IMMUNOLOGICAL AND NEUROENDOCRINE RESPONSES OF RATS TO PROLONGED OR REPEATED STRESS

Abstract

Stress by overcrowding lasting 2 wk or more depressed the Arthus reaction in rats, and repeated immobilizations for 4 days depressed the plaque-forming cell response in Jerne''s assay. The concentrations of neurotransmitters in the brain showed 2 peaks during the overcrowding: at the beginning of the stress (day 2) there was a sharp rise of 5-hydroxyIAA (5-HIAA), a metabolite of serotonin, and in the 2nd week (day 10) there was another rise of 5-HIAA, together with serotonin and noradrenaline [norepinephrine]. Plasma corticosterone showed an initial drop, followed by increase that also culminated on day 10 of the stress, indicating adaptation. Other stressful procedures (daily immobilizations, repeated injections of picrotoxin) also changed the levels of neurotransmitter substances and glucocorticoid hormones. A conspicuous feature noted in all models was coincidence of increased 5-HIAA (indicating increased metabolism of serotonin) with either increase or fall of the corticosterone level in plasma. This seems to be related to the state of immunosuppression. Studies on the effects of stress on immunity in parallel with neuroendocrine responses, may give insight into possible neuroendocrine control of immune phenomena.