Metabolic effects of dehydration on an aquatic frog, Rana pipiens

TA Churchill and KB Storey
Institute of Biochemistry, Carleton University, Ottawa, Ontario, Canada.

Cellular responses to dehydration were analyzed in six organs of leopard frogs Rana pipiens. Frogs at 5 degrees C endured the loss of up to 50% of their total body water content but water contents of individual organs were strongly defended. Skeletal muscle water content was strongly affected by dehydration, dropping from 80.7% of wet mass in controls to 67.2% in frogs that had lost 50% of their total body water. However, water contents of internal organs dropped by only 3-8% of their wet masses. Water contents of all organs except skeletal muscle were fully restored by 24h of rehydration in water at 5 degrees C. Dehydration had no consistent effect on the protein content of five organs but in a sixth, the kidney, protein levels were elevated (by 60-72%) at the higher levels of dehydration and during rehydration. Dehydration led to a rapid increase in glucose concentration in the liver; compared with control values of 13 +/- 2 nmol mg-1 protein, levels were doubled by 12.2% dehydration and continued to increase to a maximum of 307 +/- 44 nmol mg-1 protein (20 mumol g-1 wet mass) in 50% dehydrated frogs. Glucose accumulation was supported by a decrease in liver glycogen content and a parallel rise in glucose 6-phosphate levels, but not in the levels of other glycolytic intermediates, confirming that glycogenolytic flux was being directed into glucose synthesis. Blood glucose levels also increased as a function of increasing dehydration, reaching values 13.8 times higher than controls, but only the kidney and brain showed a significant accumulation of glucose over the course of dehydration.(ABSTRACT TRUNCATED AT 250 WORDS)

JOURNAL ARTICLES

Metabolic effects of dehydration on an aquatic frog, Rana pipiens