Erm, col and chl markedly depressed humoral and cell-mediated immune responsiveness in vitro after in vivo treatment with non-cytotoxical amounts. The Th lymphocyte supplementation of B reactive spleen cell population recovered the immune capacity in col and chl in vivo-treated groups, but not in erm-treated group. 相似文献
As regards spleen “natural cytotoxic” (NC) cell activity, as tested in a xenogeneic “target” cell substrate, a diminished cytotoxic capacity manifested chl-group-derived NC cells, possibly by richness in own “non-specific suppressor” (NSS) cells. NC cell samples in vitro supplemented with NSS cells arising from suckling mouse spleens and a lower cytotoxic activity, in a larger extent in chl-group-derived NC cells, as compared to other groups. The pre-incubation of control-group-NC cells with several antibiotic preparations in vitro was followed by decrease of the cytotoxic values in erm, col and chl-samples, suggesting a drug-induced NC receptor “masking”, that prevented “target” cell recognition in mice—II. In the case of NSS addition in vitro, as strong inhibition of the cytotoximity occurred in chl-treated NC cells derived from the control group, that proves a possible chloramphenicol-induced immunodepression by potentiation of NSS inhibitory effect on NC cells.
Based upon data from the present work, as well as from the previous work, the authors suggest a classification of several mechanisms by which the antibacterial antibiotics can act as immunosuppressive. 相似文献