Limulus amebocyte clotting cascade: roles of endotoxin and adenylate cyclase

Endotoxin, the lipopolysaccharide from the cell wall of Gram-negative bacteria, causes blood clotting in the horseshoe crab,Limulus polyphemus. Minute amounts of endotoxin stimulate the amebocytes in the blood to undergo exocytosis, which release the contents of their secretory granules to form a clot. An endotoxin-binding protein that possesses calmodulin-like activity has been isolated from the amebocyte plasma membrane. This endotoxin-binding protein can activate adenylate cyclase fromBordetella pertussis to the same extent as rat testes calmodulin. The effect of endotoxin and the endotoxin-binding protein on cyclic AMP synthesis inLimulus amebocytes was examined. Amebocytes exposed to endotoxin have increased levels of intracellular cyclic AMP. Amebocyte membranes contain an adenylate cyclase which is stimulated by NaF, guanosine (β,r-imido)triphosphate, and for skolin. This adenylate cyclase is also stimulated by the endotoxin-binding protein and calcium. Exposure of amebocytes to forskolin or dibutyryl cyclic AMP are stimulated to secrete clot components. Activation of adenylate cyclasein vivo by endotoxin via the endotoxin-binding protein may be one of the ways in which endotoxin stimulates secretion. It is suggested that endotoxin may have two actions in theLimulus system: (1) binding of endotoxin to the endotoxin-binding protein activates adenylate cyclase, promoting secretion by the amebocytes; and (2) endotoxin catalyzes a reaction on the secreted material to form a blood clot. This latter reaction is not elicited by forskolin or dibutyryl cyclic AMP.