Molecular phylogeny of heritable symbionts and microbiota diversity analysis in phlebotominae sand flies and Culex nigripalpus from Colombia.

BACKGROUND: Secondary symbionts of insects include a range of bacteria and fungi that perform various functional roles on their hosts, such as fitness, tolerance to heat stress, susceptibility to insecticides and effects on reproduction. These endosymbionts could have the potential to shape microbial communites and high potential to develop strategies for mosquito-borne disease control. METHODOLOGY/PRINCIPAL FINDINGS: The relative frequency and molecular phylogeny of Wolbachia, Microsporidia and Cardinium were determined of phlebotomine sand flies and mosquitoes in two regions from Colombia. Illumina Miseq using the 16S rRNA gene as a biomarker was conducted to examine the microbiota. Different percentages of natural infection by Wolbachia, Cardinium, and Microsporidia in phlebotomines and mosquitoes were detected. Phylogenetic analysis of Wolbachia shows putative new strains of Lutzomyia gomezi (wLgom), Brumptomyia hamata (wBrham), and a putative new group associated with Culex nigripalpus (Cnig) from the Andean region, located in Supergroup A and Supergroup B, respectively. The sequences of Microsporidia were obtained of Pi. pia and Cx. nigripalpus, which are located on phylogeny in the IV clade (terrestrial origin). The Cardinium of Tr. triramula and Ps. shannoni were located in group C next to Culicoides sequences while Cardinium of Mi. cayennensis formed two putative new subgroups of Cardinium in group A. In total were obtained 550 bacterial amplicon sequence variants (ASVs) and 189 taxa to the genus level. The microbiota profiles of Sand flies and mosquitoes showed mainly at the phylum level to Proteobacteria (67.6%), Firmicutes (17.9%) and Actinobacteria (7.4%). High percentages of relative abundance for Wolbachia (30%-83%) in Lu. gomezi, Ev. dubitans, Mi. micropyga, Br. hamata, and Cx. nigripalpus were found. ASVs assigned as Microsporidia were found in greater abundance in Pi. pia (23%) and Cx. nigripalpus (11%). An important finding is the detection of Rickettsia in Pi. pia (58,8%) and Bartonella sp. in Cx. nigripalpus. CONCLUSIONS/SIGNIFICANCE: We found that Wolbachia infection significantly decreased the alpha diversity and negatively impacts the number of taxa on sand flies and Culex nigripalpus. The Principal Coordinate Analysis (PCoA) is consistent, which showed statistically significant differences (PERMANOVA, F = 2.4744; R2 = 0.18363; p-value = 0.007) between the microbiota of sand flies and mosquitoes depending on its origin, host and possibly for the abundance of some endosymbionts (Wolbachia, Rickettsia).

Genetic variability of Aedes aegypti in the department of Sucre, Colombia, by analysis of the nucleotide sequence of the mitochondrial ND4 gene

Introduction. Aedes aegypti is the most important mosquito species in America for the transmission of viruses of dengue, Zika, Chikungunya and yellow fever. Ecological factors as well as chemical controls can affect the genetic composition of Ae. aegypti populations, which is why its genetic characterization is necessary. Objective. To determine the genetic variability of Ae. aegypti populations in four municipalities of Sucre department, Colombia. Materials and methods. Larvae of Ae. aegypti, collected in the municipalities of Sincelejo, Sampués, Corozal and Guaranda, Sucre department, were reared under laboratory conditions to adult stage. A segment of the mitochondrial ND4 gene which codes for the subunit 4 of the enzyme NADH-dehydrogenase was used as genetic marker. The genetic analysis included the estimation of parameters of nucleotide and haplotype diversity, genetic structure and gene flow. Results. One hundred and eight partial sequences of 357 nucleotides and four nucleotide haplotypes of the ND4 gene of Ae. aegypti were obtained. A significantly high genetic differentiation was found between the Sampués and Guaranda populations (FST=0.59467), Sincelejo and Sampués (FST=0.25637), and Corozal and Guaranda (FST=0.22237). A high gene flow (Nm=infinite) was observed among the populations of Sincelejo and Corozal. Conclusion. There are genetic differences between the Ae. aegypti populations from the municipalities of Sucre department. The presence of a new haplotype of the mitochondrial ND4 gene of Ae. aegypti in Colombia was recorded, detected in the municipality of Sincelejo.

Variabilidad genética de Aedes aegypti en el departamento de Sucre, Colombia, mediante el análisis de la secuencia de nucleótidos del gen mitocondrial ND4 / Genetic variability of Aedes aegypti in the department of Sucre, Colombia, by analysis of the nucleotide sequence of the mitochondrial ND4 gene

Resumen Introducción. Aedes aegypti es la especie de mosquito de mayor relevancia en América por transmitir los virus del dengue, del Zika, del chikungunya y de la fiebre amarilla. Tanto factores ecológicos como el control químico, pueden influir en la composición genética de las poblaciones de Ae. aegypti, por lo cual es necesaria su caracterización. Objetivo. Determinar la variabilidad genética de las poblaciones de Ae. aegypti en cuatro municipios del departamento de Sucre, Colombia. Materiales y métodos. Larvas de Ae. aegypti, recolectadas en los municipios de Sincelejo, Sampués, Corozal y Guaranda del departamento de Sucre, fueron criadas en laboratorio hasta el estado adulto. Como marcador genético, se utilizó un segmento del gen mitocondrial ND4, que codifica para la subunidad 4 de la enzima NADH-deshidrogenasa. El análisis genético incluyó la estimación de parámetros de diversidad de nucleótidos, haplotipos, de estructura genética y de flujo de genes. Resultados. Se obtuvieron 108 secuencias parciales de 357 nucleótidos y cuatro haplotipos de nucleótidos del gen ND4 de Ae. aegypti. Se encontró una diferenciación genética significativamente alta entre las poblaciones de Sampués y Guaranda mediante el índice de fijación (F ST =0,59467), las de Sincelejo y Sampués (F ST = 0,25637), y las de Corozal y Guaranda (F ST = 0,22237). Se evidenció un gran flujo de genes (Nm=infinito) entre las poblaciones de Sincelejo y Corozal. Conclusión. Existen diferencias genéticas entre las poblaciones del mosquito Ae. aegypti de los municipios del departamento de Sucre. Se registra la presencia de un nuevo haplotipo del gen mitocondrial ND4 de Ae. aegypti en Colombia, el cual fue detectado en el municipio de Sincelejo.

Abstract Introduction. Aedes aegypti is the most important mosquito species in America for the transmission of viruses of dengue, Zika, Chikungunya and yellow fever. Ecological factors as well as chemical controls can affect the genetic composition of Ae. aegypti populations, which is why its genetic characterization is necessary. Objective. To determine the genetic variability of Ae. aegypti populations in four municipalities of Sucre department, Colombia. Materials and methods. Larvae of Ae. aegypti, collected in the municipalities of Sincelejo, Sampués, Corozal and Guaranda, Sucre department, were reared under laboratory conditions to adult stage. A segment of the mitochondrial ND4 gene which codes for the subunit 4 of the enzyme NADH-dehydrogenase was used as genetic marker. The genetic analysis included the estimation of parameters of nucleotide and haplotype diversity, genetic structure and gene flow. Results. One hundred and eight partial sequences of 357 nucleotides and four nucleotide haplotypes of the ND4 gene of Ae. aegypti were obtained. A significantly high genetic differentiation was found between the Sampués and Guaranda populations (F ST =0.59467),Sincelejo and Sampués (F ST =0.25637), and Corozal and Guaranda (F ST =0.22237). A high gene flow (Nm=infinite) was observed among the populations of Sincelejo and Corozal. Conclusion. There are genetic differences between the Ae. aegypti populations from the municipalities of Sucre department. The presence of a new haplotype of the mitochondrial ND4 gene of Ae. aegypti in Colombia was recorded, detected in the municipality of Sincelejo.

Diversity patterns, Leishmania DNA detection, and bloodmeal identification of Phlebotominae sand flies in villages in northern Colombia.

Leishmaniases are neglected tropical diseases exhibiting complex transmission cycles due to the number of parasite species circulating, sand fly species acting as vectors and infected mammals, including humans, which are defined in the New World as accidental hosts. However, current transmission scenarios are changing, and the disease is no longer exclusively related to forested areas but urban transmission foci occur, involving some species of domestic animals as suspected reservoirs. The aim of this study was to determine the transmission cycles in urban environments by evaluating sand fly diversity, detection of Leishmania DNA, and bloodmeal sources through intra and peridomestic collections. The study was carried out in Colombia, in 13 municipalities of Cordoba department, implementing a methodology that could be further used for the evaluation of vector-borne diseases in villages or towns. Our sampling design included 24 houses randomly selected in each of 15 villages distributed in 13 municipalities, which were sampled in two seasons in 2015 and 2016. Sand flies were collected using CDC light traps placed in intra and peridomestic habitats. In addition to the morphological identification, molecular identification through DNA barcodes was also performed. A total of 19,743 sand flies were collected and 13,848 of them (10,268 females and 3,580 males) were used in molecular procedures. Circulation of two known parasite species-Leishmania infantum and Leishmania panamensis was confirmed. Blood source analyses showed that sand flies fed on humans, particularly in the case of the known L. infantum vector, P. evansi; further analyses are advised to evaluate the reservoirs involved in parasite transmission. Our sampling design allowed us to evaluate potential transmission cycles on a department scale, by defining suspected vector species, parasite species present in different municipalities and feeding habits.

Entomological characterization of malaria in northern Colombia through vector and parasite species identification, and analyses of spatial distribution and infection rates.

BACKGROUND: Malaria remains a worldwide public health concern and, in Colombia, despite the efforts to stop malaria transmission, the incidence of cases has increased over the last few years. In this context, it is necessary to evaluate vector diversity, infection rates, and spatial distribution, to better understand disease transmission dynamics. This information may contribute to the planning and development of vector control strategies. RESULTS: A total of 778 Anopheles mosquitoes were collected in fifteen localities of Córdoba from August 2015 to October 2016. Six species were identified and overall, Anopheles albimanus was the most widespread and abundant species (83%). Other species of the Nyssorhynchus subgenus were collected, including Anopheles triannulatus (13%), Anopheles nuneztovari (1%), Anopheles argyritarsis (< 1%) and two species belonging to the Anopheles subgenus: Anopheles pseudopunctipennis (3%) and Anopheles neomaculipalpus (< 1%). Four species were found naturally infected with two Plasmodium species: Anopheles nuneztovari was detected naturally infected with Plasmodium falciparum and Anopheles pseudopunctipennis with Plasmodium vivax, whereas An. albimanus and An. triannulatus were found infected with both parasite species and confirmed by nested PCR. CONCLUSIONS: In general, the obtained results were contrasting with previous studies in terms of the most abundant and widespread collected species, and regarding infection rates, which were higher than those previously reported. A positive relationship between mosquito local abundance at the locality level and human infection at the municipality level was found. Mosquito local abundance and the number of houses with mosquitoes in each village are factors explaining malaria human cases in these villages. The obtained results suggest that other factors related to the apparent variation in malaria eco-epidemiology in northern Colombia, must be identified, to provide health authorities with better decision tools aiming to design control and prevention strategies.

[First report of the F1534C mutation associated with cross-resistance to DDT and pyrethroids in Aedes aegypti from Colombia].

INTRODUCTION: The main strategy for the control of Aedes aegypti, vector of dengue, chikungunya and Zika viruses, is based on the use of insecticides to reduce its populations. However, their use has led to insect resistance to these chemicals. Objective: To determine the presence of the F1534C mutation associated with cross-resistance to DDT and pyrethroids in A. aegypti in Sincelejo, Colombia. Materials and methods: We studied nine specimens of A. aegypti that showed resistance to lambdacyhalothrin in bioassays developed by the Secretaría de Salud de Sucre. We used a semi-nested PCR as previously described by Harris, et al., to amplify exon 31 of the para gene of the voltage-dependent sodium channel of A. aegypti. We sequenced, edited, and analyzed PCR products with the MEGA 5 software. Results: We detected the wild and mutant alleles of exon 31 in all of the nine mosquitoes tested, and observed the substitution of thymine for guanine in the nucleotide sequence of the mutant allele, producing a change to UGC in the UUC codon, which led to the replacement of phenylalanine by cysteine in residue 1534 of the protein. Conclusion: The nine mosquitoes analyzed presented a heterozygote genotype for the F1534C mutation, whose phenotypic effect is knockdown resistance (kdr) to DDT and pyrethroids.