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色氨酸的光敏氧化:对肝脏和大脑色氨酸的影响。

Photosensitized oxidation of tryptophan: effect on liver and brain tryptophan.

作者信息

Bhatia J, Rassin D K, McAdoo D J

机构信息

Department of Pediatrics, University of Texas Medical Branch, Galveston.

出版信息

JPEN J Parenter Enteral Nutr. 1991 Nov-Dec;15(6):637-41. doi: 10.1177/0148607191015006637.

Abstract

Toxic products are formed when tryptophan is irradiated with light in the presence of photosensitizers such as riboflavin. In order to further investigate this phenomenon, solutions of tryptophan (48 mumol.mL-1) were irradiated with broad spectrum fluorescent light in the presence or absence of riboflavin (0.01 mg.mL-1). Solutions of riboflavin were similarly irradiated; control solutions were the respective solutions not exposed to light. Two-week-old suckling gerbils were then assigned to receiving 7 days of intraperitoneal injections of the light-exposed or non-light-exposed solutions. There were significant differences in the concentrations of tryptophan in serum, liver, and brain; activity of gamma-glutamyl transferase (GGT) as well as liver protein were also significantly different among the groups. Body and liver weights were also significantly different among the groups. In order to identify the photoproducts responsible for these changes, solutions of tryptophan that had been irradiated with light in the presence of riboflavin were then fractionated based on time of elution during high-pressure liquid chromatography and the fractions were then injected into the gerbils as before. GGT responses to one of the fractions was similar to that of the parent compound. Chromatographic studies indicated the presence of numerous photoadduct compounds of tryptophan and riboflavin after exposure to light. Both the presence of riboflavin and the exposure of the solutions to light alter brain concentrations of tryptophan in the developing gerbil indicating differing availability to the brain of this serotonin precursor. Clinical implications of the infusion of amino acids in the presence of photosensitizers and light must be considered.

摘要

当色氨酸在核黄素等光敏剂存在的情况下受到光照时,会形成有毒产物。为了进一步研究这一现象,在有或没有核黄素(0.01mg/mL)存在的情况下,用广谱荧光灯照射色氨酸溶液(48μmol/mL)。核黄素溶液也进行类似的照射;对照溶液是未暴露于光的相应溶液。然后将两周大的乳鼠分配接受7天腹腔注射经光照或未经光照的溶液。血清、肝脏和大脑中色氨酸的浓度存在显著差异;γ-谷氨酰转移酶(GGT)的活性以及肝脏蛋白质在各组之间也存在显著差异。各组之间的体重和肝脏重量也存在显著差异。为了确定导致这些变化的光产物,将在核黄素存在下经光照的色氨酸溶液在高压液相色谱中根据洗脱时间进行分离,然后将各馏分像之前一样注射到沙鼠体内。对其中一个馏分的GGT反应与母体化合物相似。色谱研究表明,光照后色氨酸和核黄素存在大量光加合物。核黄素的存在以及溶液暴露于光都会改变发育中的沙鼠大脑中色氨酸的浓度,这表明这种血清素前体对大脑的可用性不同。必须考虑在光敏剂和光存在的情况下输注氨基酸的临床意义。

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