Wound Responses in Insects

For over a century, the study of specific antipathogenic strategiesin insects has been confounded by non-specific responses tointegumental invasion. Experimental injury to diapausing Hyalophoracecropia silkmoth pupae elucidated some of the events inherentin this response—increased oxygen consumption and DNAand RNA synthesis leading to de novo synthesis of proteins,some of which are constituents of the adult protein cohort aswell as some injury-specific ones. The mechanism which enforcesdiapause is apparently released by integumental injury as wellas by normal developmental stimuli. Recent work has concentratedon purification of antipathogenic and injury-specific proteins,the possible involvement of lectins in the immune response,and localization of synthesis of these proteins in hemocytesand fat body cells. At least ten different hemolymph proteinswhich are synthesized by fat body cells in response to inoculationof lepidopteran species with bacteria currently are being isolated.The hemolymph of H. cecropia contains lectins which are synthesizedby hemocytes. Analysis of in vitro incorporation of ['H]leucineby hemocytes into proteins reveals that these lectins apparentlyare not constituents of the secreted injury response proteincomplex in fifth instar caterpillars or diapausing pupae, norare hemolymph lectin titers significantly different in healthyversus diseased or injured animals. However, intracellular lectinconcentrations may increase upon injury. Increased lectin titerand induction of bactericidal activity coincide in another holometabolousspecies, the fleshfly Sarcophaga peregrina. Pursuit of thesestudies may elaborate our knowledge of insect cellular immunity.