Bacterial translocation and wasting in stressed mice

The effects of strees immunity and on the bacterial translocation from intestine to mesenteric lymph nodes, liver, and spleen were studied in a group of newborn CD1 mice. Animals were separated into three experimental groups. Mice from group I were stressed by intraperitoneal (IP) injections of heatkilled staphylococci for 4 weeks. Mice from group II were IP injected with saline solution only. The remaining mice, group III, were not injected. The clinical condition, presence of bacteria in abdominal organs, mitochondrial activity in splenic cells, lymphocyte proliferative response to Concanavalin-A and in vitro antibody production were evaluated in each mouse. Results showed that prolonged IP stressor challenge causes severe weight loss and immunodeficiency. The splenic lymphocytes from stressed mice exhibited a significant depression of both proliferative response to Concanavalin-A stimulation and anti-erythrocytes antibody synthesis. Instead, cultured in basal conditions, the splenic cells from stressed mice have an increased capacity to reduce the tetrazolium salts. Bacterial dissemination from intestine to mesenteric lymphoid nodes was also confirmed in the same group of mice. In contrast, mice in groups II and III presented no weight loss and immunodeficiency. Results suggest that chronic biological stress induced in newborn mice could facilitate the translocation of Gramnegative bacteria. Probable pathogenic mechanisms are commented upon and a correlation is proposed between the bacterial dissemination and the wasting development

Zinc administration prevents wasting in stressed mice

Experimentally induced chronic stress can produce severe retardation on the physical development of young animals. Moreover, the chronic stress and its associated secondary malnutrition cause a variable depression on immunity, whose pathogenesis has been related to the excessive production of cytokines and glucocorticoids. When stressful stimuli are excessive, animals increment their anorexia and express a progressively installed wasting syndrome, associated with hypozincemia and susceptibility to infections with high mortality rate. In this work, chronically stressed mice were studied to observe the prophylactic effect of a zinc treatment on the evolution of both their malnutrition and their immune competence. Stress was induced in newborn Balb/c mice by intraperitoneal (IP) injections with heat-killed bacteria for 4 weeks. Following this inductive period, almost all the stressed mice showed a transient wasting syndrome characterized by anorexia, deficient gain of corporal weight, diarrhea, skin infection, reduced antibody response against antigens of red blood sheep cells, and a decreased proliferative response in their Con-A stimulated splenic lymphocytes. However, when the stressed mice received an additional IP treatment with zinc acetate, their clinical condition showed a significant improvement and their immunocompetence was similar to that exhibited by non-stressed mice fron the control groups. The results suggest that zinc supplementation can ameliorate the effects of chronic stress on the growth, corporal weight, and immunocompetence of young mice