ABSTRACT: Sex-dependent differences in adaptation to famine have long been appreciated, thought to hinge on female versus male preferences for fat versus protein sources, respectively. However, whether these differences can be reduced to neurons, independent of typical nutrient depots, such as adipose tissue, skeletal muscle, and liver, was heretofore unknown. A vital adaptation to starvation is autophagy, a mechanism for recycling amino acids from organelles and proteins. Here we show that segregated neurons from males in culture are more vulnerable to starvation than neurons from females. Nutrient deprivation decreased mitochondrial respiration, increased autophagosome formation, and produced cell death more profoundly in neurons from males versus females. Starvation-induced neuronal death was attenuated by 3-methyladenine, an inhibitor of autophagy; Atg7 knockdown using small interfering RNA; or L-carnitine, essential for transport of fatty acids into mitochondria, all more effective in neurons from males versus females. Relative tolerance to nutrient deprivation in neurons from females was associated with a marked increase in triglyceride and free fatty acid content and a cytosolic phospholipase A2-dependent increase in formation of lipid droplets. Similar sex differences in sensitivity to nutrient deprivation were seen in fibroblasts. However, although inhibition of autophagy using Atg7 small interfering RNA inhibited cell death during starvation in neurons, it increased cell death in fibroblasts, implying that the role of autophagy during starvation is both sex- and tissue-dependent. Thus, during starvation, neurons from males more readily undergo autophagy and die, whereas neurons from females mobilize fatty acids, accumulate triglycerides, form lipid droplets, and survive longer.