Temperature adaptation in Dictyostelium: role of Delta5 fatty acid desaturase

Membrane fluidity is critical for proper membrane function and is regulated in part by the proportion of unsaturated fatty acids present in membrane lipids. The proportion of these lipids in turn varies with temperature and may contribute to temperature adaptation in poikilothermic organisms. The fundamental question posed in this study was whether the unsaturation of fatty acids contributes to the ability to adapt to temperature stress inDictyostelium. First, fatty acid composition was analysed and it was observed that the relative proportions of dienoic acids changed with temperature. To investigate the role of dienoic fatty acids in temperature adaptation, null mutants were created in the two known Δ5 fatty acid desaturases (FadA and FadB) that are responsible for the production of dienoic fatty acids. ThefadBnull mutant showed no significant alteration in fatty acid composition or in phenotype. However, the disruption offadAresulted in a large drop in dienoic fatty acid content from 51·2 to 4·1 % and a possibly compensatory increase in monoenoic fatty acids (40·9–92·4 %). No difference was detected in temperature adaptation with that of wild-type cells during the growth phase. However, surprisingly, mutant cells developed more efficiently than the wild-type at elevated temperatures. These results show that the fatty acid composition ofDictyosteliumchanges with temperature and suggest that the regulation of dienoic fatty acid synthesis is involved in the development ofDictyosteliumat elevated temperatures, but not during the growth phase.