肝细胞能主动摄取半胱氨酰白三烯,LTC4不仅可代谢为LTD4和LTE4,还可代谢为N - 乙酰 - LTE4以及比LTC4极性更强的代谢产物。2. AS - 30D肝癌细胞缺乏摄取半胱氨酰白三烯的转运系统。这些细胞的胞外酶催化LTC4肽键裂解生成LTD4和LTE4。阿西维辛使γ - 谷氨酰转移酶失活以及青霉胺抑制LTD4二肽酶,分别在很大程度上阻止了LTC4和LTD4的进一步分解代谢。3. 静脉注射[3H]LTC4到大鼠体内后,其迅速从循环血液中清除,被肝脏摄取,并排泄到胆汁中,1小时内回收了77%的给药放射性。胆汁中的LTC4代谢产物包括LTD4、N - 乙酰 - LTE4以及比LTC4极性更强的代谢产物。4. 静脉注射青霉胺在体内抑制[3H]LTC4代谢,改变了胆汁中半胱氨酰白三烯的模式;[3H]LTD4半衰期延长与N - 乙酰 - LTE4和极性代谢产物形成延迟有关。5. 通过放射免疫分析在大鼠血浆和胆汁中进行高效液相色谱分离后,测定创伤引发的内源性半胱氨酰白三烯。这些白三烯在胆汁中的浓度比血浆中高100倍。N - 乙酰 - LTE4是大鼠胆汁中主要的内源性代谢产物。6. 在猕猴中,半胱氨酰白三烯主要通过肝脏从血液中清除进入胆汁;肾脏排泄量约为肝胆清除量的50%。半胱氨酰白三烯从肠道吸收导致这些介质的肠肝循环。7. 对静脉注射[3H]LTC4的猕猴胆汁和尿液中的代谢产物进行分析。除了极性代谢产物和少量[3H]LTD4外,[3H]LTE4是主要代谢产物,尤其是在胆汁中。LTE4也是通过放射免疫分析在猕猴胆汁中检测到的主要内源性半胱氨酰白三烯。8. LTE4是急性胰腺炎患者人胆汁中检测到的主要内源性半胱氨酰白三烯。检测到的LTE4量可能足以引发与急性胰腺炎相关的已知现象,包括休克样反应。
