Neuropeptide Y (NPY) neurones in the arcuate nucleus of the rodent hypothalamus may play a key role in responding to reductions in body energy stores with appropriate changes in energy homeostasis, namely an increase in food-seeking behaviour and hyperphagia, together with a reduction in heat production by brown adipose tissue. These adaptive responses are mimicked by the injection of NPY into the main sites of projection of the NPY neurones, and animals that are threatened by energy deficits (e.g. through starvation or insulin-deficient diabetes) show increased activity of these neurones. Genetically obese rodents also show hyperactivity of the NPY neurones, which is inappropriate to their energy needs and may contribute to their hyperphagia, reduced energy expenditure and excessive weight gain. The NPY neurones may be inhibited by insulin and leptin, which may both serve as signals of peripheral fat mass. Ultimately, characterization of the specific "feeding' receptors which mediate NPY's central effects on energy homeostasis may provide opportunities for designing drugs to manipulate and appetite and energy balance in man, notably obesity and the cachexia commonly associated with malignancy and chronic infection.