Abstract
Assessing the impact of drugs and contaminants on immune responses requires methodological approaches able to represent real-life conditions and predict long-term effects. Innate immunity/inflammation is the evolutionarily most widespread and conserved defensive mechanism in living organisms, and therefore we will focus here on immunotoxicological methods that specifically target such processes. By exploiting the conserved mechanisms of innate immunity, we have examined the most representative immunotoxicity methodological approaches across living species, to identify common features and human proxy models/assays. Three marine invertebrate organisms are examined in comparison with humans, i.e., bivalve molluscs, tunicates and sea urchins. In vivo and in vitro approaches are compared, highlighting common mechanisms and species-specific endpoints, to be applied in predictive human and environmental immunotoxicity assessment. Emphasis is given to the 3R principle of Replacement, Refinement and Reduction of Animals in Research and to the application of the ARRIVE guidelines on reporting animal research, in order to strengthen the quality and usability of immunotoxicology research data.
Highlights
Innate immunity is the immune defensive system displayed by living organisms, from plants to mammals
This assumption is confirmed by the presence of transcripts of genes for Toll-like receptors (TLRs), MBLs and MBL-associated serine proteases (MASPs) in both the stomach and the intestine, in addition to haemocytes circulating in the alimentary tract (Sasaki et al, 2009; Skjoedt et al, 2010)
The use of primary human cells allows us to study the mechanisms of innate/ inflammatory or memory reactions in conditions that readily translate to human responsiveness in vivo, as opposed to mouse models or in vitro models based on transformed cell lines
Summary
Innate immunity is the immune defensive system displayed by living organisms, from plants to mammals. Inflammatory reactions are innate immune responses aiming at defending the organism from pathogens or diseases, which are tightly regulated in order to achieve pathogen elimination without causing collateral damage to affected tissues/organs. To examine how innate immunity reacts to foreign substances, toxicants or contaminating particles, it is necessary to adopt immunotoxicological methods that allow us to discriminate between a physiological defensive reaction and an uncontrolled pre-pathological response (Villeneuve et al, 2018). In this context, the use of invertebrate models that
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