Tyrosine content, influx and accumulation rate, and catecholamine biosynthesis measured in vivo, in the central nervous system and in peripheral organs of the young rat. Influence of neonatal hypo- and hyperthyroidism.

A Diarra, J M Lefauconnier, M Valens, P Georges, D Gripois
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引用次数: 15

Abstract

The influence of neonatal hypo- and hyperthyroidism on different aspects of tyrosine metabolism in the hypothalamus, striatum, brainstem, adrenal glands, heart and brown adipose tissue (BAT) were studied in 14-day old rats. The synthesis rate of catecholamines (CA) was also determined in vivo after the injection of labelled tyrosine. Hypothyroidism increases tyrosinaemia and endogenous tyrosine concentration in the hypothalamus and BAT. Hyperthyroidism decreases tyrosinaemia and endogenous tyrosine levels in the striatum, adrenals and heart. The accumulation rate of tyrosine determined 30 min after an intravenous injection of the labelled amino acid has been determined in the organs, together with the influx of the amino acid, determined within 20s. Hypothyroidism increases tyrosine accumulation rate in all the organs studied, and tyrosine clearance is decreased in the striatum and brainstem; together with an increased tyrosinaemia, this leads to a normal influx. The influx of tyrosine is increased in the hypothalamus. Hyperthyroidism decreases tyrosine accumulation rate in all the organs except the adrenals. These results indicate that the thyroid status of the young rat can influence tyrosine uptake mechanisms, without modifying an organ's tyrosine content. The fact that hypothyroidism increases tyrosine influx in the hypothalamus without modifying it in the brainstem and striatum reflects an heterogeneous reactivity to the lack of thyroid hormones in different brain structures. Neonatal hypothyroidism decreases the CA synthesis rate in the striatum, the heart and the interscapular brown adipose tissue, while synthesis was enhanced in the brainstem and the adrenals. It is likely that these variations in CA synthesis are due to thyroid hormone modulation of tyrosine hydroxylase activity, the enzyme which catalyses the rate limiting step in CA biosynthesis.

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幼鼠体内、中枢神经系统和外周器官中酪氨酸含量、内流和积累速率及儿茶酚胺生物合成测定。新生儿甲状腺功能减退和亢进的影响。
研究了新生儿甲状腺功能减退和甲状腺功能亢进对14日龄大鼠下丘脑、纹状体、脑干、肾上腺、心脏和棕色脂肪组织(BAT)中酪氨酸代谢的影响。在体内注射标记酪氨酸后测定了儿茶酚胺(CA)的合成速率。甲状腺功能减退增加酪氨酸血症和内源性酪氨酸浓度在下丘脑和BAT。甲亢会降低纹状体、肾上腺和心脏的酪氨酸血症和内源性酪氨酸水平。经静脉注射标记氨基酸30分钟后测定的酪氨酸在器官内的积累率,以及20分钟内测定的氨基酸的内流。甲状腺功能减退增加了所研究的所有器官的酪氨酸积累率,纹状体和脑干的酪氨酸清除率降低;加上酪氨酸血症的增加,这导致了正常的血流量。酪氨酸的流入在下丘脑增加。甲亢会降低除肾上腺外所有器官的酪氨酸积累率。这些结果表明,幼鼠的甲状腺状态可以影响酪氨酸摄取机制,而不改变器官的酪氨酸含量。甲状腺功能减退症增加了下丘脑的酪氨酸内流,而不改变脑干和纹状体的酪氨酸内流,这一事实反映了不同脑结构对甲状腺激素缺乏的异质反应。新生儿甲状腺功能减退使纹状体、心脏和肩胛间棕色脂肪组织CA合成率降低,脑干和肾上腺CA合成率增高。钙合成中的这些变化很可能是由于甲状腺激素对酪氨酸羟化酶活性的调节,酪氨酸羟化酶是钙生物合成中催化限速步骤的酶。
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