MEM INST OSWALDO CRUZ, RIO DE JANEIRO, 104(1) February 2009
PAGES: 43-47 DOI: S0074-02762009000100007 Full paper
Effect of the chitin synthesis inhibitor triflumuron on the development, viability and reproduction of Aedes aegypti

Thiago Affonso BelinatoI, II; Ademir Jesus MartinsI, II; José Bento Pereira LimaI, II; Tamara Nunes de Lima-CamaraIII; Alexandre Afrânio PeixotoIII; Denise ValleI, II, +

ILaboratório de Fisiologia e Controle de Artrópodes Vetores
IILaboratório de Entomologia, Instituto de Biologia do Exército, Rio de Janeiro, RJ, Brasil
IIILaboratório de Biologia Molecular de Insetos Instituto Oswaldo Cruz-Fiocruz, Av. Brasil 4365, 21045-900 Rio de Janeiro, RJ, Brasil

Abstract

The control of Aedes aegypti is impaired due to the development of resistance to chemical insecticides. Insect Growth Regulators (IGR) exhibit distinct mechanisms of action and are considered potential vector control alternatives. Studies regarding the effects of sublethal IGR doses on the viability of resulting adults will contribute to eval-uating their impact in the field. We analyzed several aspects of Ae. aegypti adults surviving exposure to a partially lethal dose of triflumuron, a chitin synthesis inhibitor. A highly significant difference in the proportion of males and females was noted in the triflumuron-exposed group (65.0% males) compared to the controls (50.2% males). Triflumuron affected adult longevity, particularly for females; after 16 days, only 29.2% of males and 13.8% of females were alive, in contrast with 94% survival of the control mosquitoes. The locomotor activity was reduced and the blood-feeding ability of the treated females was also affected (90.4% and 48.4% of the control and triflumuron-exposed females, respectively, successfully ingested blood). Triflumuron-surviving females ingested roughly 30% less blood and laid 25% fewer eggs than the control females. The treated males and females exhibited a diminished ability to copulate, resulting in less viable eggs.

The mosquito Aedes aegypti, widely distributed in tropical and subtropical regions, is highly adapted to the urban environment. It is frequently found inside or near houses and it plays an important role in the transmission of arboviruses such as dengue and urban yellow fever (Consoli & Lourenço-de-Oliveira 1994, Gubler 2002).

Currently, Ae. aegypti control is mainly performed with chemical larvicides that target the insect's central nervous system. However, the long history of insecticide use has led to the development of resistant populations all over the world. In this sense, the study of novel tools to control Ae. aegypti and other insects of medical importance is a major area of interest (Zaim & Guillet 2002).

An alternative vector control approach is the use of compounds with distinct mechanisms of action and target sites, like the Insect Growth Regulators (IGR). These include the juvenile hormone analogues, the ecdysone agonists and the chitin synthesis inhibitors (CSIs) (Graf 1993, Tunaz & Uygun 2004).

CSIs are benzoylphenylurea compounds discovered in the 1970s (Mian & Mula 1982) that interfere with insect development, disturbing the moult and resulting in deformations in the cuticle (Reynolds 1987). These alterations occur due to CSI interference in chitin synthesis, diminishing the amount of this polymer in the insect cuticle (Ishaaya & Casida 1974, Post et al. 1974). Additionally, adults deriving from CSI-exposed larvae can exhibit a series of physiological constraints that ultimately lead to diminished physical and reproductive fitness (Mondal & Parween 2000). These CSI effects vary according to the species, the developmental stage at the time of application, the kind of compound and the administered dose (Vasuki & Rajavel 1992, Wilson & Cryan 1997, Mulla et al. 2003). Although several reports in the literature explore the direct effects of CSIs, such as mortality or adult emergence inhibition (Rehini & Soltani 1999, Su et al. 2003, Batra et al. 2005), the consequences of IGR use on the surviving adults and their implications in vector fitness are less considered, especially among Culicidae (Vasuki 1992, 1999, Vasuki & Rajavel 1992).

Ae. aegypti is a domestic mosquito whose breeding sites (mostly water storage units for human use) are subjected to frequent volume variations, resulting in a decrease of the insecticide residual effect. In this sense, detailed studies of the effects of sublethal CSI doses on the viability of resulting adults will contribute to evaluating their impact in the field.

We previously confirmed the effectiveness of triflumuron against field Ae. aegypti populations, including one strain resistant to the organophosphate temephos (Martins et al. 2008). In the present study, we evaluated the effects of exposing Ae. aegypti larvae to a partially lethal dose of the CSI triflumuron on the resulting adults. Several parameters were investigated, including the proportion of surviving males and females, adult longevity and activity, blood feeding, mating and viability of the eggs.

 

MATERIALS AND METHODS

Mosquitoes - Mosquitoes from the Rockefeller strain, an insecticide-susceptible reference lineage, were used in all assays. Rearing conditions were performed at 25 ± 1ºC and 80% rh following standard procedures (Braga et al. 2005).

Bioassays - Starycide SC 0.48® (Bayer) was employed to prepare a stock solution of triflumuron at 48 µg/mL in DMSO (dimethyl sulfoxide) and aliquots were stored at -80°C. Working solutions were prepared in dechlorinated water. Transparent plastic cups with groups of 10 L3 larvae were exposed to 150 mL of 0.7-0.9 µg/L triflumuron solution, concentrations close to the EI50 dose (Martins et al. 2008). One milliliter of a 2.5% (w/v) solution of ground cat food (Friskies®, Purina, Camaquã/RS) was supplied once. Control larvae were exposed to the same DMSO volume used in the triflumuron samples (2 µL). Dead specimens and resulting adults were collected daily. Each bioassay was composed of eight experimental and three control cups, with each cup containing 10 larvae.

Male/female rate - Newly emerged adults surviving triflumuron exposure were removed daily and the numbers of males and females from both the experimental and control conditions were scored. The resulting adults were used for longevity and reproduction assays.

Longevity - Pools of 15 females and 15 males, derived from triflumuron-exposed or control larvae, were placed in small carton cages (8.5 cm diameter x 8.5 cm high) and fed continuously with a 10% sucrose solution. Mortality was registered daily over 16 days. Each assay was composed of three experimental and three control cages.

Activity - The activity pattern of triflumuron-surviving and control Ae. aegypti females was evaluated with a Locomotor Activity Monitor (TriKinetics) (Gentile et al. 2006). Two-day old mosquitoes were individually placed in glass tubes with a cotton plug soaked in 10% sucrose solution and the tubes were placed in the Monitor inside a Precision Scientific Incubator Mod. 818 under constant temperature (25°C) and a 12 h light: 12 h dark photoperiod (LD 12:12). The locomotor activity was individually registered every time a mosquito crossed the middle of the tube, interrupting an incident infrared light. For every mosquito, 48 data points (representing the total locomotor activity of 30 min intervals) were obtained for every day of monitoring. Only data from mosquitoes that were alive for the first three days of monitoring were considered for the analysis, which was performed through calculation of the Williams mean of their activity. This assay was performed twice.

Blood feeding - Three-day old adult females were exposed to an anesthetized guinea pig for 30 min. The number of females that successfully engorged was registered for both the experimental and control groups. In order to quantify the amount of ingested blood, distinct groups of 10 experimental or control mosquitoes were weighed in an analytic balance (APX-200, Denver Instrument) before or after the blood meal. The amount of ingested blood was calculated by subtraction of these mean values.

Egglaying - Egglaying was induced in individual females three days after the blood meal, according to the procedure adapted from Valencia et al. (1996), using inverted Petri dishes, at 26°C, with a wet filter paper at the lid. The numbers of successful egglaying females and of eggs per female were investigated, as well as the viability of the eggs.

Rate of inseminated females - Individual couples formed from (1) triflumuron-surviving females and control males or, reciprocally, (2) triflumuron surviving-males and control females, (3) triflumuron-surviving males and females and (4) control males and females were placed in 50 mL transparent plastic tubes. Males and females were obtained from pupae reared individually, in order to assure that virgin females would be used. After three days, female spermathecae were dissected and sperm presence was observed with an optic microscope (Nikon Biophot, 200X).

Statistical analysis - Unless stated, each parameter was evaluated in replicates and repeated three times. Triflumuron-surviving and control groups were compared by t test or ?2 analysis as indicated, using GraphPad Prism version 4.00 for Windows (GraphPad Software, San Diego California USA, www.graphpad.com).

 

RESULTS

Several bioassays were performed to accomplish the analysis shown here. From a total of 12,000 experimental specimens exposed to triflumuron, 43.6% adult emergence was obtained. A delay in larvae development was not noted in the experimental group, when compared to controls; in both cases, adult emergence took 5-7 days after the onset of the assays. On the other hand, several alterations in aspects related to viability and reproduction were noted in the experimental group, as follows.

Viability aspects - In the control group, equivalent rates of males (50.2 ± 4.1%) and females were obtained, while males accounted for 65.0% ± 7.6% of the triflumuron-surviving adults, a highly significant difference between both sexes (?20.05,1 = 75.82; p < 0.0001). This re-presents male/female proportions of 1.01 and 1.86 in the control and experimental groups, respectively.

Fig. 1 shows the daily mortality of males and females from the control and experimental groups up to 16 days after adult emergence. In opposition to the control group, with total mortality below 6% for both males and females during this period, triflumuron survivors exhibited a reduced longevity. Moreover, females were more affected than males; after 16 days, the rate of surviving males (29.2%) was twice that of females (13.8%).

 

 

Ae. aegypti adults show diurnal habits, with peaks of activity at the beginning and at the end of the photophase. Their pattern of activity was not altered by triflumuron exposure. However, the intensity of activity was significantly reduced on photophase (t0.05 (2),139; p < 0.05), as exemplified in Fig. 2.

 

 

The ability to ingest blood and the feeding rate were significantly altered in CSI-surviving females; while 90.4% (85/94) of control females accepted the blood meal, this rate decreased to 48.4% (77/159) for triflumuron-exposed females (?20.05,1 = 9.44; p < 0.005). Moreover, the control and triflumuron-surviving females ingested, respectively, 2.57 ± 0.58 and 1.79 ± 0.28 times their weight in blood, which also shows a significant difference (t0.05(1),17; p < 0.05). In spite of this, the weights of non-blood-fed control (7.37 ± 0.66 µg) and triflumuron-surviving (7.71 ± 1.02 µg) females after adult emergence were equivalent.

Reproduction aspects - Table I summarises the oviposition data of the control and triflumuron-exposed females. Approximately 10% of the experimental blood-fed females died up to 24 h after blood feeding and an even higher mortality (35%) was observed after egglaying. The number of eggs per female was also significantly different in both groups (t0.05 (2),222; p < 0.0001).

Among the triflumuron-surviving females that accomplished oviposition, 14.4% presented eggs that broke when immersed in water (Fig. 3). Spermathecae dissection revealed that these females had not been inseminated. On the other hand, no significant difference was noted in the viability of eggs derived from triflumuron-treated females that had effectively been inseminated (96.3% ± 1.2%) compared to those from control females (97.5% ± 1.0%).

 

 

In order to verify if triflumuron preferentially interferes with the reproductive ability of one sex, individual matings with one control partner and one triflumuron survivor were performed. Although 75 couples were formed for each condition, at the end of three days one or both partners from several couples had died (Table II). When the surviving couples were considered, a reduction in the rate of inseminated females was noted in all groups bearing at least one triflumuron-treated mate (Table II). There was no significant difference (?2, p > 0.05) among the three groups of couples containing at least one treated individual, but significant differences were noted when any of them was compared to the group of couples formed by non-treated individuals (?2, p < 0.05).

 

 

DISCUSSION

Our data indicate that the exposure of Ae. aegypti larvae to sublethal doses of the CSI triflumuron results in adult mosquitoes affected in several aspects of their viability and reproductive ability.

Disequilibrium in the proportion of males and females was observed after treatment with triflumuron at the EI50. The smaller proportion of females was attributed to their slower developmental kinetics when compared to males (Clements 1992). As a consequence, females would be exposed to the CSI for a longer period of time in the larval stage. The exposure of the Coleoptera Tribolium confusum to triflumuron also resulted in a greater proportion of males (3:1) (El-Sayed et al. 1984).

Adult longevity was highly reduced in the triflumuron-treated specimens. Females were more severely affected than males, probably due to their longer period of contact with the CSI during the larval stage, as mentioned above. In contrast, treatment with the CSI hexaflumuron resulted in a drastic but equivalent reduction in the longevity of males and females of Culex quinquefasciatus, Anopheles stephensi and Ae. aegypti (Vasuki 1992), suggesting subtle variations among different CSIs. Triflumuron diminished the longevity of the triatomine Rhodnius prolixus when administered by contact, blood ingestion or injection (Mello et al. 2008). The coleoptera Tenebrio molitor exposed to the CSI diflubenzuron also exhibited reduced longevity (Soltani et al. 1983).

Triflumuron also reduced Ae. aegypti activity. Many triflumuron-surviving adults had structural abnormalities, such as deformed wings or easily broken legs, which could account for this reduced activity (Fig. 4). There are reports of structural defects produced by treatment with CSI in several insect orders (Demark & Bennet 1989, Wilson & Cryan 1997, Da-Silva et al. 2004). Vasuki and Rajavel (1992) observed that treatment of the mosquitoes Cx. quinquefasciatus, Ae. aegypti and An. stephensi with a CSI resulted in several visible abnormalities that could hamper locomotion and that were probably related to the reduced longevity of adults. Accordingly, Amir and Peveling (2004) verified that triflumuron-exposed Apis mellifera specimens exhibited a lower flight activity.

 

 

Triflumuron treatment interfered with the blood-feeding ability of the surviving females; both the number of blood-fed females and the amount of ingested blood were reduced in the triflumuron-treated individuals. The same result was reported by Vasuki (1999) with other Culicidae species after treatment with the CSI hexaflumuron. In contrast to this author, we observed mortality after egglaying in a high proportion of females, probably due to their greater weakness.

Since the triflumuron-treated females ingested less blood, it was expected that the oviposition of triflumuron-surviving females would be reduced. This was effectively the case: these females laid roughly 25% fewer eggs than the control females, which is a rate compatible with the 30% reduction in the amount of blood ingested by the triflumuron-exposed group. A reduction in the oviposition of CSI-treated females of different insect orders has already been reported (Miura et al. 1976, Wilson & Cryan 1997, Sáenz-de-Cabezón et al. 2006). However, Arias and Mulla (1975) did not detect any significant decrease in the amount of eggs laid by Culex tarsalis females treated with diflubenzuron. The number of eggs laid by methoprene-surviving Ae. aegypti females was also equivalent to the control group (Braga et al. 2005).

Eggs from a portion of the triflumuron-surviving females cracked when immersed in water (Fig. 3). Observation of the spermathecae from these females confirmed the absence of insemination. Crosses between control and triflumuron-surviving adults revealed interference with both sexes.

Our results indicate that CSIs are a viable alternative for the control of Ae. aegypti. Beyond their effectiveness against larvae (Martins et al. 2008), surviving adults exhibit a series of physiological constraints that reduce their longevity and reproductive ability. Hence, CSI survivors are expected to have a reduced vectorial capacity, whereby they are less competent in the transmission of pathogens. Furthermore, the current need for environmentally safer technologies requires the development of insecticides with more selective target sites and with a reduced risk level to non-target organisms. It has already been verified that some CSI compounds have little or no effect on mammals, birds and aquatic invertebrates (Mian & Mulla 1982). Ecotoxicity studies with triflumuron are required before it can be utilised against insect vectors of medical importance.

 

ACKNOWLEDGEMENTS

To Diego de Lacerda Rosa, Nathalia Giglio Fontoura and Diogo Fernandes Bellinato, for technical assistance, to Genilton Vieira, for picture shown in Fig. 4, and to BayerCropscience, for the triflumuron sample.

 

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Received 5 September 2008
Accepted 11 December 2008
Financial support: CNPq, FAPERJ, FIOCRUZ, SVS-MS

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