When mice immunized with Listeria monocytogenes were given a second injection of listeria, they showed an anamnestic immune response to intravenous challenge with listeria, as measured by enumeration of the viable infecting organisms in the spleens of the infected animals. This response was independent of the effects of the challenge dose. When mice immunized with living or heat-killed attenuated mycobacterial cells were boosted with living H37Ra, there was also an accelerated response to listeria challenge. The response was greater in the mice given the primary immunization with living cells than in those immunized with heat-killed cells. The response to listeria challenge in mice immunized and boosted with mycobacteria was of less magnitude than that in the mice immunized and boosted with listeria. Growth of listeria in the mice immunized and boosted with mycobacteria was retarded only during the first 2 days of the infection, whereas the infecting listeria in mice immunized and boosted with listeria were permanently inactivated. Mice immunized with mycobacterial ribosomal fraction and restimulated with living mycobacterial cells showed no accelerated response to listeria challenge. It is evident from these results that resistance to these organisms is specifically evoked, but that once evoked it is not completely nonspecific in action. Also, the resistance produced by the mycobacterial ribosomal fraction to challenge with mycobacteria is completely specific in action. Therefore, it has been shown that there are two mechanisms involved in acquired immunity to facultative, intracellular parasites. One is nonspecific and mediated by activated macrophages. The other is specific and mediated by a mechanism as yet unknown.
Mice were immunized with 1.0 mg of an attenuated strain of Listeria monocytogenes to determine the period of protection afforded by this strain when the mice were challenged intravenously with 5 MLD of listeria. Protection appeared 2 days after immunization and was still apparent 4 weeks after immunization. If the challenge dose was decreased to 1 MLD, protection was apparent at 10 weeks. Mice immunized with a comparable dose of mycobacterial cells and challenged intravenously with 1 MLD of listeria showed no protection at 10 weeks. The magnitude of the immune response to listeria challenge was not increased in mice immunized with the same virulent strain as that used for challenge. It was also found that resistance to listeria challenge appeared early after listeria immunization if the immunizing dose was large. As the immunizing dose was decreased and the challenge dose increased, resistance appeared later. Listeria killed by heat or ultraviolet irradiation, living but nonmultiplying streptomycin-dependent listeria, or listeria ribosomal fraction gave no protection against listeria challenge. The magnitude of the immune responses after listeria immunization to listeria challenge and to mycobacteria challenge were compared. It was found that protection after listeria challenge was of longer duration. In addition, a 100-fold larger vaccinating dose was required to give comparable protection against tuberculous infection.
Mice were immunized intraperitoneally with 5.0 mg of living and 5.0 mg of heat-killed H37Ra cells of the attenuated strain Mycobacterium tuberculosis and challenged intraperitoneally with Listeria monocytogenes and Klebsiella pneumoniae. The period of protection provided by the living and heat-killed H37Ra cells against both heterologous infections was the same. When mice were immunized intraperitoneally with graded doses of living and heat-killed H37Ra and challenged intraperitoneally with listeria or klebsiella, the lowest immunizing dose providing protection against both klebsiella and listeria challenge was the same for living and heat-killed cells. Living and heat-killed cells also immunized equally effectively when the routes of immunization and challenge were different. Mice also were immunized intraperitoneally with mycobacterial ribosomal fraction, mycobacterial cell walls, and several nonspecific agents (Escherichia coli endotoxin, mineral oil emulsion, and Freund's incomplete adjuvant). The mice were challenged intraperitoneally with listeria or klebsiella at varying times after immunization. The mycobacterial components and all the nonspecific agents provided transitory protection lasting no longer than 4 days after immunization. Only the mycobacterial cell walls and the endotoxin provided protection against listeria challenge. It was concluded that the protection provided by the mycobacterial ribosomal fraction is specific for tuberculosis infection, since this fraction provided no protection against listeria infection and only transitory protection against klebsiella. It was also concluded that the mycobacterial component providing protection against heterologous infections is heat stable and probably is found in the cell wall.
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