Dietary restriction in experimental animals enhances life span, delays disease, inhibits immunological perturbations, and ameliorates cancer. Protein kinase C (PKC) isozymes mediate signals generated by hormones, growth factors, and neurotransmitters for cell proliferation and differentiation. The results of our study showed that a C-terminally directed anti-PKC zeta antibody detected an 81-kDa band in the pancreases of control and energy-restricted hamsters. Syrian golden hamsters were fed energy-restricted diets formulated such that the hamsters received 90% (10% energy restriction (ER)), 80% (20% ER), or 60% (40% ER) of the total energy consumed by control hamsters, with the energy reduced proportionally from fat and carbohydrate. ER decreased PKC zeta isozyme levels by 40-75% in hamsters fed 10, 20, and 40% ER diets for 8 wk. PKC zeta isozyme expression was decreased by 75-80% in hamsters fed ER diets for 15 wk. Although ER caused significant decreases in PKC zeta isozyme levels compared with those of control hamsters at both time points, the relative differences in PKC zeta levels between the dietary ER groups (10, 20, and 40%) were small and not significant. A significant decrease in the body weights of ER animals compared with those of controls was observed at both time points. No differences in tomato lectin and phytohemagglutinin reactivity were observed between control animals and animals fed 10, 20, and 40% ER diets. Furthermore, the cellular expression of PKC zeta in the hamster pancreas did not differ among hamsters fed the various ER diets. These observations may be important for understanding not only the role of dietary ER in pancreatic cancers but also PKC zeta signal transduction mechanisms in normal pancreatic physiology.