[甲状腺激素对六氯苯中毒大鼠肝细胞质苹果酸酶基因表达调节的影响]。

A I Loaiza Perez, H A Sancovich, D L Kleiman De Pisarev, A S Randi, M Seisdedos, A M Ferramola De Sancovich, P Santisteban
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引用次数: 0

摘要

六氯苯(HCB)是一种广泛存在的环境污染物。实验动物长期暴露于HCB会引发卟啉症、肝微粒体酶的诱导、低水平的T4生殖功能障碍、肝脏和甲状腺肿瘤。我们实验室之前的研究结果表明,HCB增加了肝脏甲状腺反应酶的活性:苹果酸酶(ME),葡萄糖-6-磷酸脱氢酶(G6PD),而线粒体α -甘油磷酸脱氢酶(α - gpd)没有任何变化。在这项研究中,我们已经证明HCB治疗增加了ME mRNA。我们还研究了HCB是否影响:a)甲状腺激素受体(TR)浓度及其配体的结合亲和力,b)特别是ME基因表达,或其他甲状腺激素反应酶也受到影响,c)甲状腺反应元件(TRE)上形成的蛋白质/DNA复合物。对雌性Wistar大鼠肝脏(100 mg/100 g b.w)灌毒9天和15天进行分析。Northern blot杂交分析显示,memrna水平在中毒9天和15天后分别增加了4倍和2倍,而其他甲状腺激素应答酶如甘油醛3-磷酸脱氢酶、磷酸烯醇丙酮酸羧激酶和α - gpd的mRNA水平没有变化。这些结果表明,HCB特异性地影响ME基因的表达。肝T3和T4水平不受HCB的影响。Scatchard分析表明,在HCB处理9天和15天后(对照,Ka: 1.9 nM, Bmax 3.9 f/mol 100微克DNA; HCD处理9天,Ka: 2.1 nM, Bmax 4.5 fmol/100微克DNA: HCB 15天,Ka 1.9 nM), TR亲和力和位点数量没有改变。Bmax为5.1 fmol/100微克DNA中毒,9天和15天均无。电泳迁移率转移试验表明,HCB对核蛋白提取物对TREs序列的亲和力没有改变。我们的结果表明,TR本身并不直接参与HCB诱导ME基因表达。然而,TR可能与其他转录因子相互作用,导致ME基因过表达。
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[Effect of thyroid hormones on the modulation of genetic expression of liver cytosolic malic enzyme, in rats poisoned with hexachlorobenzene].

Hexachlorobenzene (HCB) is a widespread environmental pollutant. Chronic exposure of laboratory animals to HCB triggers porphyria, induction of liver microsomal enzymes, low levels of T4 reproductive dysfunction's, liver and thyroid tumors. Previous findings from our laboratory have shown that HCB increased the activity of the liver thyroid-responsive enzymes: malic enzyme (ME), glucose-6-phosphate dehydrogenase (G6PD) without any change in the mytochondrial alpha-glycerophosphate dehydrogenase (alpha-GPD). In this study we have demonstrated that HCB treatment increased ME mRNA. We also have investigated if HCB affected: a) the thyroid hormone receptor (TR) concentration and binding affinity for its ligands, b) specifically the ME gene expression, or other thyroid hormone responsive enzymes were affected as well, c) Protein/DNA complex formed on the thyroid responsive element (TRE). Livers from female Wistar rats intoxicated with HCB (100 mg/100 g b.w.), for 9 and 15 days, were analyzed. Northern blot hybridization analysis, have demonstrated that ME mRNA levels increased 4 times and 2 times after 9 and 15 days intoxication respectively, without any alterations in the mRNA levels of other thyroid hormone responsive enzymes such as glyceraldheyde 3- phosphate dehydrogenase, phosphoenolpyruvatecarboxikinase and alpha-GPD. These results suggest that HCB affects specifically, ME gene expression. Hepatic T3 and T4 levels evaluated by RIA were not affected by HCB. Scatchard analyses showed that TR affinity and number of sites were not altered after 9 and 15 days of HCB treatment (control, Ka: 1.9 nM, Bmax 3.9 f/mol 100 micrograms DNA: HCD 9 days Ka: 2.1 nM, Bmax 4.5 fmol/100 micrograms DNA: HCB 15 days Ka 1.9 nM. Bmax 5.1 fmol/100 micrograms DNA intoxication, neither at 9 nor at 15 days. Electrophoresis mobility shift assay showed that HCB did not modify nuclear protein extract affinity for the TREs sequence. Our results suggest that TR itself was not directly involved in the induction of ME gene expression by HCB. Nevertheless TR could interact with other transcription factors in the overexpression of ME gene.

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