CYTOTOXIC TRANSPLANTATION IMMUNITY IN THE SPONGE TOXADOCIA VIOLACEA

Abstract

The Hawaiian sponge, T. violacea, exhibited discriminating transplantation immunity in an extensive series of allogeneic and xenogeneic parabioses. Cytotoxic alloincompatibility occurred without exception, but with differing degrees of severity. The allorejection reactions developed more rapidly than had been observed in any other animal species. An intense tissue-bridging reaction in allogeneic contact zones preceded acute soft tissue destruction; the cytotoxic reactivity was usually restricted to the immediate zone of direct contact. The median reaction times were closely temperature-dependent and much accelerated at higher temperature. Specific, short-term alloimmune memory was revealed by 2nd-set and 3rd-party graftings. Extensive allogeneic polymorphism was evident from the invariable rejection observed among more than 140 different pairings. Xenograft reactions between T. violacea and Callyspongia diffusa were characterized by acute cytotoxicity, immune memory and a qualitative change in secondary vs. primary responses.