Mechanism of Coagulation in Gecarcinus lateralis

Agglutination of cells, degranulation, and loss of cellularmembranes compose the major form of coagulation in the hemolymphof Gecarcinus lateralis. It is only after agglutination of theformed elements of the hemolymph that fibrin-like strands appear.Sodium citrate, in a concentration of 10% or more to preventcoagulation, is always inadequate to prevent cell agglutination. Multiple studies by protein electrophoresis failed to revealany differences between plasma and serum, nor did they allowus to identify a soluble protein in plasma that did not appearin serum. Crab hemolymph changes in its capacity for clottingduring the molt cycle, with the most rapid clotting occurringin the premolt period. A new protein appears in the premoltperiod, but its relation to the whole clotting mechanism isunknown. In contradistinction to vertebrate systems, citrated hemolymphdoes not clot when calcium is added. There is no relationshipthat can be demonstrated between activating systems in vertebrateplasma and clotting in the crab. It would seem that, ratherthan the vertebrate coagulating system evolving from the crustaceantype of clotting system, the development of these clotting systemshas run in parallel. The crustacean cell, in addition, appearsto be more potent than vertebrate cells in clotting systems.The comparison of human lymph to crustacean hemolymph wouldindicate that, for a given amount of cells, crustacean hemolymphclots 2 to 20 times faster than human lymph. On the other hand,agglutination of cells is a fundamental initiating step in coagulationof both human blood and crustacean hemolymph.