Presence of chitinase and beta-N-acetylglucosaminidase in the Aedes aegypti. a chitinolytic system involving peritrophic matrix formation and degradation.

Measurement of the hydrolysis of specific fluorogenic substrates by spectrophotometry as well as the substrate activity-SDS-PAGE gel analysis of the chitinolytic activity in Aedes aegypti guts showed that both chitinase and beta-N-acetylglucosaminidase are present and physiologically active. Both enzymes were present even in guts from unfed insects, but the activities increased rapidly after feeding on blood or an artificial protein-free diet. Chitinase activity was predominantly of the 'endo'-type, reaching its maximum activity at 36 h and then declining to very low levels after the degradation of the peritrophic matrix (PM). Chitinase assay in gels after SDS-PAGE was a very sensitive method that allowed us to detect two chitinases with distinct molecular weights in the mosquito gut. Hydrolysis of a chitinase-specific substrate by chitinolytic activities in the mosquito guts was inhibited by allosamidin, a potent chitinase inhibitor. Allosamidin treatment led to the formation of an atypical thick PM, while the addition of exogenous chitinase completely blocked its formation. This chitinolytic system appears to operate both on the formation and degradation of the PM. Since the PM is involved in pathogen invasion, these results are important in facilitating a search for mechanisms that can block pathogen development in the mosquito vector.

Derris (Lonchocarpus) urucu (Leguminosae) extract modifies the peritrophic matrix structure of Aedes aegypti (Diptera:Culicidae).

Aqueous suspension of ethanol extracts of Derris (Lonchocarpus) urucu (Leguminosae), collected in the state of Amazonas, Brazil, were tested for larvicidal activity against the mosquito Aedes aegypti (Diptera:Culicidae). The aim of this study was to observe the alterations of peritrophic matrix in Ae. aegypti larvae treated with an aqueous suspension of D. urucu extract. Different concentrations of D. urucu root extract were tested against fourth instar larvae. One hundred percent mortality was observed at 150 microg/ml (LC(50) 17.6 microg/ml) 24 h following treatment. In response to D. urucu feeding, larvae excreted a large amount of amorphous feces, while control larvae did not produce feces during the assay period. Ultrastructural studies showed tha larvae fed with 150 microg/ml of D. urucu extract for 4 h have an imperfect peritrophic matrix and extensive damage of the midgut epithelium. Data indicate a protective role for the peritrophic matrix. The structural modification of the peritrophic matrix is intrinsically associated with larval mortality.

Derris(Lonchocarpus) urucu (Leguminosae) estract modifies the peritrophic structure of Aedes aegypti (Diptera: Culidae

Aqueous suspension of ethanol extracts of Derris (Lochocarpus) urucu (Leguminosae), collected in the state of Amazonas, Brazil, were tested for larvicidal activity against the mosquito Aedes aegypti (Diptera:Culicidae). the aim of this study was to observe the alterations of peritrophic matrix in Ae. aegypti larvae treated with an aqueous suspension of D. urucu extract. Different concentrations of D. urucu root extract were tested against fourth instar larvae. One hundred percent mortality was observed at 150 microg/ml (LC(50) 17.6 microg/ml) 24 h following treatment. In response to D. urucu feeding, larvae excreted a large amount of amorphous feces, while control larvae did not produce feces during the assay period. Ultrastructural studies showed tha larvae fed with 150 microg/ml of D. urucu extract for 4 h have an imperfect peritrophic matrix and extensive damage of the midgut epithelium. Data indicate a protective role for the peritrophic matrix. The structural modification of the peritrophic matrix is intrinsically associated with larval mortality.

Aedes aegypti peritrophic matrix and its interaction with heme during blood digestion.

A large amount of heme is produced upon digestion of red cell hemoglobin in the midgut of mosquitoes. The interaction between heme and the peritrophic matrix (PM) was studied in Aedes aegypti. By light microscopy, the PM appeared as a light brownish layer between the intestinal epithelium and the alimentary bolus. This natural color can be attributed to the presence of heme bound to the matrix. In histochemical studies, a diffuse peroxidase activity of the heme molecules was clearly observed between the erythrocytes and the PM at 14 h after the blood meal. This activity tends to increase and concentrate in the PM reaching its maximum thickness at 24 h after feeding. Most of the heme of the PM was found associated to with enormous number of small electron-dense granules. The amount of heme bound to the PM increased in parallel with the progression of digestion, reaching a maximum at 48 h after feeding, when 18 nmol of heme were found in an individual matrix. The association of heme with PM from insects fed with plasma is saturable, suggesting the existence of specific binding sites for hemin in the PM. Taken all together, our data indicate that the PM performs a central role in heme detoxification in this insect.