Early metabolic responses of retinal neurons to trimethyltin intoxication.

A D Toews, J Lagarde, N D Goines, T W Bouldin
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引用次数: 6

Abstract

Chronic systemic exposure of rats to the neuronotoxic compound trimethyltin (TMT) results in increased incorporation of radioactive precursors into retinal proteins and glycoproteins. Because this increased metabolic activity is accompanied by minimal subcellular pathological alterations and almost no neuronal necrosis, we suggested that it may represent an early, reactive (compensatory) response (Brain Res. 398, 298-304; 1986). We have now investigated the development of this metabolic response to TMT in more detail. Beginning at 30 d of age, rats received weekly doses of TMT (4 mg/kg body wt) by gavage for up to 7 wk; rates of incorporation of [35S]methionine and [3H]fucose into retinal proteins and glycoproteins, respectively, were then determined using in vitro retinal incubations. The apparent rates of protein synthesis and glycoprotein glycosylation in retinas from TMT-treated animals were normal or slightly decreased after 1-3 wkly doses, but were increased after 4 doses and more markedly increased after 7 doses. Glycoprotein glycosylation was increased to a greater degree (192% of control after 7 wk of dosing) than was protein synthesis (134% of control). The increased incorporation in retinas from TMT-treated animals persisted when retinas were incubated with "flooding" concentrations of precursor (1 mM), suggesting that these increases were not owing to alterations in the size of retinal precursor pools. The preferential increase in glycoprotein glycosylation was partially owing to a selective increase in glycosylation of two molecular species with apparent mol wt of 32 and 45 KDa. Quantitative autoradiographic analysis of newly synthesized proteins and glycoproteins indicated that the TMT-induced increase in metabolic activity was not specific or selective for any retinal layer or cell type. We suggest that the preferential activation of glycoprotein glycosylation, and in particular the increased glycosylation of the 32 and 45 KDa glycoprotein species, may represent part of a compensatory metabolic response of retinal neurons to TMT-induced neuronal injury.

视网膜神经元对三甲基锡中毒的早期代谢反应。
大鼠慢性全身暴露于神经毒性化合物三甲基锡(TMT)会导致视网膜蛋白和糖蛋白中放射性前体的掺入增加。由于这种增加的代谢活性伴随着最小的亚细胞病理改变和几乎没有神经元坏死,我们认为它可能代表一种早期的反应性(代偿)反应(Brain Res. 398, 298-304;1986)。我们现在更详细地研究了这种对TMT的代谢反应的发展。从30日龄开始,大鼠接受每周剂量的TMT (4 mg/kg体wt)灌胃,持续7周;[35S]蛋氨酸和[3H]聚焦物分别并入视网膜蛋白和糖蛋白的率,然后通过体外视网膜孵育来测定。tmt处理动物视网膜蛋白合成和糖蛋白糖基化的表观速率在1-3周剂量后正常或略有下降,但在4周剂量后增加,在7周剂量后明显增加。糖蛋白糖基化增加的程度(给药7周后为对照组的192%)大于蛋白质合成(对照组的134%)。当将tmt处理过的动物的视网膜与“泛滥”的前体浓度(1mm)孵育时,视网膜中掺入物的增加仍然存在,这表明这些增加不是由于视网膜前体池大小的改变。糖蛋白糖基化的优先增加部分是由于表观摩尔重量为32和45 KDa的两种分子的糖基化选择性增加。新合成蛋白和糖蛋白的定量放射自显像分析表明,tmt诱导的代谢活性增加对任何视网膜层或细胞类型都没有特异性或选择性。我们认为糖蛋白糖基化的优先激活,特别是32和45 KDa糖蛋白的糖基化增加,可能代表了视网膜神经元对tmt诱导的神经元损伤的代偿代谢反应的一部分。
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