TEMPERATURE STRESS AND IMMUNITY IN MICE: EFFECTS OF ENVIRONEMTAL TEMPERATURE ON THE ANTIBODY RESPONSE TO HUMAN IMMUNOGLOBULIN OF MICE, DIFFERING IN AGE AND STRAIN

SUMMARY Physiological responses at different ambient temperatures and temperature‐dependent changes in immune responsiveness are polymorphic. At 4d̀C, the antigen elimination from the bodies of SJL and C57B1/6 mice is accelerated. In SJL, but not in C57B1/6 mice, the half‐life of antigen elimination decreased between the ages of 3 and 11 weeks. Parental mice and their F 1 hybrids showed a fall in rectal temperature, which was greatest in young animals. Hypothermia was greater in C57B1/6 than in SJL and F 1 hybrids; in 3 week old C57B1/6 it resulted in high mortality. The response to aggregated human immunoglobulin (HGG) was evaluated by (a) the number of animals with detectable antibody, (b) the minimal dose of antigen eliciting detectable antibody, and (c) the mean titre of haemagglutinating antibody. SJL mice were more responsive than C57B1/6 mice. Low antibody formation in the secondary response was dominant, i.e. the amount of antibody produced by (SJL × C57B1/6)F 1 mice was the same as that produced by the parental C57B1/6 strain. In a primary response, the quantity of antibody varied with the age of the immunized animal; 18 week old mice responded to lower minimal doses of antigen and produced more haemagglutinating antibody than 3 week old animals. After a second injection with HGG, SJL but not C57B1/6 mice produced more antibody when kept at 14d̀C rather than at 22d̀C or 30d̀C, and produced the lowest antibody titres when kept at 4d̀C. The relation between ambient temperature and the response of the SJL mice was dominant over that of the C57B1/6 strain. Primary differed from secondary responsiveness in that neither strain produced significantly lower titres when ambient temperature fell to 4d̀C; only 18 week old SJL mice responded with a marginal decrease in peak antibody production. The described polymorphism may affect both the individual capacity to cope with low temperatures and the evolutionary adaptation of a species to climatic extremes.