RESUMO
The defense response of Veneza zonata (Hemiptera: Coreidae) against three different trypanosomatid infections was assessed: (1) strain 714TD, a Leptomonas which has V. zonata as vector of a plant trypanosomatid, (2) strain 563TD, a Leptomonas isolated from the digestive tract of Euchistus heros (Hemiptera: Pentatomidae), and (3) Leishmania (L.) amazonensis, a human parasite that cannot infect V. zonata. Experiments with V. zonata hemolymph showed agglutination only of L. (L.) amazonensis culture forms and hemocytic recognition was more intense with this strain. L. (L.) amazonensis also activated the prophenoloxidase system, whereas strains 714TD and 563TD did not activate this system but rather seemed to inhibit phenoloxidase activity. No flagellates were seen in the digestive tract, hemolymph, or salivary glands in insects infected with L. (L.) amazonensis. The digestive tract, the hemolymph, and the salivary glands of insects fed on tomatoes inoculated with 714TD are sequentially invaded by the flagellate, which is inoculated in plants together with saliva. Insects fed on tomatoes inoculated with 563TD exhibited culture forms in the digestive tract (6 days after) and hemocoel (three additional days); however, they died 12 to 14 days after exposure. The salivary glands in insects inoculated in the hemocoel with 714TD strain are rapidly invaded, whereas those with 563TD culture forms died approximately 24 h after infection. Bacterial proliferation in the hemocoel and hemocyte surface blebbing were seen in insects infected only with 563TD strain as the probable pathogenic mechanism of insect death.
Assuntos
Hemípteros/parasitologia , Hemolinfa/fisiologia , Infecções por Protozoários/fisiopatologia , Trypanosomatina/fisiologia , Animais , Interações Hospedeiro-Parasita , Técnicas In VitroRESUMO
In the present study, we investigated the genetic variability among 49 new isolates of trypanosomatids from phytophagous Hemiptera by means of morphological characters, growth features, and biochemical (enzymes of ornithine-arginine cycle) and molecular markers (based on spliced-leader, and ribosomal genes). From 402 phytophagous insects dissected and examined for the presence of trypanosomatids, 228 species belonging to Pyrrhocoridae, Coreidae, Lygaeidae, and Pentatomidae families harbored trypanosomatids in their salivary glands, or digestive tubes. Among these insects, 211 carried promastigotes and only 17 had choanomastigote forms. The results show a strong association among morphology, growth features, and biochemical and molecular markers and reveal the genetic diversity of the isolates, which were assigned to Crithidia, Phytomonas, and Leptomonas; we found genetic polymorphism within all these genera, thus indicating high genetic variability among trypanosomatids from phytophagous insects.