补充门冬氨酸锌可诱导大鼠组织和器官中有毒微量元素的重新分布。
Zinc asparaginate supplementation induces redistribution of toxic trace elements in rat tissues and organs.
作者信息
Skalny Andrey A, Tinkov Alexey A, Medvedeva Yulia S, Alchinova Irina B, Karganov Mikhail Yu, Ajsuvakova Olga P, Skalny Anatoly V, Nikonorov Alexandr A
机构信息
Federal State Scientific Institution "Institute of Toxicology", Federal Medico-Biological Agency, Bekhtereva str. 1, St. Petersburg 192019, Russia; Russian Society of Trace Elements in Medicine, ANO "Centre for Biotic Medicine", Zemlyanoy Val St. 46, Moscow 105064, Russia.
Russian Society of Trace Elements in Medicine, ANO "Centre for Biotic Medicine", Zemlyanoy Val St. 46, Moscow 105064, Russia; Laboratory of Biotechnology and Applied Bioelementology, Yaroslavl State University, Sovetskaya st., 14, Yaroslavl, 150000, Russia; Department of Biochemistry, Orenburg State Medical University, Sovetskaya St., 6, Orenburg, 460000, Russia.
出版信息
Interdiscip Toxicol. 2015 Sep;8(3):131-8. doi: 10.1515/intox-2015-0020.
The primary objective of the current study was the investigation of the influence of zinc asparaginate supplementation for 7 and 14 days on toxic metal and metalloid content in rat organs and tissues. Rats obtained zinc asparaginate in doses of 5 and 15 mg/kg/day for 7 and 14 days. At the end of the experiment rat tissues and organs (liver, kidney, heart, m. gastrocnemius, serum, and hair) were collected for subsequent analysis. Estimation of Zn, Al, As, Li, Ni, Sn, Sr content in the harvested organs was performed using inductively coupled plasma mass spectrometry at NexION 300D. The obtained data showed that intragastric administration of zinc significantly increased liver, kidney and serum zinc concentrations. Seven-day zinc treatment significantly affected the toxic trace element content in the animals' organs. Zinc supplementation significantly decreased particularly liver aluminium, nickel, and tin content, whereas lead tended to increase. Zinc-induced changes in kidney metal content were characterized by elevated lithium and decreased nickel concentration. Zinc-induced alteration of myocardical toxic element content was multidirectional. Muscle aluminium and lead concentration were reduced in response to zinc supplementation. At the same time, serum and hair toxic element concentrations remained relatively stable after 7-day zinc treatment. Zinc asparaginate treatment of 14 days significantly depressed liver and elevated kidney lithium content, whereas a significant zinc-associated decrease was detected in kidney strontium content. Zinc supplementation for 14 days resulted also in multidirectional changes in the content of heart toxic elements. At the same time, significant zinc-associated decrease in muscle lithium and nickel levels was observed. Fourteen-day zinc treatment resulted in significantly increased serum arsenic and tin concentrations, whereas hair trace element content remained relatively stable. Generally, the obtained data indicate a significant redistribution of toxic metals in the animal organism under zinc supplementation.
本研究的主要目的是调查连续7天和14天补充天门冬氨酸锌对大鼠器官和组织中有毒金属及类金属含量的影响。大鼠分别以5毫克/千克/天和15毫克/千克/天的剂量摄入天门冬氨酸锌,持续7天和14天。实验结束时,收集大鼠的组织和器官(肝脏、肾脏、心脏、腓肠肌、血清和毛发)用于后续分析。使用NexION 300D型电感耦合等离子体质谱仪对收获器官中的锌、铝、砷、锂、镍、锡、锶含量进行测定。所得数据表明,经胃内给予锌显著提高了肝脏、肾脏和血清中的锌浓度。7天的锌处理对动物器官中的有毒微量元素含量有显著影响。补充锌尤其显著降低了肝脏中的铝、镍和锡含量,而铅含量则有升高趋势。锌诱导的肾脏金属含量变化表现为锂含量升高和镍浓度降低。锌诱导的心肌有毒元素含量变化是多方向的。补充锌后,肌肉中的铝和铅浓度降低。同时,7天的锌处理后,血清和毛发中的有毒元素浓度保持相对稳定。14天的天门冬氨酸锌处理显著降低了肝脏中的锂含量并提高了肾脏中的锂含量,而在肾脏锶含量中检测到与锌相关的显著降低。14天补充锌还导致心脏有毒元素含量发生多方向变化。同时,观察到肌肉中锂和镍水平与锌相关的显著降低。14天的锌处理导致血清砷和锡浓度显著升高,而毛发中的微量元素含量保持相对稳定。总体而言,所得数据表明在补充锌的情况下,动物体内有毒金属发生了显著的重新分布。
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