Morrison J F B, Dhanasekaran S, Sheen R
Departments of Physiology and Pharmacology, Faculty of Medicine and Health Sciences, United Arab Emirates University, Al Ain, United Arab Emirates.
Mol Cell Biochem. 2004 Jun;261(1-2):77-82. doi: 10.1023/b:mcbi.0000028740.25738.4a.
The changes in amine concentrations in different segments of the rat tail artery have been investigated at different ages and after different durations of streptozotocin-induced diabetes. There was a significant positive slope to the relationship between amine concentrations and age in proximal portion of the normal tail artery, and a significant additional increase in amine concentrations following induction of diabetes. The peak of the latter response occurred between 10 and 20 weeks following the induction of diabetes. There was also a significant dependence on the length of the post-ganglionic neurones, which may be related to the failure of axonal transport of some of the essential enzymes or transporters for these biogenic amines. This model of altered catecholamine metabolism and handling requires further investigation so that alterations in the mechanisms involved in processing of these amines in diabetic autonomic neuropathy may be elucidated.
研究了不同年龄以及链脲佐菌素诱导糖尿病不同病程后大鼠尾动脉不同节段胺浓度的变化。正常尾动脉近端胺浓度与年龄之间存在显著的正斜率关系,糖尿病诱导后胺浓度显著进一步升高。后一种反应的峰值出现在糖尿病诱导后10至20周之间。胺浓度还显著依赖于节后神经元的长度,这可能与这些生物胺的一些必需酶或转运体的轴突运输失败有关。这种儿茶酚胺代谢和处理改变的模型需要进一步研究,以便阐明糖尿病自主神经病变中这些胺处理机制的改变。