Browsing by Author "Kittayapong, P."

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Diversity of Wolbachia infections in Sri Lankan mosquitoes with a new record of Wolbachia supergroup B infecting Aedes aegypti vector populations
(Nature Publishing Group, 2024) Wijegunawardana, N.D.A.D.; Gunawardene, Y.I.N.S; Abeyewickreme, W.; Chandrasena, T.G.A.N.; Thayanukul, P.; Kittayapong, P.
Wolbachia bacteria are common endosymbionts of insects and have recently been applied for controlling arboviral vectors, especially Aedes aegypti mosquito populations. However, several medically important mosquito species in Sri Lanka were present with limited information for the Wolbachia infection status. Therefore, the screening of Wolbachia in indigenous mosquitoes is required prior to a successful application of Wolbachia-based vector control strategy. In this study, screening of 78 mosquito species collected from various parts of the country revealed that 13 species were positive for Wolbachia infection, giving ~ 17% infection frequency of Wolbachia among the Sri Lankan mosquitoes. Twelve Wolbachia-positive mosquito species were selected for downstream Wolbachia strain genotyping using Multi Locus Sequencing Type (MLST), wsp gene, and 16S rRNA gene-based approaches. Results showed that these Wolbachia strains clustered together with the present Wolbachia phylogeny of world mosquito populations with some variations. Almost 90% of the mosquito populations were infected with supergroup B while the remaining were infected with supergroup A. A new record of Wolbachia supergroup B infection in Ae. aegypti, the main vectors of dengue, was highlighted. This finding was further confirmed by real-time qPCR, revealing Wolbachia density variations between Ae. aegypti and Ae. albopictus (p = 0.001), and between males and females (p < 0.05). The evidence of natural Wolbachia infections in Ae. aegypti populations in Sri Lanka is an extremely rare incident that has the potential to be used for arboviral vector control.
Estimating dengue vector abundance in the wet and dry season: implications for targeted vector control in urban and peri-urban Asia
(Maney Publishing, 2012) Wai, K.T.; Arunachalam, N.; Tana, S.; Espino, F.; Kittayapong, P.; Abeyewickreme, W.; Hapangama, D.; Tyagi, B.K.; Htun, P.T.; Koyadun, S.; Kroeger, A.; Sommerfeld, J.; Petzold, M.
BACKGROUND: Research has shown that the classical Stegomyia indices (or "larval indices") of the dengue vector Aedes aegypti reflect the absence or presence of the vector but do not provide accurate measures of adult mosquito density. In contrast, pupal indices as collected in pupal productivity surveys are a much better proxy indicator for adult vector abundance. However, it is unknown when it is most optimal to conduct pupal productivity surveys, in the wet or in the dry season or in both, to inform control services about the most productive water container types and if this pattern varies among different ecological settings. METHODS: A multi-country study in randomly selected twelve to twenty urban and peri-urban neighborhoods ("clusters") of six Asian countries, in which all water holding containers were examined for larvae and pupae of Aedes aegypti during the dry season and the wet season and their productivity was characterized by water container types. In addition, meteorological data and information on reported dengue cases were collected.FINDINGS: The study reconfirmed the association between rainfall and dengue cases ("dengue season") and underlined the importance of determining through pupal productivity surveys the "most productive containers types", responsible for the majority (>70%) of adult dengue vectors. The variety of productive container types was greater during the wet than during the dry season, but included practically all container types productive in the dry season. Container types producing pupae were usually different from those infested by larvae indicating that containers with larval infestations do not necessarily foster pupal development and thus the production of adult Aedes mosquitoes. CONCLUSION: Pupal productivity surveys conducted during the wet season will identify almost all of the most productive container types for both the dry and wet seasons and will therefore facilitate cost-effective targeted interventions.
Maternal transformation of Wolbachia isolated from infected mosquito hosts to Aedes aegypti using micro-injection based procedure: an approach towards integrated dengue vector control
(Moleclar Medicine Unit, Faculty of Medicine, University of Kelaniya, Sri Lanka, 2015) Wijegunawardana, N.D.A.D.; Gunawardene, Y.I.N.S.; Chandrasena, T.G.A.N.; Dassanayake, R.S.; Ruanareerate, T.; Kittayapong, P.; Abeyewickreme, W.
BACKGROUND: The maternal transformation of Wolbachia (Wb) to Aedes mosquitoes is an approach that has been widely used in Aedes mosquito population control strategies in the integrated dengue vector control efforts. This study details usage of such approach in the maternal transformation of Aedes aegypti using the Wb isolated from infected mosquito hosts using micro-injection based procedure for the first time in Sri Lanka. METHODS: Twenty five ovaries of each adult female Aedes albopictus and Culex quinquifaciatus mosquitoes (14-18 days old) were dissected and Wb was isolated and suspended in 20 μl of 1X Phosphate Buffered Saline (PBS). The isolated samples were kept on ice to maximize the bacteria viability. The exudate was then used in the trans-infection of Ae. aegypti mosquitoes. Infection of Wb into the mosquito Ae. aegypti was carried out by maternal/adult microinjection. To create stable trans-infected lines, the regions near the 3rd leg emerged from the thorax of Ae. aegypti were microinjected to incorporate Wb into the developing germ line and then to facilitate the transmission of Wb to offspring. The volume used for injection based on the swelling of the abdomen, which was monitored throughout the experiment while maintaining the injection pressure, time and number of injecting times. Virgin female Aedes mosquitoes survived after microinjection was fed with 1 ml of 10% sugar solution containing 10,000 units Penicillin/Streptomycin per 100 ml. Survival rate was monitored at 1, 3 and 24 hour/s following microinjection procedure. Survived female mosquitoes resulted from injected line (generation 0 [G0]) was placed in vials with three uninfected male mosquitoes to establish iso-female lines. After egg laying 3 times, G0 females were sacrificed and total DNA was extracted, and PCR was carried out (wsp primers 81F and 691R) using DNA extracted from Ae. aegypti to detect the presence of Wb DNA and its density in the latter mosquito using dilution series of extracted DNA. To select for a stable infection, only offspring from females that came positive for Wb by PCR screening was used as parental stocks. For the samples positive by wsp PCR, strain identification was carried out by performing PCR with 4 different primer sets; wPip, wAlbA, wAlbB and wsp specific for Wb. Females that tested negative for Wb were discarded along with their progeny. The resulting triple infected line will be monitored periodically by PCR to confirm infection status. RESULTS: Wolbachia-triple infected line of Ae. aegypti mosquito was created by using isolated wAlbA+wAlbB+wPip Wolbachia strains. Infection status of newly developed line was monitored by PCR up to G2 and will be continued to G8. Experimental work will be started from G5 to evaluate the use of newly develop Ae. aegypti mosquito line for Wb-based approach under laboratory condition. CONCLUSION: Direct maternal micro-injection technique was used to create Wb infected mosquito line of Ae aegypti, which could be applied in Wb-based dengue vector control activities in Sri Lanka once the line is established.