Abnoos Hamideh, Fereidoni Masoud, Mahdavi-Shahri Naser, Haddad Farhang, Jalal Razieh
Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, Mashhad, Iran.
Interdiscip Toxicol. 2013 Mar;6(1):34-40. doi: 10.2478/intox-2013-0007.
Environmental pollution caused by heavy metals such as mercury is one of the most important human problems. It might have severe teratogenic effects on embryonic development. Some pharmacological and physiological aspects of fruit flies (Drosophila melanogaster) are similar to humans. So the stages of egg to adult fruit fly, as a developmental model, were employed in the study. Wild adult insects were maintained in glass dishes containing standard medium at 25 °C in complete darkness. Five pairs of 3-day old flies were then transferred to standard culture dishes containing different concentrations of mercury ion. They were removed after 8 hours. We considered the following: The rate of larvae becoming pupae and pupae to adults; the time required for the development; the hatching rate in the second generation without mercury in the culture; the morphometric changes during development in both length and width of the eggs through two generations; larvae, pupae and adult thorax length and width. The results showed that mercury in culture (20-100 mg/l) increase the duration of larvae (p<0.01) and pupae (p<0.01) development, the rate of larvae becoming pupae (p<0.001); pupae maturation (p<0.05), the hatching rate (p<0.01), the length (p<0.05) and width of larvae (p<0.01) and pupae (p<0.001) and the length in the adult thorax (p<0.01) decreased significantly. There was no effect upon the size of eggs. There were also no larvae hatching in concentrations of 200 mg/l of mercury. Negative effects of mercury as a heavy metal are possibly due to the interference of this metal in cellular signaling pathways, such as: Notch signaling and protein synthesis during the period of development. Since it bonds chemically with the sulfur hydride groups of proteins, it causes damage to the cell membrane and decreases the amount of RNA. This is the cause of failure of many enzyme mechanisms.
汞等重金属造成的环境污染是最重要的人类问题之一。它可能对胚胎发育产生严重的致畸作用。果蝇(黑腹果蝇)的一些药理和生理方面与人类相似。因此,本研究采用从卵到成虫阶段的果蝇作为发育模型。野生成虫饲养在玻璃培养皿中,于25℃、完全黑暗条件下,培养基为标准培养基。然后将五对3日龄果蝇转移到含有不同浓度汞离子的标准培养皿中。8小时后取出。我们观察了以下指标:幼虫变成蛹以及蛹变成成虫的比率;发育所需时间;培养物中无汞时第二代的孵化率;两代卵在发育过程中长度和宽度的形态测量变化;幼虫、蛹和成虫胸部的长度和宽度。结果表明,培养物中的汞(20 - 100毫克/升)会延长幼虫(p<0.01)和蛹(p<0.01)的发育时间,降低幼虫变成蛹的比率(p<0.001)、蛹的成熟率(p<0.05)、孵化率(p<0.01),幼虫(p<0.05)、蛹(p<0.001)的长度和宽度以及成虫胸部长度(p<0.01)均显著减小。对卵的大小没有影响。汞浓度为200毫克/升时也没有幼虫孵化。汞作为一种重金属的负面影响可能是由于这种金属干扰了细胞信号通路,例如:发育期间的Notch信号通路和蛋白质合成。由于它与蛋白质的硫氢基团发生化学反应,会导致细胞膜受损并减少RNA的量。这就是许多酶机制失效的原因。
