The possible functional role of neuronal gangliosides in temperature adaptation of vertebrates

Comparative studies on brain gangliosides of more than 60 vertebrate species show correlations between concentration and the level of evolutionary organization: poikilothermic lower vertebrates (fish, amphibs, reptiles) contain about 110 to 700 μg ganglioside bound NeuAc/g. fresh wt., homeothermic birds and mammals, on the other side, 500 to 1000 μg. The composition of brain gangliosides in poikilotherms is much more complex and variable (more multisialogangliosides) as compared with homeotherms (domination of less polar fractions). There are distinct correlations between brain ganglioside composition and state of thermal adaptation: Fishes being adapted to habitates with extreme temperatures (antarctic icefish — tropic fish) are characterized by quite opposite ganglioside patterns (domination of high versus less polar fractions). During seasonal acclimatization and experimental acclimation of fish to cold or during hibernation and early postnatal development of mammals poly-sialylations of brain gangliosides occur. With regard to this the individual brain structures react differently.

The results are taken for evidence that variations in the composion of synaptic membrane-bound gangliosides may induce long-term alterations in viscosity and permeability of the neuronal membrane by which the neuronal transmission might be kept on a constant level during the process of temperature adaptation.