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Humoral encapsulation in Diptera (Insecta): comparative studies in vitro

Published online by Cambridge University Press:  06 April 2009

A. Vey
Affiliation:
Station de Recherches Cytopathologiques I.N.R.A.-C.N.R.S. 30380 St Christol (France)
P. Götz
Affiliation:
Biologisches Institut I (Zoologie), Albert-Ludwigs-Universität, 78 Freiburg im Breisgau (German Federal Republic)

Extract

The humoral encapsulation reaction of larvae of Chironomus has been reproduced and studied in vitro. This reaction is activated by entomogenous fungi and certain foreign bodies as well as by nematodes. The different stages of encapsulation and the duration of the process have been determined. In the larvae of a given species of Chironomidae encapsulation does not vary with age or sex. In contrast, the duration of the process differs according to the species of Chironomidae and is modified by temperature or by parasitism of the host by Mermithidae.

The capsules contain melanin. Their formation is prevented by glutathion, an inhibitor of phenoloxidase.

The humoral type of encapsulation also occurs in vitro in the haemolymph of larvae of the nematocera families, Culicidae and Chaoboridae. However, the reaction of these insects differs in the amount, distribution and pigmentation of the capsular material.

The results demonstrate similarities between humoral and cellular encapsulation.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1975

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References

Brewer, F. D., & Vinson, S. B., (1971). Chemicals affecting the encapsulation of foreign material in an insect. Journal of Invertebrate Pathology 18, 287–9.CrossRefGoogle ScholarPubMed
Bronskill, J. F., (1962). Encapsulation of rhabditoiid nematodes in mosquitoes. Canadian Journal of Zoology 40, 1269–75.CrossRefGoogle Scholar
Esslinger, J. H., (1962). Behaviour of microfilariae of Brugia pahangi in Anopheles quadrimaculatus. American Journal of Tropical Medicine and Hygiene 11, 749–58.CrossRefGoogle Scholar
Götz, P., (1969). Die Einkapselung von Parasiten in der Hämolymphe von Chironomus-Larven (Diptera). Zoologisches Anzeiger, Supplementband 33, 610–7.Google Scholar
Götz, P., (1973 a). Humorale Einkapselung von Hydromermis contorta und Turbatrix aceti (Nematoda) in Haemolymphe von Chironomus thummi (Diptera). Film E 1917, Institut für den wissenschaftlichen Film, Göttingen, and Publikationem zu wissenschaftlichen Filmen Sektion Biologie 7, 6779.Google Scholar
Götz, P., (1973 b). Immunreaktionen bei Insekten. Naturwissenschaftliche Rundschau 26, 367–75.Google Scholar
Götz, P., & Vey, A., (1974). Humoral encapsulation in Diptera (Insecta): defence reactions of Ghironomus larvae against fungi. Parasitology 68, 193205.CrossRefGoogle ScholarPubMed
Maïer, W., (1973). Die Phenoloxydase von Chironomus thummi und ihre Beeinflussung durch parasitäre Mermithiden. Journal of Insect Physiology 19, 8595.CrossRefGoogle Scholar
Metalnikov, S., & Chorine, V., (1929). On the natural and acquired immunity of Pyrausta nubilalis HB. International Corn Borer Investigations, Scientific Reports 2, 2238.Google Scholar
Nappi, A. J., (1973). The role of melanization in the immune reactions of Drosophila algonquin against Pseudocoïla bochei. Parasitology 66, 2332.CrossRefGoogle Scholar
Paillot, A., (1933). L'infection chez les insectes. Immunité et symbiose. Trevoux: G. Patissier.Google Scholar
Pearse, A. G., (1972). Histochemistry, Theoretical and Applied. Edinburgh: Churchill Livingstone.Google Scholar
Poinar, G. O. Jr, & Leutenegger, R., (1971). Ultrastructural investigation of the melanization process in Culex pipiens (Culicidae) in response to a nematode. Journal of Ultrastructure Research 35, 149–58.CrossRefGoogle Scholar
Salt, G., (1956). Experimental studies in insect parasitism. IX. The reaction of a stick insect to an alien parasite. Proceedings of the Royal Society of London B 146, 93108.Google Scholar
Salt, G., (1970). The Cellular Defence Reactions of Insects. Cambridge University Press.CrossRefGoogle Scholar
Singh, K. R., (1967). Cell cultures derived from larvae of Aedes albopictus (SKUSE) and Aedes aegypti (L.). Current Science 36, 505–8.Google Scholar
Vey, A., (1969). Etude in vitro des réactions hémocytaires anticryptogamiques des larves de Lépidopteres. Annales de Zoologie — Ecologie animate 1, H.S. 93100.Google Scholar
Vey, A., (1971). Recherches sur la réaction hémocytaire anticryptogamique de type granulome chez les insectes. Thèse de Doctorat de Sciences Naturelles, Université de Toulouse.Google Scholar
Vey, A., & Vago, C., (1967). Influence d'une maladie virale sur les réactions hémocytaires anticryptogamiques chez les insectes. Comptes Rendus de l'Academie des Sciences D 266, 1568–70.Google Scholar
Vey, A., & Vago, C., (1969). Recherches sur la guérison dans les infections cryptogamiques d'insectes. Infection à Aspergillus niger V. Tiegh. chez Galleria mellonella L. Annales de Zoologie — Ecologie animate 1, 121–6.Google Scholar
Vey, A., Quoit, J. M., & Vago, C., (1968). Formation in vitro des réactions d'immunité chez les insectes. Proceedings of the 2nd International Colloquium on Invertebrate Tissue Culture,Tremezzo (Italy),1967, 110–8.Google Scholar
Wülker, W., & Götz, P., (1968). Die Verwendung der Imaginals-cheiben zur Bestimmung des Entwicklungszustandes von Chironomus-Larven. (Dipt.). Zeitschrift für Morphologie und Ökologie der Tiere 62, 363–88.CrossRefGoogle Scholar
Wyatt, S. S., (1966). Culture in vitro of tissue from the silkworm Bombyx mori L. Journal of general Physiology 39, 841–52.CrossRefGoogle Scholar