The effect of griseofulvin on the heme pathway--II. An exhaustive analysis during short and long-term challenge.

N M Navone, A M Buzaleh, C F Polo, S G Afonso, E S Vázquez, A M Batlle
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引用次数: 5

Abstract

1. A clear biphasic response of the enzyme activities as a function of intoxication time due to the topical cutaneous griseofulvin treatment was observed. 2. The initial acute induction of ALA-S activity would be due to depletion of free heme in the regulatory pool caused by cytochrome P 450 destruction. 3. The second induction peak, would be due to less heme formation, secondary to the ferrochelatase inhibition, as expected for the erythropoietic protoporphyria model. 4. The biphasic response of hepatic ALA-D and PBGase activities would be related to ALA-S activity changes and the subsequent augmented available substrates. 5. Endogenous liver porphyrin distribution in cytosolic, mitochondrial and nuclear fractions was investigated. 6. The in vitro biosynthesis of porphyrins confirmed both the biphasic model and the hepatic porphyrins subcellular distribution. 7. Two mechanisms to explain the action of griseofulvin at shorter and longer times of intoxication are proposed.

灰黄霉素对血红素通路的影响——ⅱ。短期和长期挑战的详尽分析。
1. 由于局部皮肤灰黄霉素治疗,酶活性作为中毒时间的函数明显的双相反应被观察到。2. ALA-S活性的最初急性诱导可能是由于细胞色素p450破坏引起的调节池中游离血红素的耗尽。3.第二个诱导峰是由于铁螯合酶抑制导致的血红素形成减少,正如预期的红细胞生成原生卟啉模型。4. 肝脏ALA-D和PBGase活性的双相反应可能与ALA-S活性的变化和随后可用底物的增加有关。5. 内源性肝卟啉在细胞质、线粒体和细胞核中的分布进行了研究。6. 卟啉的体外生物合成证实了双相模型和肝卟啉的亚细胞分布。7. 提出了两种机制来解释灰黄霉素在较短和较长时间中毒时的作用。
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