Effects of Anion Substitution on Hydration Behavior and Water Uptake of the Red-spotted Toad,Bufo punctatus:is there an Anion Paradox in Amphibian Skin?

摘要

Amphibians absorb water osmotically across their skins and rely on chemosensory information from the skin to assess the suitability of hydration sources.The time spent with skin in contact with a moist surface provides a quantitative measure of their ability to perceive the ionic and osmotic propeties of aqueous solutions.Dehydrated toads given hyperosmotic (250 mM) solutions of NaCl or Na-gluconate showed significantly longer periods of hydration behavior on the gluconate solution,but they lost water osmotically when immersed in either solution.Similarly,dehydrated toads given 250 mM solutions of NaCl,Na-acetate,Na-phosphate or Na-gluconate showed a progressively greater length of hydration time on solutions with the larger mol.wt anions.These results are consistent with the chemosensory phenomenon previously described in mammalian tongue as 'anion paradox'.On dilute (50 mM) solutions of NaCl or Na-gluconate,the hydration time was not different between anions,despite toads gaining water more rapidly when immersed in diute NaCl than in Na-gluconate solutions.The differing behavioral results with hyperosmotic and hypoosmotic salt solutions suggest that chemosensory transduction through toad skin involves both transcellular and paracellular pathways.