Caloric restriction (CR) is the only preventive intervention that has robust pro-longevity effects in experimental models. Various circulating hormones that regulate the state of negative energy balance may drive the multi-system beneficial effects of the CR phenomenon. Ghrelin, one such stomach-derived circulating peptide hormone stimulates food intake, promotes GH release and inhibits pro-inflammatory cytokines. We have recently demonstrated that ghrelin also reverses age-related thymic involution. Here, we report that chronic CR in aging mice results in reduction in body weight, and spleen size but remarkably, leads to a significant increase in the size and weight of stomach. The increased size of stomach was largely due to increased size of fundus (forestomach) and also smaller but statistically significant enlargement of antrum. The analysis of serial stomach sections revealed that chronic CR leads to a striking hypertrophy of lamina propria, stratum basale, stratum corneum and the stratified squamous epithelium of forestomach of the aged animals. We also report for the first time that chronic CR during aging significantly increases circulating ghrelin levels as well as total ghrelin production in the stomach and reverses age-related loss of ghrelin receptor expression in pituitary. Our data suggests that long-term CR-induced increased ghrelin production from hypertrophic stomach in mice may be an adaptive survival strategy in response to sustained negative energy balance that triggers heightened state of food seeking. Taken together, these data provide new insights into the underlying mechanism behind the salutary effects of chronic caloric restriction during aging process.