Effects of Cd^{2+}, Zn^{2+}, Li^+ and Al^{3+} on the Fertilization-Induced Membrane Potential Changes in the Egg of the Frog Rana cameranoi

Authors: ŞEREF ERDOĞAN, GÜLAY LOĞOĞLU, KEREM TUNCAY ÖZGÜNEN, TUNCAY ÖZGÜNEN

Abstract: The apparent change in the egg membrane potential at fertilization gives rise to fertilization potential (FP). FP is the initial, transient electrical block to polyspermy as shown in most species especially those exhibiting external fertilization, and it protects the egg from a second sperm entry until the permanent, mechanical block is set up. Polyspermy risk is increased when this effective electrical block cannot reach a certain peak value or when it is of short duration. On the other hand, metal accumulation in the external environment is potentially toxic to living beings, and we aimed in the present study to evaluate the toxic effects of Cd^{2+}, Zn^{2+}, Li^+ and Al^{3+} on the potential changes triggered by fertilization in the egg of the frog, Rana cameranoi. Egg membrane potentials were recorded using the conventional microelectrode technique. Resting membrane potential before fertilization and FP parameters were determined. Ten percent Ringer solution (pH=7.80) was used as a control, and experimental groups were established by adding CdCl_2 (68 µM), ZnCl_2 (300 µM), LiCl (11.1 mM) or AlCl_3 (1.5 mM) into this solution and adjusting their pHs to 7.80. Evaluation of our results revealed that duration of potential change induced by fertilization was significantly reduced by Li^+ and Al^{3+} whereas Cd^{2+} prolonged the duration of FP (p<0.05). Peak fertilization potential (FP_p) was significantly more positive with Zn^{2+} (p<0.05), and this ion did not significantly influence other parameters. We conclude that especially Al^{3+} and Li^+, the potential embryotoxic and teratogenic metals, can apparently increase the risk of polyspermy, but Cd^{2+} and Zn^{2+} concentrations used in this study are not hazardous for the reproduction of frogs. The greater accumulation of Al^{3+} and Li^+ in parallel with industrial development may have serious deleterious effects on the reproduction of species that show external fertilization, and this fact may consequently be harmful for the ecologic equilibrium in the near future.

Keywords: Fertilization potential, frog egg, cadmium, zinc, lithium, aluminium

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