Choosing an appropriate partner to mate with is an important part of animal reproduction. In Drosophila melanogaster, it has been shown that male flies prefer to mate with virgin and young females rather than mated or aged females. Since nutritional availability plays a key role in regulating aspects of fly physiology such as lifespan and fecundity, we investigated the effect of nutrient intake on male courtship preference by altering the concentration of yeast (1%, 5% and 20% yeast) in fly foods. We found that flies on higher yeast diets for 10 days showed differentiation in body weight, fecundity, locomotor activity (during light periods), food intake, lifespan, and insulin-like signaling. Moreover, male flies had higher courtship indexes to females raised in higher yeast diets when placed in 1-male to 3-female courtship choice assays, each lasting 30 minutes. Similar trends were observed in eye ablated male mutant flies. This preference was also displayed even when the females were decapitated. These results suggest that neither male visual signals nor female locomotor activities could mediate male courtship preference in this experimental context. Intriguingly, this preference was not present when insulin-like signaling (IIS) was specifically disrupted in oenocytes of female mutant flies or when females were masked with the same cuticular hydrocarbons (CHCs). We also found that diet could induce alterations in IIS and CHCs expression in female flies. In summary, we found that nutrition, especially from yeast, controls male courtship preference by modulating insulin-like signaling on female oenocytes, which in turn regulates the production of CHCs for sexual attractiveness.