Identification and linkage relationships of three hexokinase genes in Aedes aegypti

Four regions of hexokinase activity are detected by starch gel electrophoresis of adult Aedes aegypti. Three of the regions, Hk-2, Hk-3, and Hk-4, are produced by three tightly linked loci, located on the third chromosome 7.25 map units from the locus fuzzy. The three loci show developmental differences as well as differences in substrate specificity.This work was supported by grants from the National Institutes of Health, AI 05118-02 and AI 12016.     

Time and site of assembly of the peritrophic membrane of the mosquito Aedes aegypti

Summary We determined the time and site of secretion of the precursors of the peritrophic membrane (PM) in Aedes aegypti and when the structure is assembled. The fine structure of the developing membrane of blood-feed females was described, and the pattern of secretion of injected tritiated glucosamine analyzed autoradiographically. Immediately following blood feeding, ingested red cells rapidly become compressed, such that the surrounding plasma is extruded to the margin of the midgut contents. Thereby, ingested fluids form a narrow margin separating the blood mass from the midgut epithelium. By electron microscopy, the PM first becomes evident at about 4 to 8 h after blood is ingested, and the membrane attains mature texture by 12 h. The compacted mass of ingested erythrocytes seems to serve as a template for the forming structure. In contrast, tritiated glucosamine, injected into freshly engorged mosquitoes, begins to concentrate on the midgut microvilli by 2 h after feeding. By 8 h the label assumes the layered appearance that characterizes the fine structure of the mature membrane. In contrast to the prevailing concept that the PM of mosquitoes first assumes texture anteriorly immediately after blood is ingested, we find that this potential barrier to pathogen development forms no earlier than 4 h after feeding and that it is formed from precursors secreted along the entire length of the epithelium overlying the food mass.     

Some consequences of selection for fast and slow recovery from the larval alarm reaction in Aedes aegypti

Summary Replicated divergent selection based upon the time taken to recover from the larval alarm reaction in the mosquito Aedes aegypti resulted in lines which recovered faster and slower than the control lines. Estimates of the realized heritability were consistent, ranging from 0.21 to 0.24 in the fast replicates and 0.19 to 0.20 in the slow replicates. After 11 generations of selection an apparent change in the fitness was examined using an application of the path analysis. The relevance of the findings to natural selection is also discussed.     

Identification of immune-related protein kinases from mosquitoes (Aedes aegypti)

Protein kinases are known to be involved in signal transduction for numerous physiological events. However, little is known about the roles of protein kinases in insect immunity. A fragment around 150 bp was amplified by polymerase chain reaction using cDNA templates from bacterial inoculated mosquitoes and primers corresponding to the conserved domain of protein kinases. Based on sequence analysis, 11 groups of protein kinases were characterized including 3 nonreceptor tyrosine kinases, 3 receptor tyrosine kinases, 3 serine/threonine kinases, and 2 novel protein kinases. The most abundant kinase obtained in this study reveals a high degree of similarity to human cholinesterase-related cell division controller (CHED) protein kinase. The expression of this mosquito CHED-like kinase is not detectable in normal female mosquitoes, but induced only after bacterial inoculation and trauma. A mosquito protein kinase was demonstrated to share homology with a plant Tousled gene, but has not yet been characterized in the animal system. In addition, analysis of the sequences of several protein kinases cloned from mosquitoes suggests that they might be involved in the regulation of cellular or humoral immunity.     

Differentiation of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) with egg surface morphology and morphometrics using scanning electron microscopy

Aedes aegypti and Aedes albopictus are potential arboviral vectors leading to high human fatality worldwide. Efforts in the present study were made to differentiate the eggs of A. aegypti and A. albopictus morphologically and morphometrically using scanning electron microscopy (SEM). Morphometrically, these species’ eggs were 48.48% significantly different of the 33 attributes including egg dimensions, micropylar apparatus, dimensions and density of outer chorionic cells (OCCs), tubercles and width of exochorionic network. In comparison to A. aegypti eggs, A. albopictus eggs were significantly smaller and more tapered at the posterior end; however, the micropylar disc of A. aegypti was wider and had incomplete circular sectors whereas it was a narrower polygon without sectors in A. albopictus. These species were also significantly different with regards to OCC which enclose both large central and small peripheral tubercles. Specifically, the exochorionic networks in A. aegypti were interwoven, reticulated and extensively wide whereas they were narrow, prominent and solid-wall-like in A. albopictus. This feature may strengthen A. albopictus eggs against desiccation, when they are laid in containers. The morphometrical and morphological analysis of the egg’s attributes of A. aegypti and A. albopictus may be helpful in understanding egg biology as well as in species confirmation.     

Laboratory evalution of a translocation double heterozygote for genetic control of Aedes aegypti

Summary Two pure translocation homozygote stocks, T₁/T₁ and T₃/T₃, were used to produce a double translocation heterozygote system designated T₁/T₃, employing T₁/T₁ as the male and T₃/T₃ as the female parent. The double heterozygote showed 73 % sterility when mated to wild females. Tests on mating competitiveness, recombination frequency in the differential segment, insemination rate and inheritance of sterility after release, for four generations in laboratory cages, have been carried out to evaluate the efficiency of this strain as an agent for a population control programme.     

Toxicity of the blue-green alga Oscillatoria agardhii to the mosquito Aedes aegypti and the shrimp Artemia salina

The cyanobacterium Oscillatoria agardhii 27, which does not produce mammalian neuro- or hepatotoxins, was highly toxic to the larval stages of the yellow fever mosquito Aedes aegypti: its 24-h LC₅₀ values against fourth-and second-instar larvae of A. aegypti were 8.7 and 6.1 g live cells/ml, respectively. The toxin was water-soluble and was partially purified but the chemical nature of the toxic compound(s) is still unknown. Aqueous solutions were also toxic to the newborn larvae of the brine shrimp, Artemia salina, used for the bioassay. The toxic activity of these solutions decreased markedly on heating to 90°C for 15 min.J. Kiviranta is with the Department of Pharmacy, P.O. Box 15, FIN-00014 University of Helsinki, Helsinki, Finland; A. Abdel-Hameed is usually with the Department of Microbiology, Faculty of Pharmacy, Cairo University, Kasr-El-Aini Street, Cairo, Egypt, but is presently with the Department of Applied Chemistry and Microbiology, P.O. Box 27, Viikki, Building B, FIN-00014 University of Helsinki, Helsinki, Finland.     

Effect of four chlorophytes on larval survival, development and adult body size of the mosquito Aedes aegypti

The effect of four microalgal chlorophytes, Chlorella vulgaris,Scenedesmus quadricauda, Chlorococcum sp. and Ankistrodesmus convolutus, on the survival, larval development and adultbody size of the mosquito Aedes aegypti was investigated. The percentage mortality of larvae fed with C. vulgaris, Chlorococcum sp.or S. quadricauda after six days was 100%, 84% and 88%,respectively. Delayed pupation and body size reduction of the mosquitoesfed with C. vulgaris, Chlorococcum sp. and S. quadricaudawere observed. In contrast, larvae fed with A. convolutus werebigger than those fed with normal insectory feed. The study showed thatC. vulgaris, S. quadricauda and Chlorococcum sp. have potentialto be used as larvicidal agents.     

Mathematical model to assess the control of Aedes aegypti mosquitoes by the sterile insect technique

We propose a mathematical model to assess the effects of irradiated (or transgenic) male insects introduction in a previously infested region. The release of sterile male insects aims to displace gradually the natural (wild) insect from the habitat. We discuss the suitability of this release technique when applied to peri-domestically adapted Aedes aegypti mosquitoes which are transmissors of Yellow Fever and Dengue disease.     

Mosquito trypsin: immunocytochemical localization in the midgut of blood-fed Aedes aegypti (L.)

Summary A polyclonal antibody was raised against trypsin purified from the midgut of blood-fed Aedes aegypti. Using this antibody and our modification of the peroxidase-antiperoxidase immunocytochemical reaction, strong activity was found in the lumen of the midgut at the light-microscopical level. The activity was localized mainly in the posterior part of the distensible, abdominal midgut, along the periphery of the blood bolus and within the peritrophic membrane. Immunoreactivity appeared 8 h after the blood meal and was most prominent around 24 h, coinciding with our previous spectrophotometric determinations of trypsin.At the electron-microscopical level, secretory granules, immunocytochemically labelled with anti-trypsin antibody and protein A-colloidal gold, were first detected about 12 h after the blood meal. At 18 h, the secretory pathway could be followed immunocytochemically from the formation of granules in the Golgi complex until their release by exocytosis in the midgut lumen. By 24 h, there was a reduction in secretory granules, and large lysosomes appeared.The process of secretion described for this mosquito is comparable to similar events in vertebrate secretory systems and the presence of an intracellular trypsinogen is suggested.     

Multiple functions of an odorant-binding protein in the mosquito Aedes aegypti

To prevent spreading of deadly diseases, populations of mosquitoes can be controlled by interfering with their chemical communication system. Odorant-binding proteins, recently shown to be required for olfaction, represent interesting targets for such purpose. Here we describe the ligand-binding properties and the unusual tissue expression of odorant-binding protein 22 from the repertoire of Aedes aegypti. Best ligands are molecules with two aromatic rings connected by a short rigid chain. The protein is expressed not only in sensory organs, such as the antennae and proboscis, but also in the male reproductive apparatus and transferred to the spermathecs of females. This suggests an additional function for this protein as pheromone carrier, analogously to vertebrates’ urinary and salivary proteins as well as some insect chemosensory proteins. Antiserum against odorant-binding protein 22 also stained the edges and sensilla of spiracles, indicating a third, still unknown, role for this protein.     

Estimation of the number of full sibling families at an oviposition site using RAPD-PCR markers: applications to the mosquito Aedes aegypti

There are many species in which groups of individuals encountered in the field are known to consist of mixtures of full-sibling families. We describe a statistical technique, based on the use of random amplified polymorphic DNA-polymerase chain reaction (RAPD-PCR) markers, that allows for the estimation of the number of families contained in these groups. We test the technique on full-sibling families of the mosquito Aedes aegypti, a species that distributes its eggs among several locations. Mixtures of 10 families with 15 individuals per family were analyzed using 40 RAPD-PCR loci amplified by 5 primers. Our analysis accurately estimated the number of families. The technique was accurate when the number of families was small or when family sizes were small and variable.     

Evidence of two lineages of the dengue vector Aedes aegypti in the Brazilian Amazon, based on mitochondrial DNA ND4 gene sequences

Genetic variation was estimated in ten samples populations of Aedes aegypti from the Brazilian Amazon, by using a 380 bp fragment of the mitochocondrial NADH dehydrogenase subunit 4 (ND4) gene. A total of 123 individuals were analyzed, whereby 13 haplotypes were found. Mean genetic diversity was slightly high (h = 0.666 ± 0.029; π = 0.0115 ± 0.0010). Two AMOVA analyses indicated that most of the variation (~70%-72%) occurred within populations. The variation found among and between populations within the groups disclosed lower, but even so, highly significant values. F(ST) values were not significant in most of the comparisons, except for the samples from Pacaraima and Rio Branco. The isolation by distance (IBD) model was not significant (r = 0.2880; p = 0.097) when the samples from Pacaraima and Rio Branco were excluded from the analyses, this indicating that genetic distance is not related to geographic distance. This result may be explained either by passive dispersal patterns (via human migrations and commercial exchange) or be due to the recent expansion of this mosquito in the Brazilian Amazon. Phylogenetic relationship analysis showed two genetically distinct groups (lineages) within the Brazilian Amazon, each sharing haplotypes with populations from West Africa and Asia.     

Defense reactions by larvae of Aedes aegypti during infection by the aquatic fungus Lagenidium giganteum (Oomycete)

Summary The adherence of zoospores of Lagenidium giganteum to the cuticle of mosquito larvae is the initial step in the infection process. Subsequently, a germ tube penetrates the integument, inducing a rapid melanization of the injured cuticle and epidermis. After entering the hemocoel the developing hyphae are occasionally encapsulated locally. This process is slow (6 to 12 h postincubation) and most frequently cell-free, although it can be mediated by circulating hemocytes. Sporadic hemocyte mediation of the humoral encapsulation process in larval stages of Culicidae adds a previously unreported dimension to this unusual type of defense reaction. The defense reactions of larvae of Aedes aegypti were ineffective against observed infection by Lagenidium giganteum.     

Ultrastructural changes in the muscles,midgut, hemopoietic organ,imaginal discs and Malpighian tubules of the mosquito Aedes aegypti larvae infected by the fungus Coelomomyces stegomyiae

Fungi belonging to the genus Coelomomyces can infect mosquito larvae and develop within the larval hemocoel. To examine fungal development, Aedesaegypti larvae infected with Coelomomyces stegomyiae Keilin were fixed, embedded and sectioned for both light and electron microscopy. While fungal hyphae of C. stegomyiae did not invade cells other than the cuticular epithelial cells, they did penetrate a number of tissues including muscles, midgut, hemopoietic organ, imaginal discs, and Malpighian tubules. This revised version was published online in July 2006 with corrections to the Cover Date.     

Ultrastructural changes in the fat body of adult female Aedes aegypti in relationship to vitellogenin synthesis

Summary The ultrastructure of the fat body of Aedes aegypti was followed from emergence through a blood meal. Changes in the volume of protein granules and lipid droplets were also examined. The relationship of these events to the known endocrinology of vitellogenin synthesis in mosquitoes is discussed.Massachusetts Experiment Station Paper No. 2130. Supported by the Massachusetts Agricultural Experiment Station, Project n° 356, and by NIH grant n° AI-11909     

Isolation, primary culture and morphological characterization of oenocytes from Aedes aegypti pupae

Oenocytes are ectodermic cells that participate in a number of critical physiological roles such as detoxification and lipid storage and metabolism in insects. In light of the lack of information on oenocytes from Aedes aegypti and the potential role of these cells in the biology of this major yellow fever and dengue vector, we developed a protocol to purify and maintain Ae. aegypti pupa oenocytes in primary culture. Ae. aegypti oenocytes were cultured as clustered and as isolated ovoid cells with a smooth surface. Our results demonstrate that these cells remain viable in cell culture for at least two months. We also investigated their morphology in vivo and in vitro using light, confocal, scanning and transmission electron microscopes. This work is the first successful attempt in isolating and maintaining Ae. aegypti oenocytes in culture, and a significant step towards understanding the role of this cell type in this important disease vector. The purification and the development of primary cultures of insect oenocytes will allow future studies of their metabolism in producing and secreting compounds.     

Additional morphological and physiological heterogeneity within the midgut of larval Aedes aegypti (Diptera: Culicidae) revealed by histology, electrophysiology, and effects of Bacillus thuringiensis endotoxin

Analysis of larval Aedes aegypti midgut using scanning electron microscopy, nuclear and mitochondrial dyes, response to Bacillus thuringiensis israelensis CryIVB toxin, and electrophysiology is described. The anterior ventriculus ("stomach") region is found to have much lower mitochondrial densities than other midgut regions. The transitional region is distinguished by apical surface architecture, and by region-specific effects of CryIVB endotoxin. In this region CryIVB causes holes ranging from 1.0 to 7.0 microm in diameter (mean 3.3+/-0.53 microm, N=12), blisters 16.9+/-1.54 microm in diameter (N=10), and separation of adjacent cells. The holes are not consistent with damage due to the colloid osmotic lysis model of delta-endotoxin activity. The posterior ventriculus possesses a distinctive cellular architecture consisting of hemispherical, domed apical membranes surrounded by deep clefts. Functional and morphological heterogeneity is revealed within the posterior ventriculus, with the anterior end dominating the electrical profile of isolated, perfused preparations and showing the greatest response to serotonin. Hyperpolarization of the transepithelial potential by serotonin occurred in conjunction with a decrease in the space constant lambda, ruling out closure of ion channels as the mechanism of action of serotonin.     

The Harmonic Convergence of Fathers Predicts the Mating Success of Sons in Aedes aegypti

During courtship males often communicate information about their fitness to females. The matching of harmonic components of flight tone in male-female pairs of flying mosquitoes, or harmonic convergence, was recently described. This behaviour occurs prior to mating and has been suggested to function in mate selection. We investigated the hypothesis that harmonic convergence is a component of mosquito courtship. A key prediction of this hypothesis is that harmonic convergence should provide information to potential mates about fitness benefits. We measured the effect of harmonic convergence behaviour on the direct and indirect benefits obtained by females. We found that the sons of pairs that converged at harmonic frequencies prior to mating had increased mating success and that these offspring were themselves more likely to converge prior to mating. These results suggest that males may be able to signal information about their genetic quality to females prior to mating and that this signal may be heritable. These findings are important for our understanding of mosquito behaviour and have applications in the control of mosquito-borne disease. This study also contributes to the study of male-female interactions and signal coevolution.