Cadmium can be accumulated in organisms and cause a variety of pathological responses. The concern of using this heavy metal and its detrimental effects to public health are rising in the past decades. So far, cadmium toxicology researches done with earthworm Eisenia andrei only correlate cadmium with heavy metal-induced responses like expression of metal-inducible metallothionein (MT), abnormal locomotion and death of individuals. However, there is still no explanation of how the organisms sense and respond to cadmium. In this experiment, the protein kinase C (PKC) activities and expression of a metal-inducible MT were measured in order to find out how cadmium interferes with the function of PKC and leads to mortality and MT expression. It was found that cadmium inhibited PKCα activity in E. andrei, both in vivo and in vitro. This inhibition was not caused by the competition between calcium and cadmium. However, the change of PKCα activity caused by competition between cadmium and zinc was still remained unproved. Furthermore, cadmium-induced responses such as mortality and MT expression were found to be synergistically induced by the PKC activator phorbol 12-myistate 13-acetate (PMA). There was a confliction resulted among cadmium toxicity, PKC activity and MT expression. This confliction may be due to the existence of multiple PKC isoforms. This multiple-isoform hypothesis suggested that an α-like PKC is responsible for the cadmium-induced inhibition of PKC activity; while a δ-like PKC is responsible for the cadmium-induced mortality and expression of MT. Although more studies are required to further prove the existence and function of these putative PKC isoforms, this study still provided a hypothesis of how earthworm senses and deals with the toxicology caused by heavy metal cadmium via isoforms of PKCs.