Characterizing the regulation of pyruvate kinase in response to hibernation in ground squirrel liver (Urocitellus richardsonii)

Abstract

The Richardson's ground squirrel (Urocitellus richardsonii) undergoes numerous changes to its core physiological and metabolic processes over the months it spends hibernating during the winter. Winter torpor is characterized by an overall reduction in metabolic rate, a lowering of core body temperature, and a switch to preferential consumption of lipids instead of carbohydrates. The alterations in central metabolic pathways are often accomplished by the regulation of key enzymes within the glycolytic pathway. The regulation of one such enzyme, pyruvate kinase (PK), was characterized in the present study in the liver of torpid ground squirrels. PK was purified from liver tissue of euthermic and hibernating U. richardsonii and subsequently assayed to determine the kinetic parameters of the enzyme at 22° and 5 °C. Additional studies assessed the relative degree of post-translational modifications in PK from control and hibernating ground squirrels. The results from this study demonstrated significantly lowered maximal activity in the hibernating form of the enzyme and decreased sensitivity to the activator FBP when compared to the control. Immunoblotting demonstrated increased relative serine and threonine phosphorylation (~3 fold) in the hibernating PK. Taken together these results suggest that phosphorylation of liver PK is an important step in inhibiting glycolytic activity in the liver of the Richardson's ground squirrel during torpor.

Keywords: Enzyme regulation; Glycolysis; Low-temperature biology; Metabolic rate depression; Post-translational modification.