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Organ toxicity? immune response

The various organs of the immune system such as spleen, lymph nodes, thymus and bone marrow containing the cells involved in the various immune responses offer the possibility to harvest these cells and perform in vitro assays for evaluation of effects on the immune system. When part of an in vivo animal study this may indicate a direct toxic effect of pharmaceuticals, that is, immunosuppression (Table 18.2). So, it is feasible to obtain cell suspensions for further evaluation such as determination of cellular subsets of T and B leukocytes by fluorescent activated cell sorter analysis (FACS analysis), and determination of natural killer (NK) cell activity of the spleen cell population. An advantage of this approach is that it may lead to identification of a biomarker to be used in clinical studies. In addition, in vitro stimulation of spleen cells with mitogens activating specific subsets may indicate potential effects on the functionality of splenic cell populations. Concanavalin A (Con A) and phytohemagglutinin (PHA) activate Tcells, while lipopolysaccharide (LPS) activates primarily B cell populations. Blood is collected for total white blood cell (WBC) determination and blood cell differential count. In addition, serum can be obtained for determination of serum immunoglobulins. [Pg.444]

A recent paper clearly highlighted the limitations of in vitro systems in modeling whole-organism responses, which should be considered when developing biomarkers of in vivo toxicity. Dere and colleagues (58) compared the temporal gene expression profiles of Hepalclc mouse hepatoma cells and of the mice liver after treatment with a dioxin. The analysis revealed that Hepalclc cells were able to model the induction of xenobiotic metabolism in vivo. On the other hand, responses associated with cell cycle progression and proliferation were unique to the in vitro system, while lipid metabolism and immune responses were not replicated effectively in the Hepalclc cells. [Pg.346]

Stochastic responses under conditions of the experiment should be reviewed carefully with respect to the relevance of the evidence to humans (e.g., the occurrence of bladder tumors in the presence of bladder stones and implantation site sarcomas). Interpretation of animal studies is aided by the review of target organ toxicity and other effects (e.g., changes in the immune and endocrine systems) that may be noted in pre-chronic or other toxicologic studies. Time- and dose-related incidence of pre-neoplastic lesions may also be helpful in interpreting animal studies. [Pg.84]

When a vertebrate animal is exposed to foreign molecules, immune responses are triggered to destroy and eliminate invading organisms and any toxic molecules produced by them. There are two broad classes of immune response ... [Pg.219]

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See also in sourсe #XX -- [ Pg.260 ]



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Immune organs

Immune response

Organ toxicants

Organ toxicity

Organization responsibilities

Toxic organics

Toxic responses

Toxicity response

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