The effect of infection with Dirofilaria immitis (dog heartworm) on fluid secretion rates in the Malpighian tubules of the mosquitoes Aedes taeniorhynchus and Anopheles quadrimaculatus

Dirofilaria immitis, the parasitic nematode causing the disease dog heartworm, is transmitted by female mosquitoes. During their development, larval nematodes reside in the cells of the Malpighian tubules of these mosquitoes for approx 13 days. We have examined the effect of the presence of these large intracellular parasites on the main physiological function of the Malpighian tubules, i.e. fluid secretion. Rates of fluid secretion were examined in vitro using both normal and infected tubules of the mosquito species Aedes taeniorhynchus and Anopheles quadrimaculatus. Tubules of A. quadrimaculatus show changes in trasport rate during the reproductive cycle. Those of A. taeniorhynchus do not. Infection with larvae of D. immitis had no effect on the rate of fluid secretion in tubules of A. quadrimaculatus. In A. taeniorhynchus by contrast, the tubules show decline in transport with time following infection. The reduction in transport capacity is proportional to the number of worms infecting the tubule. The present paper and separate ultrastructural studies demonstrate that parallel changes in microvillar ultrastructure and epithelial transport rates occur in response to infection by the parasite. In both species examined, the survival of the mosquitoes and their vector potential are determined by factors other than the transport capacities of the infected Malpighian tubules.     

Inhibition of Dirofilaria immitis in gregarine-infected Aedes aegypti: preliminary observations.

This study examined some of the effects of Ascocystis culicis infections in Aedes aegypti mosquitoes and on the development of dog heartworm, Dirofilaria immitis, in A. culicis-infected A. aegypti. Infections of 100 or more gregarines had an adverse effect on mosquito larvae and the resulting pupae weighed 1 to 2 mg less than the gregarine-free stock mosquitoes. Intensity of gregarine-induced pathology of adult mosquitoes was best estimated by counting the cells of the Malpighian tubules. Larvae infected with approximately 100 gregarines per larva had at least half the number of cells in their tubules destroyed, and development of D. immitis was greatly reduced. Thus, gregarine infections may be useful in reducing populations of aedine mosquitoes and, in areas endemic for heartworm, may interrupt transmission of D. immitis.     

Stellate cells in the Malpighian tubules of Drosophila hydei and D. melanogaster larvae (Insecta, Diptera)

 The Malpighian tubules of Drosophila hydei and D. melanogaster larvae are composed of two types of cell, principal cells and stellate cells. In the anterior larval Malpighian tubules approximately 26% (D. hydei) and 18% (D. melanogaster), respectively, of all cells are stellate cells. In the larvae of D. melanogaster, the stellate cells are fenestrated and the hemolymph space and tubule lumen are separated only by the basal lamina. Injection of dyes into the hemolymph did not indicate any facilitated transfer of substances through the fenestrated cells. The principal cells of the distal segment are carbonic anhydrase positive indicating transport activity, whereas the stellate cells lack this enzyme. In the stellate cells of the transitional segment, the sodium content is strikingly high in comparison to the neighbouring principal cells and lumen where no sodium was detected. This finding indicates that stellate cells reabsorb sodium as supposed earlier in 1969 by Berridge and Oschman (Tissue Cell 1:247–272). Accepted: 12 February 1999     

Insecticidal and Repellent Activity of Siparuna guianensis Aubl. (Negramina) against Aedes aegypti and Culex quinquefasciatus

This study investigated the toxic effects of essential oils isolated from Siparuna guianensis against Aedes aegypti, Culex quinquefasciatus (eggs, larvae, pupae, and adult) and Aedes albopictus (C6/36) cells. The oviposition-deterring activity, egg viability, and repellence activity in the presence of different essential oils concentrations were determined. The essential oils showed high toxicity to all developmental stages of A. aegypti and C. quinquefasciatus. Furthermore, the oils also showed high repellent activity towards the adult stage of mosquitoes (0.025 to 0.550 μg/cm2 skin conferred 100% repellence up to 120 min) and in contact with cultured insect cells (C6/36) induced death possibly by necrosis. The results presented in this work show the potential of S. guianensis essential oils for the development of an alternative and effective method for the natural control of mosquitoes in homes and urban areas.     

Ultrastructure of the larval Malpighian tubules in <Emphasis Type="Italic">Terrobittacus implicatus</Emphasis> (Mecoptera: Bittacidae)

The larvae of Bittacidae, a cosmopolitan family in Mecoptera, have an interesting habit of spraying the body surface with soil through the anus after hatching, and each molts. The fine structure of Malpighian tubules, however, remains largely unknown in the larvae of Bittacidae to date. Here, we studied the ultrastructure of the larval Malpighian tubules in the hangingfly Terrobittacus implicatus (Huang & Hua) using scanning and transmission electron microscopy. The larvae of T. implicatus have six elongate Malpighian tubules at the junction of the midgut and hindgut. The tubule comprises a basal lamina, a single-layered epithelium, and a central lumen. The basal plasma membranes of the epithelial cells are conspicuously infolded and generate a labyrinth. The epithelium consists of two types of cells: large principal cells and scattered stellate cells. Mitochondria and cisterns of rough endoplasmic reticulum are numerous in the principal cells but are sparsely distributed in the stellate cells, indicating that the principal cells are active in transport. On the other hand, spherites are only abundant in the principal cells and are likely associated with the soil-spraying habit of the larvae.     

Laboratory susceptibility of Wyeomyia smithii (Diptera: Culicidae) to Ascogregarina taiwanensis (Apicomplexa: Lecudinidae)

Gregarines in the genus Ascogregarina are not known to develop in sabethine mosquitoes, but we successfully infected larvae of Wyeomyia smithii with Ascogregarina taiwanensis in the laboratory. Ascogregarina taiwanensis is a natural parasite of the exotic Asian tiger mosquito, Aedes albopictus. Only 18% to 70% of the W. smithii larvae had visible trophozoites, with a range of 1-92 per larva. Trophozoites persisted in the midgut for more than 37 d, and one adult female W. smithii had gametocysts in its Malphigian tubules, which indicated that A. taiwanensis might fully develop in W. smithii. After 50 d, gregarines were not found in W. smithii larvae.     

Organophosphate Resistance in Aedes aegypti: Study from Dengue Hemorrhagic Fever Endemic Subdistrict in Riau,Indonesia

Background:Dengue hemorrhagic fever (DHF) is a significant health problem. The high number of cases requires preventions, including controlling the dengue vector, Aedes aegypti mosquito. One of the control methods is the use of insecticides containing organophosphate. This study aims to detect organophosphate resistance in Aedes aegypti from DHF endemic subdistrict, Riau, Indonesia by a sensitivity test of temephos and 5% malathion and measuring the activity of non-specific alpha and beta esterase enzymes.Methods:This observational study determined Aedes aegypti resistance from larvae to adult in one DHF endemic subdistrict in Riau, Indonesia. The bioassay was used for temephos sensitivity of Aedes aegypti larvae. The LC99 value was analyzed using probit and compared with the diagnostic value from WHO. The WHO susceptibility test was conducted to determine 5% malathion resistance from adult mosquitoes. The mortality of less than 90% was declared as resistant. Measurement of alpha and beta esterase levels used Lee''s microplate assay technique based on visual identification and absorbance value (AV).Results:The results showed that Aedes aegypti were resistant to temephos. It also showed that adult mosquitoes were resistant to 5% malathion. Based on the alpha esterase activity test, it was found that most of the mosquitoes showed very sensitive meanwhile, based on the beta esterase activity test, most of the mosquitoes were moderate resistance.Conclusion:This study suggests that Aedes aegypti population from DHF endemic subdistrict in Riau, Indonesia are indicated to develop resistance to organophosphate.Key Words: Aedes aegypti, Dengue Hemorrhagic fever, Organophosphate, Resistance     

Fine Structure and Life Cycle of Lankesteria clarki sp. n. (Sporozoa: Eugregarinida) Parasitic in the Mosquito Aedes sierrensis (Ludlow)

Lankesteria clarki sp. n. from the treehole mosquito, Aedes sierrensis (Ludlow) in California, is described. This species can be separated from the closely related ones, L. culicis (Ross) and L. barretti Vávra, by the totally intracellular nature of the trophozoite, the shape of the gamont, the position of the gamont nucleus and the structure and position of the residual body in the spore. Morphologic and ultrastructural investigations of gametogenesis and sporogony were conducted and the host relationship discussed. Lankesteria clarki was found in mosquitoes collected from all treeholes examined near Novato in Marin County, California and an examination of over 6,000 larvae of A. sierrensis showed an infection rate of 27.5%. The parasite is capable of destroying the midgut epithelial cells during its trophic stage and Malpighian tubule cells during gametogenesis and sporogony.     

Morphometric changes associated with sex and development in the Malpighian tubules of Aedes aegypti

The Malpighian tubules of Aedes aegypti showed significant differences in their diameters between male and female larvae, male and female pupae, male larvae and male adults and male pupae and male adults. In every case, female values were greater than in males. Measurements of mean nuclear areas of the principal and stellate cells from Malpighian tubules, taken in males and females during development, showed that this parameter in both types of cell was significantly greater in females than in male larvae, pupae and adult stages. In males, significant differences between developmental stages were observed only in comparison with the nuclear area of larvae and adults in the principal cells, but in females, every comparison between stages showed significant differences except between pupae and adults in stellate cells. The frequency distribution of nuclear area values, in development, for male stellate and principal cells, were mostly concentrated in the first seven classes among the 30 classes considered in every stage, while for females, the frequency dropped drastically in the same classes from larvae to pupae and adults, moving to classes of higher values. Considering the importance of Malpighian tubules in insect physiology, the meaning of the differences detected are discussed on the basis of different metabolic levels, between sexes and developmental stages.     

Ultrastructure of osmoregulatory organs in larvae of the brackish-water mosquito,Culiseta inornata (Williston)

The ultrastructure of the Malpighian tubules, ileum, rectum, anal canal, and anal papillae of larvae of the mosquito Culiseta inornata was examined. The Malpighian tubules, rectum, and anal papillae have many of the ultrastructural features characteristic of ion transport tissues, i.e., elaboration of the basal and apical membranes and a close association of these membranes with mitochondria. The Malpighian tubules possess two cell types, primary and stellate. The larval rectum of C. inornata is composed of a single segment containing a homogenous population of cells. In this respect, the larval rectum of C. inornata is distinct from that of saline-water species of Aedes. The cells in the larval rectum of C. inornata, however, closely resemble those of one cell type, the anterior rectal cells, of the saline-water mosquito Aedes campestris with regard to cell and nuclear size, the percentage of the cell occupied by apical folds, and mitochondrial density and distribution. No similarities can be found between the rectum of C. inornata and the posterior segment of the saline-water Aedes, which functions as a salt gland. On this basis, we have postulated that the rectum of C. inornata does not function as a site of hyperosmotic fluid secretion. The ultrastructure of the anal papillae of C. inornata is consistent with a role in ion transport. The significance of these findings to comparative aspects of osmoregulatory strategies in mosquito larvae is discussed.     

Ultrastructure of the malpighian tubules of Onymacris plana plana peringuey (Coleoptera : Tenebrionidae)

The structure of the free segment of the malpighian tubules of Onymacris plana plana Peringuey (Coleoptera : Tenebrionidae) has been examined to complement observations on tubule activity (Nicolson and Hanrahan, 1986). O. plana lives in arid conditions in the Namib desert and may be subject to periods of desiccation and to fogs when humidity is high. Cell structure of malpighian tubules from the following were examined; beetles from the field, beetles kept in humid and arid laboratory conditions, in vitro tubule preparations treated with substances such as CAMP and corpora cardiaca extract. The free segment is composed of a longer yellow distal region and a shorter colourless proximal region. Type 1 and Type 2 cells were present in the distal region, the latter being few in number, irregular in shape, and relatively small. Type 1 cells varied in appearance when the tubules were exposed to different conditions. Laminate spheres were common in these cells when the beetles had been desiccated, either under laboratory or field conditions. Few were present in the tubules of insects kept in water balance. Exposure to dilute Ringer or cAMP caused the channels between the basal infoldings to widen. Exposure to extracts of brain or corpora cardiaca containing diuretic hormone did not have this effect. In dehydrated beetles, the laminate spheres did not disappear when the tubules were treated with diuretic hormone. Type 1 cell structure is influenced by the conditions that the beetle experiences.     

The effects of various carbohydrate diets on Aedes aegypti infected with Dirofilaria immitis.

Aedes aegypti infected with Dirofilaria immitis and uninfected mosquitoes were maintained on various carbohydrate diets (glucose, galactose, fructose, sucrose, trehalose, maltose, and melibiose). The value of each of these sugars in supporting survival of adult A. aegypti, and in supporting egg production, viability of eggs, and development of third-stage larvae of D. immitis in A. aegypti was analyzed. Fructose, glucose, maltose, sucrose, and trehalose provided the strongest support for survival of adult male, and infected and uninfected adult female A. aegypti. Galactose and melibiose provided the least support for survival of all groups of mosquitoes. The mean number of eggs laid per uninfected adult female A. aegypti was greatest when mosquitoes were maintained on glucose, melibiose, maltose, fructose, sucrose, and trehalose. The same was true for female mosquitoes infected with D. immitis; except for melibiose which provided poor support for egg production. In both Dirofilaria-infected and in uninfected mosquitoes, galactose supported the production of low mean numbers of eggs per adult female A. aegypti. High percentages of eggs laid by uninfected and by infected female mosquitoes fed glucose, melibiose, maltose, sucrose, and trehalose hatched. While galactose supported a high percentage of hatching in eggs laid by uninfected A. aegypti, a much lower percentage of eggs laid by infected female mosquitoes maintained on this same carbohydrate hatched. The lowest percentages of eggs that hatched were from among those laid by infected and by uninfected females fed fructose. The highest mean number of D. immitis larvae (L₃) were recovered from adult A. aegypti fed glucose, maltose, fructose, and sucrose; the second best sugar in this regard was trehalose. The lowest mean number of D. immitis larvae were isolated from female A. aegypti fed galactose and melibiose.     

Tolypocladium cylindrosporum [Deuteromycetes,Moniliaceae] a new pathogen of mosquito larvae

Tolypocladium cylindrosporum Gams isolated fromAedes australis Erichson in New Zealand, and another strain isolated from soil in Czechoslovakia have shown pathogenicity for larvae of mosquitoes. The infection was transmited with conidia suspended in water and hyphae entered the body of larvae from the midgut. First symptoms of the infection appear 5 days after infection; in 7 days all exposed larvae were killed. Pupae and adult mosquitoes were not infected. Both strains grow and sporulate well on Sabouraud's agar. Somme morphological data show the variability of hyphae, conidiophores and conidia.     

Consequences of the introduction of the planarian Girardia anceps (Tricladida: Dugesiidae) in artificial containers with larvae of the mosquitoes Aedes aegypti and Culex pipiens (Diptera: Culicidae) from Argentina

Aedes aegypti and Culex pipiens are container-dwelling mosquito species that are vectors of important diseases to man, such as dengue and lymphatic filariasis, respectively. Predators of these pests are an interesting alternative to be incorporated to biological control measures. We tested the consequences of introducing individuals of Girardia anceps, a native freshwater flatworm species, within artificial water containers where larvae of these mosquitoes thrive. Our goals were to ascertain if mosquito species, density of larvae (high or low), type of water container (tires or ovitraps), and presence or absence of planarians affected mosquito survivorship (measured as number of individuals reaching the pupa stage) in manipulated artificial containers. Furthermore, we monitored ovitraps in the field along several months in order to explore the long-term effect of the presence of planarian on the colonization of these containers by feral mosquitoes under natural conditions. We found that the presence of planarians reduced the number of mosquitoes reaching pupation and that such reduction depends on the initial density of larvae. Reduction of populations of A. aegypti was high along the breeding season of this mosquito, being the effect less evident in C. pipiens. G. anceps could be an agent of control against container-breeding mosquitoes if its release in small water containers is complemented with other suitable management strategies.     

Physiological basis of host susceptibility of Florida mosquitoes to Dirofilaria immitis.

Young females of seven species of Florida mosquitoes were fed a meal of dog blood infected with Dirofilaria immitis to repletion to study the physiological mechanisms which control susceptibility and resistance in these mosquitoes. Various species of mosquitoes showed different grades of susceptibility. In all mosquitoes, microfilariae reached the midgut immediately after ingestion. Their movement from midgut to the specific host tissue—the Malpighian tubules—was either facilitated or inhibited depending on the presence or absence of anticoagulins in the salivary glands of these mosquitoes. In Anopheles quadrimaculatus, Aedes taeniorhynchus, and Aedes sollicitans, microfilariae move freely from the midgut to the Malpighian tubules, because of the presence of substantial amounts of anticoagulins in their salivary glands, and 30 to 60 mf/female developed normally to an infective stage. Very few microfilariae reached the tubules of Mansonia titillans as most of them were defaecated within a very short time after ingestion. In Aedes aegypti, Culex nigripalpus, and Culex pipiens quinquefasciatus movement of microfilariae from the midgut to the Malpighian tubules was obstructed by the coagulation of blood soon after ingestion. Coagulation of blood was followed by formation of oxyhaemoglobin crystals in C. nigripalpus and C. p. quinquefasciatus. It is suggested that secretions from symbiotic bacteria in the midgut of these mosquitoes lyse ingested red blood cells, and the released haemoglobin is oxidized to oxyhaemoglobin crystals which hinder the further movement of microfilariae and kill them.Microfilariae developed normally in A. quadrimaculatus, thus making them potentially the most susceptible mosquitoes, even though these mosquitoes did not survive to be effective potential vectors. A few microfilariae or their later developmental stages were melanized in the tubules of most A. sollicitans and A. taeniorhynchus, but the numbers of melanized stages were too few to affect the vectoring potentials of these species. In 20 per cent of A. sollicitans, 60 per cent of M. titillans, and ca. 80 per cent A. aegypti substantial numbers of the microfilariae after reaching the Malpighian tubules did not advance beyond the prelarval stage, and very few microfilariae developed successfully in the remaining mosquitoes. Very few microfilariae reached the Malpighian tubules of a small percentage of C. nigripalpus and C. p. quinquefasciatus and developed normally. The vectoring potentials of A. sollicitans, M. titillans, A. aegypti, and both Culex species were greatly hampered. These studies suggested that host-specificity of mosquitoes to D. immitis infection is controlled by the presence or absence of secondary physiological factors in their digestive tracts or in the Malpighian tubules.     

Localization and role of inward rectifier K+ channels in Malpighian tubules of the yellow fever mosquito Aedes aegypti

Malpighian tubules of adult female yellow fever mosquitoes Aedes aegypti express three inward rectifier K⁺ (Kir) channel subunits: AeKir1, AeKir2B and AeKir3. Here we 1) elucidate the cellular and membrane localization of these three channels in the Malpighian tubules, and 2) characterize the effects of small molecule inhibitors of AeKir1 and AeKir2B channels (VU compounds) on the transepithelial secretion of fluid and electrolytes and the electrophysiology of isolated Malpighian tubules. Using subunit-specific antibodies, we found that AeKir1 and AeKir2B localize exclusively to the basolateral membranes of stellate cells and principal cells, respectively; AeKir3 localizes within intracellular compartments of both principal and stellate cells. In isolated tubules bathed in a Ringer solution containing 34 mM K⁺, the peritubular application of VU590 (10 μM), a selective inhibitor of AeKir1, inhibited transepithelial fluid secretion 120 min later. The inhibition brings rates of transepithelial KCl and fluid secretion to 54% of the control without a change in transepithelial NaCl secretion. VU590 had no effect on the basolateral membrane voltage (V_bl) of principal cells, but it significantly reduced the cell input conductance (g_in) to values 63% of the control within ∼90 min. In contrast, the peritubular application of VU625 (10 μM), an inhibitor of both AeKir1 and AeKir2B, started to inhibit transepithelial fluid secretion as early as 60 min later. At 120 min after treatment, VU625 was more efficacious than VU590, inhibiting transepithelial KCl and fluid secretion to ∼35% of the control without a change in transepithelial NaCl secretion. Moreover, VU625 caused the V_bl and g_in of principal cells to respectively drop to values 62% and 56% of the control values within only ∼30 min. Comparing the effects of VU590 with those of VU625 allowed us to estimate that AeKir1 and AeKir2B respectively contribute to 46% and 20% of the transepithelial K⁺ secretion when the tubules are bathed in a Ringer solution containing 34 mM K⁺. Thus, we uncover an important role of AeKir1 and stellate cells in transepithelial K⁺ transport under conditions of peritubular K⁺ challenge. The physiological role of AeKir3 in intracellular membranes of both stellate and principal cells remains to be determined.     

The ultrastructure of the larval malpighian tubules of a saline-water mosquito

The larval Malpighian tubules of the saline-water mosquito Aedes taeniorhynchus were examined using light and electron microscopy. The tubules contain two cell types: primary cells and stellate cells. Primary cells are characterized by their size (70 μm × 70 μm × 10 μm) and an abundance of intracellular membranebound crystals. Two types of microvilli are found on the luminal surface of the primary cells: (1) small microvilli containing core microfilaments and extensions of endoplasmic reticulum, and (2) larger microvilli (≈3 μm in length) which in addition to the above components contain a mitochondrion along their entire length. Both microvillar types have abundant knobs lining the cytoplasmic surface of the microvillar membrane. These knobs, which are often found in insect ion transporting tissues, have been termed ‘portasomes’ by Harvey (1980). The possible role of these structures in ion transport and mitochondrial positioning is discussed. The stellate cells are much smaller than the primary cells, and lack intracellular crystals. Their microvilli are smaller as well (≈0.6 μm in length) and contain no endoplasmic reticulum. mitochondria or knobs. The cells types found in the saline-water mosquito larva, Aedes taeniorhynchus, are identical to those found in Aedes aegypti, indicating that the unique capacity of saline-water mosquito larvae to transport Mg²⁺ and SO₄|post|staggered|2− is not associated with the presence of an additional cell type.     

Francisella tularensis Subspecies holarctica Occurs in Swedish Mosquitoes,Persists Through the Developmental Stages of Laboratory-Infected Mosquitoes and Is Transmissible During Blood Feeding

In Sweden, mosquitoes are considered the major vectors of the bacterium Francisella tularensis subsp. holarctica, which causes tularaemia. The aim of this study was to investigate whether mosquitoes acquire the bacterium as aquatic larvae and transmit the disease as adults. Mosquitoes sampled in a Swedish area where tularaemia is endemic (Örebro) were positive for the presence of F. tularensis deoxyribonucleic acid throughout the summer. Presence of the clinically relevant F. tularensis subsp. holarctica was confirmed in 11 out of the 14 mosquito species sampled. Experiments performed using laboratory-reared Aedes aegypti confirmed that F. tularensis subsp. holarctica was transstadially maintained from orally infected larvae to adult mosquitoes and that 25 % of the adults exposed as larvae were positive for the presence of F. tularensis-specific sequences for at least 2 weeks. In addition, we found that F. tularensis subsp. holarctica was transmitted to 58 % of the adult mosquitoes feeding on diseased mice. In a small-scale in vivo transmission experiment with F. tularensis subsp. holarctica-positive adult mosquitoes and susceptible mice, none of the animals developed tularaemia. However, we confirmed that there was transmission of the bacterium to blood vials by mosquitoes that had been exposed to the bacterium in the larval stage. Taken together, these results provide evidence that mosquitoes play a role in disease transmission in part of Sweden where tularaemia recurs.     

Phosphoribosylation of xanthine by extracts from insect cells

Using a sensitive TLC method, we have detected the production of xanthine monophosphate (XMP) from [¹⁴C]xanthine by mosquito cell extracts incubated in the presence of phosphoribosyl pyrophosphate and a phosphatase inhibitor. Extracts from both cultured Aedes albopictus cells, and from intact Aedes aegypti mosquitoes contained activity; particularly high activity was found in extracts from adult male mosquitoes. XMP-producing activity was at least 4-fold higher in extracts from cultured mosquito cells than in extracts from Drosophila melanogaster Kc cells or Spodoptera frugiperda (Lepidoptera) cells.