Evaluation of innate imune response of Antarctic Sterechinus neumayeri and tropical sea urchins Lytechinus variegatus e Echinometra lucunter in response to global warming.

Global warming is a reality and its effects are widely studied today. However, little attention has been given to the changes that occur to marine invertebrates due to this climate change. It is known that one of the changes that occur as a result of the seawater temperature rise is the increased occurrence of diseases in the marine environment. Therefore, it is important to evaluate the innate immune response against this stressor. The sea urchins were chosen as a model for being considered good environmental bioindicators, and are phylogenetically close to chordates, sharing with them large repertoire of genes and receptors involved in the innate immune system. This study evaluated the innate immune response of Antarctic (S. neumayeri) and tropical (L. variegatus and E. lucunter) sea urchins against thermal stress by different temperatures and exposure periods. With regard to tropical sea urchins, two species, one that inhabits sites less subject to tidal variations (L. variegatus) and the other constantly exposed to tidal oscilations (E. lucunter) were studied. A difference between the response to thermal stress in the three species was observed. The Antarctic species showed more significant changes regarding increase of the percentage of red spherule cells and phagocytic capacity in acute exposure period (24 h) when subjected to mild temperatures. On the other hand, tropical species E. lucunter presented only change in the percentage of red spherule cells during chronic exposure (7 and 14 days) at extreme temperatures, while L. variegatus showed a change in this cell type in all experimental temperatures and exposure periods evaluated, as well as a significant reduction in phagocytic capacity in the same periods that was directly proportional to the temperature increase. Trying to understand the differences between animals that inhabit the same region , it was found that the species L. variegatus showed changes in cell adhesion and spreading, actin cytoskeleton of phagocytic amoebocytes, cell migration without the addition of chemotactic substance and chemotactic response against yeasts S. cerevisiae, besides a reduction of oxidative stress at elevated temperatures. It was also found that the phagocytic amoebocyte of this species showed significant morphological changes, such as reduction in cell circunference and change in the area of spreading. On the other hand, the species E. lucunter presented no change in any parameter analyzed. Thus, it is concluded that the thermal stress acts differently in polar and tropical species of sea urchins. However, the molecular mechanisms by which the species E. lucunter shows higher thermotolerance compared to the species L. variegatus remain obscure and deserve to be studied. (AU)