부산대학교 도서관

The facultative intracellular bacterium Listeria monocytogenes is being developed as a cancer vaccine platform because of its ability to induce potent innate and adaptive immunity. For successful clinical application, it is essential to develop a Listeria platform strain that is safe yet retains the potency of vaccines based on wild-type bacteria. Here, we report the development of a recombinant live-attenuated vaccine platform strain that retains the potency of the fully virulent pathogen, combined with a > 1,000-fold reduction in toxicity, as compared with wild-type Listeria. By selectively deleting two virulence factors, ActA ([DELTA],actA) and internalin B ([DELTA]inlB), the immunopotency of Listeria was maintained and its toxicity was diminished in vivo. largely by blocking the direct internalin B-mediated infection of nonphagocytic cells, such as hepatocytes, and the indirect ActA-mediated infection by cell-to-cell spread from adjacent phagocytic cells. In contrast, infection of phagocytic cells was not affected, leaving intact the ability of Listeria to stimulate innate immunity and to induce antigenspecific cellular responses. Listeria [DELTA]actA/[DELTA]inIB-based vaccines were rapidly cleared from mice after immunization and induced potent and durable effector and memory T-cell responses with no measurable liver toxicity. Therapeutic vaccination of BALB/c mice bearing murine CT26 colon tumor lung metastases or palpable s,c. tumors (>100 [mm.sup.3]) with recombinant Listeria [DELTA]actA/[DELTA]inlB expressing an endogenous tumor antigen resulted in breaking of self-tolerance and long-term survival. We propose that recombinant Listeria [DELTA]actA/[DELTA]inlB expressing human tumor-associated antigens represents an attractive therapeutic strategy for further development and testing in human clinical trials.