Cellular and humoral aspects of innate immunity in the shark

Survival of many species depends, to a great extent, on their innate immunity. Innate immunity in the nurse shark (Ginglymostoma cirratum), a primitive elasmobranch, has been shown to consist of components, both humoral and cellular, which are in some respects similar to those found in mammals and other vertebrates. Innate immune factors present in the shark include complement (a complex system of serum proteins) and antibacterial proteins and enzymes, such as lysozyme. Shark complement, although opsonic and lytic in nature, differs from classical mammalian complement in the number of functionally distinct components involved in the activation sequence. Functional and structural analogues of several mammalian complement proteins have been isolated from the shark, and activation of shark serum by lipopolysaccharide or zymosan produces anaphylatoxin-like ligand(s) inducing mammalian smooth muscle contraction and chemotaxis of human leucocytes in vitro. Lysozyme activity has been recovered from shark leucocyte lysates, which also contain antibacterial peptides, distinct from lysozyme. The composition and antibacterial activity of shark leucocyte granules, the putative source of the activity, is under investigation. Cellular aspects of the inflammatory response which is an integral component of innate immunity, are leucocyte phagocytosis and chemotaxis. Both processes are functions of two distinct shark cell types, the granulocyte and the monocyte-macrophage. It should be noted that the innate resilience of the nurse shark is also augmented by a large pool of serum natural antibodies, which can account for as much as 45% of the total serum protein.