Your search keyword '"CONENOSES"' showing total 171 results

1. What happens when the insecticide does not kill? A review of sublethal toxicology and insecticide resistance in triatomines.

Author

Mougabure‐Cueto, Gastón, Fronza, Georgina, and Nattero, Julieta

Subjects

*RHODNIUS prolixus, *CHAGAS' disease, *CONENOSES, *PYRETHROIDS, *DISEASE vectors, *INSECTICIDES

Abstract

Chagas disease is considered one of the most important human parasitosis in the United States. This disease is mainly transmitted by insects of the subfamily Triatominae. The chemical vector control is the main tool for reducing the incidence of the disease. However, the presence of triatomines after pyrethroids spraying has been reported in some regions, as in the case of Triatoma infestans in Argentina and Bolivia. The presence of insects can be explained by the colonization from neighbouring areas, the reduction of insecticide dose to sublethal levels due to environmental factors, and/or by the evolution of insecticide resistance. In the last two scenarios, a proportion of the insects is not killed by insecticide and gives rise to residual populations. This article focuses on the toxicological processes associated with these scenarios in triatomines. Sublethal doses may have different effects on insect biology, that is, sublethal effects, which may contribute to the control. In addition, for insect disease vectors, sublethal doses could have negative effects on disease transmission. The study of sublethal effects in triatomines has focused primarily on the sequence of symptoms associated with nervous intoxication. However, the effects of sublethal doses on excretion, reproduction and morphology have also been studied. Rhodnius prolixus and T. infestans and pyrethroids insecticides were the triatomine species and insecticides, respectively, mainly studied. Insecticide resistance is an evolutionary phenomenon in which the insecticide acts as a selective force, concentrating on the insect population's pre‐existing traits that confer resistance. This leads to a reduction in the susceptibility to the insecticide, which was previously effective in controlling this species. The evolution of resistance in triatomines received little attention before the 2000s, but after the detection of the first focus of resistance associated with chemical control failures in T. infestans from Argentina in 2002, the study of resistance increased remarkably. A significant number of works have studied the geographical distribution, the resistance mechanisms, the biological modifications associated with resistance, the environmental influences and the genetic of T. infestans resistant to pyrethroid insecticides. Currently, studies of insecticide resistance are gradually being extended to other areas and other species. The aim of this article was to review the knowledge on both phenomena (sublethal effects and insecticide resistance) in triatomines. For a better understanding of this article, some concepts and processes related to insect‐insecticide interactions, individual and population toxicology and evolutionary biology are briefly reviewed. Finally, possible future lines of research in triatomine toxicology are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Range size positively correlates with temperature and precipitation niche breadths but not with dietary niche breadth in triatomine insects, vectors of Chagas disease.

Author

Caron, Fernanda S., Rivadeneira, Daniel, Rabinovich, Jorge, Pie, Marcio R., and Morimoto, Juliano

Subjects

*BLOODSUCKING insects, *CONENOSES, *CHAGAS' disease, *ZOOFLAGELLATES, *DISEASE vectors, *TRYPANOSOMA cruzi

Abstract

Ecological theory predicts that species that can utilise a greater diversity of resources and, therefore, have wider niche breadths should also occupy larger geographic areas (the 'niche breadth-range size hypothesis'). Here, we tested this hypothesis for a blood-sucking group of insects of medical significance: the Triatominae (aka 'kissing bugs') (Hemiptera: Reduviidae). Given that niches can be viewed from different perspectives, we tested this hypothesis based on both dietary and climatic niches. We assembled the most complete dataset of triatomine feeding patterns to date by reviewing 143 studies from the literature up to 2021 and tested whether the niche breadth-range size hypothesis held for this group for both dietary and climatic components of the niche. Temperature and precipitation niche breadths were estimated from macro-environmental variables, while diet breadth was calculated based on literature data that used PCR and/or ELISA to identify different types of hosts as blood sources per triatomine species. Our results showed that temperature and precipitation niche breadths, but not dietary breadth, were positively correlated with range sizes, independent of evolutionary history among species. These findings support the predictions from the range size-niche breadth hypothesis concerning climate but not diet, in Triatominae. It also shows that support for the niche breadth-range size hypothesis is dependent upon the niche axis under consideration, which can explain the mixed support for this hypothesis in the ecological literature. Author summary: Many triatomine species carry the parasite Trypanosoma cruzi, a flagellate protozoan that causes Chagas disease in animals and humans, posing a long-standing public health threat to communities in the Global South. We investigated how the niche of triatominae species correlates with their geographic range. We compiled a comprehensive dataset on their feeding habits and environmental preferences and found that temperature and precipitation niche breadth correlated geographic range size but dietary breadths did not. These findings highlight the complexity of ecological relationships and contribute to a better understanding of how species interact with their environment, and can play a crucial role in determining the range of these vectors. Thus, this knowledge can aid in the development of more effective strategies for managing vector-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2024

3. Interaction of Trypanosoma cruzi , Triatomines and the Microbiota of the Vectors—A Review.

Author

Schaub, Günter A.

Subjects

TRYPANOSOMA cruzi, CONENOSES, CHAGAS' disease, DISEASE vectors, GUT microbiome, ANTIMICROBIAL peptides

Abstract

This review summarizes the interactions between Trypanosoma cruzi, the etiologic agent of Chagas disease, its vectors, triatomines, and the diverse intestinal microbiota of triatomines, which includes mutualistic symbionts, and highlights open questions. T. cruzi strains show great biological heterogeneity in their development and their interactions. Triatomines differ from other important vectors of diseases in their ontogeny and the enzymes used to digest blood. Many different bacteria colonize the intestinal tract of triatomines, but only Actinomycetales have been identified as mutualistic symbionts. Effects of the vector on T. cruzi are indicated by differences in the ability of T. cruzi to establish in the triatomines and in colonization peculiarities, i.e., proliferation mainly in the posterior midgut and rectum and preferential transformation into infectious metacyclic trypomastigotes in the rectum. In addition, certain forms of T. cruzi develop after feeding and during starvation of triatomines. Negative effects of T. cruzi on the triatomine vectors appear to be particularly evident when the triatomines are stressed and depend on the T. cruzi strain. Effects on the intestinal immunity of the triatomines are induced by ingested blood-stage trypomastigotes of T. cruzi and affect the populations of many non-symbiotic intestinal bacteria, but not all and not the mutualistic symbionts. After the knockdown of antimicrobial peptides, the number of non-symbiotic bacteria increases and the number of T. cruzi decreases. Presumably, in long-term infections, intestinal immunity is suppressed, which supports the growth of specific bacteria, depending on the strain of T. cruzi. These interactions may provide an approach to disrupt T. cruzi transmission. [ABSTRACT FROM AUTHOR]

Published

2024

4. Chemical ecology of triatomines: current knowledge and implications for Chagas disease vector management.

Author

Alavez-Rosas, David, Vargas-Abasolo, Reyna, Albores-Flores, Claudia I., Meneses-Arias, María Guadalupe, Gutiérrez-Cabrera, Ana Erika, Benelli, Giovanni, Cruz-López, Leopoldo, and Córdoba-Aguilar, Alex

Subjects

*CHEMICAL ecology, *CHAGAS' disease, *DISEASE vectors, *CONENOSES, *DISEASE management, *SEMIOCHEMICALS

Abstract

Triatomines (Hemiptera: Heteroptera: Reduviidae), commonly known as conenose or kissing bugs, includes species of outstanding medical importance given their role as vectors of the protozoan parasite Trypanosoma cruzi Chagas (Kinetoplastida: Trypanosomatidae), the aetiological agent of Chagas disease. Herein, we present an updated review of the chemical ecology of triatomines, with special reference to molecules involved in the communication of these insects. Infochemicals, including hormones and semiochemicals (pheromones and allelochemicals), have a pivotal role in mediating information and shaping interactions within and between triatomines, during distinct behavioural contexts. We analyse the new findings about the chemical composition of alarm, aggregation and sex pheromones, as well as on cuticular hydrocarbons, host attractants and repellents. We also discuss how triatomine hormones may serve as communication signals and highlight the importance of the reverse chemical ecology approach in studying the complex chemoecology of these arthropod vectors. In the final section, we outline how knowledge about triatomine chemical ecology can be used for implementing real-world control operations with proven epidemiological impact. [ABSTRACT FROM AUTHOR]

Published

2024

5. The interplay between temperature, Trypanosoma cruzi parasite load, and nutrition: Their effects on the development and life-cycle of the Chagas disease vector Rhodnius prolixus.

Author

Loshouarn, Henri and Guarneri, Alessandra A.

Subjects

*TRYPANOSOMA cruzi, *RHODNIUS prolixus, *CHAGAS' disease, *DISEASE vectors, *BLOODSUCKING insects, *CONENOSES, *LYME disease, *TRICHOMONIASIS

Abstract

Chagas disease, caused by the protozoan parasite Trypanosoma cruzi transmitted by blood-sucking insects of the subfamily Triatominae, is a major neglected tropical disease affecting 6 to 7 million of people worldwide. Rhodnius prolixus, one of the most important vectors of Chagas disease in Latin America, is known to be highly sensitive to environmental factors, including temperature. This study aimed to investigate the effects of different temperatures on R. prolixus development and life-cycle, its relationship with T. cruzi, and to gather information about the nutritional habits and energy consumption of R. prolixus. We exposed uninfected and infected R. prolixus to four different temperatures ranging from 24°C to 30°C, and monitored their survival, developmental rate, body and blood meal masses, urine production, and the temporal dynamics of parasite concentration in the excreted urine of the triatomines over the course of their development. Our results demonstrate that temperature significantly impacts R. prolixus development, life-cycle and their relationship with T. cruzi, as R. prolixus exposed to higher temperatures had a shorter developmental time and a higher mortality rate compared to those exposed to lower temperatures, as well as a lower ability to retain weight between blood meals. Infection also decreased the capacity of the triatomines to retain weight gained by blood-feeding to the next developmental stage, and this effect was proportional to parasite concentration in excreted urine. We also showed that T. cruzi multiplication varied depending on temperature, with the lowest temperature having the lowest parasite load. Our findings provide important insights into the potential impact of climate change on the epidemiology of Chagas disease, and can contribute to efforts to model the future distribution of this disease. Our study also raises new questions, highlighting the need for further research in order to understand the complex interactions between temperature, vector biology, and parasite transmission. Author summary: Chagas disease, caused by the parasite Trypanosoma cruzi and transmitted by blood-sucking kissing bugs, is a major neglected tropical disease affecting millions of people worldwide. The insect vector Rhodnius prolixus is highly sensitive to environmental factors, including temperature. In this study, we investigated the effects of different temperatures on R. prolixus and its interaction with T. cruzi, as well as the nutritional habits and energy consumption of the vector. We exposed uninfected and infected insects to various temperatures, and monitored their survival, development, body and blood meal weights, urine production, and T. cruzi infection over their lifespan. Our results revealed that temperature significantly influenced R. prolixus development, life-cycle, and its interaction with T. cruzi. Insects exposed to higher temperatures had shorter development time, increased mortality, and reduced ability to maintain weight. Infection further compromised the ability of the triatomines to retain weight gained by blood-feeding, and this effect correlated with parasite load. Additionally, T. cruzi multiplication varied with temperature, with lower temperatures associated with lower parasite concentration. Our findings have important implications for understanding the impact of climate change on Chagas disease epidemiology and contribute to modeling its future spread. [ABSTRACT FROM AUTHOR]

Published

2024

6. Differential Spreading of Microsatellites in Holocentric Chromosomes of Chagas Disease Vectors: Genomic and Evolutionary Implications.

Author

Panzera, Francisco, Cuadrado, Ángeles, Mora, Pablo, Palomeque, Teresa, Lorite, Pedro, and Pita, Sebastián

Subjects

*CHAGAS' disease, *CHROMOSOMES, *DISEASE vectors, *Y chromosome, *MICROSATELLITE repeats, *CONENOSES

Abstract

Simple Summary: This study analyzed microsatellite distribution in the holocentric chromosomes of Triatominae, Chagas disease vectors. Using a non-denaturing FISH technique, 16 microsatellites were examined across 25 species from the Triatomini and Rhodniini tribes. Three hybridization patterns emerged: strong signals in specific regions, dispersed signals based on microsatellite abundance and the absence of signals in certain regions or chromosomes. Rhodniini had weak and scattered signals, indicating low microsatellite abundance, while Triatomini showed diverse and abundant patterns, suggesting their significance in genomes. Particularly, all Triatomini species exhibited a high abundance of GATA repeats in the Y chromosome, unlike Rhodniini. This suggests the ancestral trait is specific to Triatomini. The study provides insights into microsatellite composition and distribution in Triatominae genomes, shedding light on their evolutionary processes and relationships with other reduviid groups. This study focused on analyzing the distribution of microsatellites in holocentric chromosomes of the Triatominae subfamily, insect vectors of Chagas disease. We employed a non-denaturing FISH technique to determine the chromosomal distribution of sixteen microsatellites across twenty-five triatomine species, involving five genera from the two principal tribes: Triatomini and Rhodniini. Three main hybridization patterns were identified: strong signals in specific chromosomal regions, dispersed signals dependent on microsatellite abundance and the absence of signals in certain chromosomal regions or entire chromosomes. Significant variations in hybridization patterns were observed between Rhodniini and Triatomini species. Rhodniini species displayed weak and scattered hybridization signals, indicating a low abundance of microsatellites in their genomes. In contrast, Triatomini species exhibited diverse and abundant hybridization patterns, suggesting that microsatellites are a significant repetitive component in their genomes. One particularly interesting finding was the high abundance of GATA repeats, and to a lesser extent AG repeats, in the Y chromosome of all analyzed Triatomini species. In contrast, the Y chromosome of Rhodniini species did not show enrichment in GATA and AG repeats. This suggests that the richness of GATA repeats on the Y chromosome likely represents an ancestral trait specific to the Triatomini tribe. Furthermore, this information can be used to elucidate the evolutionary relationships between Triatomini and other groups of reduviids, contributing to the understanding of the subfamily's origin. Overall, this study provides a comprehensive understanding of the composition and distribution of microsatellites within Triatominae genomes, shedding light on their significance in the evolutionary processes of these species. [ABSTRACT FROM AUTHOR]

Published

2023

7. New Records of Triatomine: Triatoma rubida and T. sinaloensis at Sonora, Northwestern Mexico.

Author

Sánchez-García, Antonio A., Ortega-Morales, Aldo I., Morillón-Borjón, Guillermo, Moreno-Bello, Gladis, Sánchez-Ramos, Francisco J., Siller-Rodríguez, Quetzaly K., and López-Hernández, Isaías

Subjects

*TRIATOMA, *CHAGAS' disease, *DISEASE vectors, *CONENOSES, *ASSASSIN bugs, *TRYPANOSOMA cruzi, *AEDES aegypti

Abstract

To update a list of arthropod group-species, including triatomines, in the State of Sonora, northwestern Mexico, entomological surveys were done during the spring of 2022 in conserved areas of the state. Triatomines Triatoma rubida (Uhler) and T. sinaloensis Ryckman (Hemiptera: Reduviidae) were found living in nests of woodrats, Neotoma sp., and California roadrunners, Geococcyx californianus (Lesson). Because T. rubida is one of the main vectors of Chagas disease in North America, and T. sinaloensis has been found naturally infected with Trypanosoma cruzi Chagas, surveillance of the species should be essential for Chagas disease control programs in northwestern Mexico. [ABSTRACT FROM AUTHOR]

Published

2023

8. Exploring the Hidden World of Vectors of Chagas Disease: A Fascinating Look at the Taxonomic Aspects of the Psammolestes Genus (Hemiptera, Triatominae).

Author

de Oliveira, Jader, Alevi, Kaio Cesar Chaboli, Almeida, Carlos Eduardo, Olaia, Nicoly, Cacini, Gustavo Lázari, Galvão, Cleber, Herrera, Heitor Miraglia, Santos, Filipe Martins, and Rosa, João Aristeu da

Subjects

*CHAGAS' disease, *DISEASE vectors, *INSECT eggs, *CONENOSES, *HEMIPTERA, *EGGS

Abstract

Chagas disease (CD) is a neglected illness affecting approximately seven million individuals, with vector transmission occurring via triatomine bugs. The Rhodniini tribe comprises 24 species, grouped into the Rhodnius and Psammolestes genera. Given the importance of accurately identifying CD vectors, the taxonomy of Psammolestes spp. was revisited using morphological and morphometric data. Specimens of P. tertius, P. coreodes, and P. arthuri were collected, and the morphological characteristics of the head, thorax, abdomen, and eggs were analyzed. Morphometric studies of eggs were also conducted. Dichotomous keys allowing for the differentiation of Psammolestes spp. were elaborated based on adult insect and egg morphological characteristics. Through these studies, it was possible to differentiate the three Psammolestes species and confirm that this genus should not be classified under the Rhodnius genus, contributing to Rhodniini taxonomy. [ABSTRACT FROM AUTHOR]

Published

2023

9. Climate and Environmental Changes and Their Potential Effects on the Dynamics of Chagas Disease: Hybridization in Rhodniini (Hemiptera, Triatominae).

Author

Ravazi, Amanda, Oliveira, Jader de, Madeira, Fernanda Fernandez, Nunes, Giovana Menezes, Reis, Yago Visinho dos, Oliveira, Ana Beatriz Bortolozo de, Azevedo, Luísa Martins Sensato, Galvão, Cleber, Azeredo-Oliveira, Maria Tercília Vilela de, Rosa, João Aristeu da, and Alevi, Kaio Cesar Chaboli

Subjects

*CHAGAS' disease, *CLIMATE change, *CONENOSES, *HEMIPTERA, *MEDICAL climatology, *DISEASE vectors

Abstract

Simple Summary: All 155 living species of triatomines are considered to be potential vectors of Chagas disease. Laboratory and field studies demonstrate that these insects are capable of crossing and producing hybrids. Hybrids of Triatoma spp. have a greater capacity and vectorial competence to acquire and transmit Trypanosoma cruzi than the parental species. Therefore, we conducted studies to assess whether the Rhodnius spp. and Psammolestes spp. that live in sympatry (if found in natural conditions) or allopatry (geographically isolated) are capable of producing hybrids. We observed that all cross species produce hybrid offspring in at least one direction. Although the vectorial capacity and competence of these insect vectors must be evaluated, we emphasize the importance of directing the monitoring activities of vector control programs toward possible natural hybridization events in the face of climatic and environmental changes. Chagas disease affects about eight million people. In view of the issues related to the influence of anthropogenic changes in the dynamics of the distribution and reproductive interaction of triatomines, we performed experimental crosses between species of the Rhodniini tribe in order to evaluate interspecific reproductive interactions and hybrid production capacity. Reciprocal crossing experiments were conducted among Rhodnius brethesi × R. pictipes, R. colombiensis × R. ecuadoriensis, R. neivai × R. prolixus, R. robustus × R. prolixus, R. montenegrensis × R. marabaensis; R. montenegrensis × R. robustus, R. prolixus × R. nasutus and R. neglectus × R. milesi. With the exception of crosses between R. pictipes ♀ × R. brethesi ♂, R. ecuadoriensis ♀ × R. colombiensis ♂ and R. prolixus ♀ × R. neivai ♂, all experimental crosses resulted in hybrids. Our results demonstrate that both allopatric and sympatric species produce hybrids, which can generate concern for public health agencies in the face of current anthropogenic events. Thus, we demonstrate that species of the Rhodniini tribe are capable of producing hybrids under laboratory conditions. These results are of great epidemiological importance and raise an important discussion about the influence of climatic and environmental interactions on Chagas disease dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

10. Characterization of Triatoma infestans (Klug, 1834) (Hemiptera: Heteroptera, Reduviidae) from Residual Foci in the States of Bahia and Rio Grande do Sul, Brazil, Using Geometric Morphology.

Author

Peixoto, Solange, Belintani, Tiago, Rocha, Dayse, Fontes, Felipe, Frota, Natália, and Galvão, Cleber

Subjects

*TRIATOMA, *ASSASSIN bugs, *HEMIPTERA, *CHAGAS' disease, *DISEASE vectors, *CONENOSES

Abstract

Simple Summary: Foci of Triatoma infestans were found in the states of Rio Grande do Sul and Bahia, Brazil. The objective of the present work is to evaluate the morphometric differences between populations of residual and wild focus of T. infestans through head geometric morphometry. It is possible to show significant morphometric differences between the studied populations. Furthermore, it is possible to establish a morphometric relationship between these populations and to list hypotheses about the distribution and maintenance of residual foci of T. infestans in Brazil. Triatoma infestans is one of the main vectors of Chagas disease in Latin America. Although the species is under control in most Latin countries, it is still necessary to maintain epidemiological surveillance. The present study aims to characterize T. infestans populations from residual foci in Bahia and Rio Grande do Sul, Brazil, comparing them with natural populations in Argentina and Bolivia. For this, we adopt the geometric morphometry of the heads. It is possible to report the morphometric variety of the studied populations. In addition, we show that the size of the heads contributes to the differentiation between populations, while the shape has less power to discriminate groups. Furthermore, we show that some natural populations have morphometric proximity to residual populations, suggesting a relationship between these triatomines. Our data do not support the origin of residual populations but demonstrate the importance of new studies with other techniques to understand the dynamics of distribution and reintroduction of these vectors in Brazilian territory. [ABSTRACT FROM AUTHOR]

Published

2023

11. Karyotype Evolution in Triatominae (Hemiptera, Reduviidae): The Role of Chromosomal Rearrangements in the Diversification of Chagas Disease Vectors.

Author

Reis, Yago Visinho dos, de Oliveira, Jader, Madeira, Fernanda Fernandez, Ravazi, Amanda, Oliveira, Ana Beatriz Bortolozo de, Bittinelli, Isadora da Silva, Delgado, Luiza Maria Grzyb, de Azeredo-Oliveira, Maria Tercília Vilela, Rosa, João Aristeu da, Galvão, Cleber, and Alevi, Kaio Cesar Chaboli

Subjects

*CHAGAS' disease, *DISEASE vectors, *CONENOSES, *CHROMOSOMAL rearrangement, *ASSASSIN bugs, *AGRICULTURAL diversification

Abstract

Several cytogenetic studies have already been performed in Triatominae, such that different karyotypes could be characterized (ranging from 2n = 21 to 25 chromosomes), being the changes in the number of chromosomes related mainly to fusion and fission events. These changes have been associated with reproductive isolation and speciation events in other insect groups. Thus, we evaluated whether different karyotypes could act in the reproductive isolation of triatomines and we analyzed how the events of karyotypic evolution occurred along the diversification of these vectors. For this, experimental crosses were carried out between triatomine species with different karyotypes. Furthermore, based on a phylogeny with 88 triatomine taxa (developed with different molecular markers), a reconstruction of ancestral karyotypes and of anagenetic and cladogenetic events related to karyotypic alterations was performed through the ChromoSSE chromosomal evolution model. All crosses performed did not result in hybrids (prezygotic isolation in both directions). Our modeling results suggest that during Triatominae diversification, at least nine cladogenetic events may be associated with karyotype change. Thus, we emphasize that these alterations in the number of chromosomes can act as a prezygotic barrier in Triatominae (karyotypic isolation), being important evolutionary events during the diversification of the species of Chagas disease vectors. [ABSTRACT FROM AUTHOR]

Published

2023

12. Shelter selection in the kissing bugs Triatoma infestans and Rhodnius prolixus: Intra‐ and inter‐specific interactions and quality evaluation.

Author

Zacharias, Claudia A., Manrique, Gabriel, and Minoli, Sebastián A.

Subjects

*RHODNIUS prolixus, *CONENOSES, *TRIATOMA, *CHAGAS' disease, *DISEASE vectors

Abstract

Triatomines display most of their activities during the night. Before sunrise, they search, select and occupy adequate shelters to stay during the photophase, avoiding exposure to diurnal predators. In this work, we first explored the interactions between individuals of the same or different species in the shelter selection process of Triatoma infestans (Klug 1834) and Rhodnius prolixus (Stål 1859). When two groups of insects (either of different nutritional status, nymphal instar or species) were released together over an experimental arena containing two identical shelters, all nymphs were distributed randomly, suggesting the absence of intra‐ and inters‐pecific interactions. Secondly, we analysed their preferences for particular features of shelters by releasing one group of insects (either T. infestans or R. prolixus) over an arena containing two different refuges. Nymphs exhibited preferences for darker shelters with a vertical orientation of its substrate and elevated from the ground, highlighting the importance of such features in a shelter selection context. We conclude that these species disregard the presence of other individuals but evaluate certain characteristics of the shelters to choose them. This information may contribute to understanding the colonization/recolonization dynamic processes of these Chagas disease vectors. [ABSTRACT FROM AUTHOR]

Published

2023

13. Distribuição espacial de triatomíneos no município de Santana do Ipanema, Alagoas, Brasil: um estudo descritivo transversal.

Author

MATOS, Dalton Ferreira, de Sousa Lima, Santos Allan Bruno Alves, CIRILO, Tatyane Martins, GOMES, Dharliton Soares, and de Almeida ALMEIDA, Delma Holanda

Subjects

CHAGAS' disease, BLOODSUCKING insects, DISEASE vectors, CONENOSES, TRIATOMA

Abstract

Copyright of Diversitas Journal is the property of Diversitas Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

14. Trends in Taxonomy of the Rhodniini Tribe (Hemiptera, Triatominae): Reproductive Incompatibility between Rhodnius   neglectus Lent, 1954 and Psammolestes spp. Confirms the Generic Status of Psammolestes Bergroth, 1911.

Author

Ravazi, Amanda, Oliveira, Jader de, Madeira, Fernanda Fernandez, Reis, Yago Visinho dos, Oliveira, Ana Beatriz Bortolozo de, Galvão, Cleber, Azeredo-Oliveira, Maria Tercília Vilela de, Rosa, João Aristeu da, and Alevi, Kaio Cesar Chaboli

Subjects

*CONENOSES, *TAXONOMY, *TRIBES, *CHAGAS' disease, *DISEASE vectors, *PARASOCIAL relationships

Abstract

The tribe Rhodniini is a monophyletic group composed of 24 species grouped in two genera: Rhodnius and Psammolestes. Rhodnius is a paraphyletic genus formed by 21 species. The event of paraphilia is supported by the greater evolutionary proximity of the species of the prolixus groups with the genus Psammolestes than with the other groups of Rhodnius. Based on this phenomenon, it was proposed the alteration of the genus of the species of Psammolestes to Rhodnius. Thus, we performed experimental crosses between Psammolestes spp. and R. neglectus to assess the degree of reproductive compatibility between Psammolestes and Rhodnius. Hybrids were not obtained for intergeneric crosses. Based on this, we have demonstrated that Rhodnius and Psammolestes have reproductive incompatibility. These data are important to confirm the validity of the specific status of Psammolestes, based on the biological concept of the species. [ABSTRACT FROM AUTHOR]

Published

2022

15. The Parasite Load of Trypanosoma cruzi Modulates Feeding and Defecation Patterns of the Chagas Disease Vector Triatoma infestans.

Author

Chacón, Francisco, Bacigalupo, Antonella, Álvarez-Duhart, Bárbara, Cattan, Pedro E., Solís, Rigoberto, and Muñoz-San Martín, Catalina

Subjects

DISEASE vectors, TRIATOMA, TRYPANOSOMA cruzi, PARASITES, DEFECATION, CONENOSES, CHAGAS' disease

Abstract

Trypanosoma cruzi is the causal agent of Chagas disease, a parasitic zoonosis transmitted mainly through the feces of triatomine insects. Triatoma infestans is the main triatomine vector of this disease in South America. Previous research has shown that T. cruzi infection modifies the behavior of triatomines. We evaluated, for the first time, the effect of parasite load on feeding and defecation behavior, which we quantified by using real-time PCR. The detection time of the host was shorter in infected individuals, and the number of bites increased, while the dejection time was reduced when compared with the non-infected group. A significant correlation between the parasite load and the behavioral changes registered in the infected triatomines was found. These results would indicate that the intensity of T. cruzi infection modulates the feeding and defecation behavior of T. infestans, increasing the vector competence of this triatomine vector. [ABSTRACT FROM AUTHOR]

Published

2022

16. High chromosomal mobility of rDNA clusters in holocentric chromosomes of Triatominae, vectors of Chagas disease (Hemiptera‐Reduviidae).

Author

Pita, S., Lorite, P., Cuadrado, A., Panzera, Y., De Oliveira, J., Alevi, K. C. C., Rosa, J. A., Freitas, S. P. C., Gómez‐Palacio, A., Solari, A., Monroy, C., Dorn, P. L., Cabrera‐Bravo, M., and Panzera, F.

Subjects

*DISEASE vectors, *CONENOSES, *CHAGAS' disease, *RECOMBINANT DNA, *GENETIC recombination, *X chromosome, *CHROMOSOMES, *CYTOGENETICS

Abstract

The subfamily Triatominae (Hemiptera‐Reduviidae) includes more than 150 blood‐sucking species, potential vectors of the protozoan Trypanosoma cruzi, causative agent of Chagas disease. A distinctive cytogenetic characteristic of this group is the presence of extremely stable chromosome numbers. Unexpectedly, the analyses of the chromosomal location of ribosomal gene clusters and other repetitive sequences place Triatominae as a significantly diverse hemipteran subfamily. Here, we advance the understanding of Triatominae chromosomal evolution through the analysis of the 45S rDNA cluster chromosomal location in 92 Triatominae species. We found the 45S rDNA clusters in one to four loci per haploid genome with different chromosomal patterns: On one or two autosomes, on one, two or three sex chromosomes, on the X chromosome plus one to three autosomes. The movement of 45S rDNA clusters is discussed in an evolutionary context. Our results illustrate that rDNA mobility has been relatively common in the past and in recent evolutionary history of the group. The high frequency of rDNA patterns involving autosomes and sex chromosomes among closely related species could affect genetic recombination and the viability of hybrid populations, which suggests that the mobility of rDNA clusters could be a driver of species diversification. [ABSTRACT FROM AUTHOR]

Published

2022

17. On some reaction-diffusion equations generated by non-domiciliated triatominae, vectors of Chagas disease.

Author

Dib-Baghdadli, Nabahats, Labbas, Rabah, Mahdjoub, Tewfik, and Medeghri, Ahmed

Subjects

CHAGAS' disease, DISEASE vectors, REACTION-diffusion equations, CONENOSES, CAUCHY problem, BROWNIAN motion

Abstract

In this work, we study some reaction-diffusion equations set in two habitats which model the spatial dispersal of the triatomines, vectors of Chagas disease. We prove in particular that the dispersal operator generates an analytic semigroup in an adequate space and we prove the local existence of the solution for the corresponding Cauchy problem. [ABSTRACT FROM AUTHOR]

Published

2021

18. TriatoScore: an entomological-risk score for Chagas disease vector control-surveillance.

Author

Ribeiro-Jr, Gilmar, Abad-Franch, Fernando, de Sousa, Orlando M. F., dos Santos, Carlos G. S., Fonseca, Eduardo O. L., dos Santos, Roberto F., Cunha, Gabriel M., de Carvalho, Cristiane M. M., Reis, Renato B., Gurgel-Gonçalves, Rodrigo, and Reis, Mitermayer G.

Subjects

*DISEASE vectors, *CHAGAS' disease, *VECTOR-borne diseases, *CITIES & towns, *TRIATOMA, *CONENOSES, *ECOLOGICAL regions

Abstract

Background: Triatomine bugs transmit Chagas disease across Latin America, where vector control-surveillance is increasingly decentralized. Locally run systems often deal with highly diverse native-vector faunas—plus, in some areas, domestic populations of non-native species. Flexible entomological-risk indicators that cover native and non-native vectors and can support local decision-making are therefore needed. Methods: We present a local-scale entomological-risk score ("TriatoScore") that leverages and builds upon information on the ecology-behavior and distribution-biogeography of individual triatomine bug species. We illustrate our approach by calculating TriatoScores for the 417 municipalities of Bahia state, Brazil. For this, we (i) listed all triatomine bug species recorded statewide; (ii) derived a "species relevance score" reflecting whether each species is native/non-native and, if native, whether/how often it invades/colonizes dwellings; (iii) mapped each species' presence by municipality; (iv) for native vectors, weighted presence by the proportion of municipal territory within ecoregions occupied by each species; (v) multiplied "species relevance score" × "weighted presence" to get species-specific "weighted scores"; and (vi) summed "weighted scores" across species to get municipal TriatoScores. Using standardized TriatoScores, we then grouped municipalities into high/moderate/low entomological-risk strata. Results: TriatoScores were higher in municipalities dominated by dry-to-semiarid ecoregions than in those dominated by savanna-grassland or, especially, moist-forest ecoregions. Bahia's native triatomines can maintain high to moderate risk of vector-borne Chagas disease in 318 (76.3%) municipalities. Historical elimination of Triatoma infestans from 125 municipalities reduced TriatoScores by ~ 27% (range, 20–44%); eight municipalities reported T. infestans since Bahia was certified free of Trypanosoma cruzi transmission by this non-native species. Entomological-risk strata based on TriatoScores agreed well with Bahia's official disease-risk strata, but TriatoScores suggest that the official classification likely underestimates risk in 42 municipalities. Of 152 municipalities failing to report triatomines in 2006–2019, two and 71 had TriatoScores corresponding to, respectively, high and moderate entomological risk. Conclusions: TriatoScore can help control-surveillance managers to flexibly assess and stratify the entomological risk of Chagas disease at operationally relevant scales. Integrating eco-epidemiological, demographic, socioeconomic, or operational data (on, e.g., local-scale dwelling-infestation or vector-infection frequencies, land-use change and urbanization, housing conditions, poverty, or the functioning of control-surveillance systems) is also straightforward. TriatoScore may thus become a useful addition to the triatomine bug control-surveillance toolbox. [ABSTRACT FROM AUTHOR]

Published

2021

19. Trypanosoma cruzi infection follow-up in a sylvatic vector of Chagas disease: Comparing early and late stage nymphs.

Author

Cortés, Valeria, Cruz, Amalia, Onetti, Sofia, Kinzel, Daniela, Garcia, Javiera, Ortiz, Sylvia, Lopez, Angélica, Cattan, Pedro E., Botto-Mahan, Carezza, and Solari, Aldo

Subjects

*TRYPANOSOMA cruzi, *CHAGAS' disease, *DISEASE vectors, *INFECTIOUS disease transmission, *INFECTION, *CONENOSES, URINE collection & preservation

Abstract

Chagas disease is caused by Trypanosoma cruzi and transmitted by the triatomine Mepraia spinolai in the southwest of South America. Here, we examined the T. cruzi-infection dynamics of field-caught M. spinolai after laboratory feeding, with a follow-up procedure on bug populations collected in winter and spring of 2017 and 2018. Bugs were analyzed twice to evaluate T. cruzi-infection by PCR assays of urine/fecal samples, the first evaluation right after collection and the second 40 days after the first feeding. We detected bugs with: the first sample positive and second negative (+/-), the first sample negative and second positive (-/+), and with both samples positive or negative (+/+; -/-). Bugs that resulted positive on both occasions were the most frequent, with the exception of those collected in winter 2018. Infection rate in spring was higher than winter only in 2018. Early and late stage nymphs presented similar T. cruzi-infection rates except for winter 2017; therefore, all nymphs may contribute to T. cruzi-transmission to humans. Assessment of infection using two samples represents a realistic way to determine the infection a triatomine can harbor. The underlying mechanism may be that some bugs do not excrete parasites unless they are fed and maintained for some time under environmentally controlled conditions before releasing T. cruzi, which persists in the vector hindgut. We suggest that T. cruzi-infection dynamics regarding the three types of positive-PCR results detected by follow-up represent: residual T. cruzi in the rectal lumen (+/-), colonization of parasites attached to the rectal wall (-/+), and presence of both kinds of flagellates in the hindgut of triatomines (+/+). We suggest residual T. cruzi-infections are released after feeding, and result 60–90 days after infection persisting in the rectal lumen after a fasting event, a phenomenon that might vary between contrasting seasons and years. Author summary: In the vector-borne transmission of Chagas disease, approximately 150 species of triatomine bugs are potential vectors for the parasite Trypanosoma cruzi. A competent vector must fulfill several features such as the ability to host, amplify, and differentiate the parasite, allowing T. cruzi persistence within the insect vector. Our aim was to describe the dynamics of T. cruzi infection in a competent triatomine species collected in two contrasting seasons—with different environmental temperatures—of 2017 and 2018. We used a follow-up procedure including T. cruzi detection right after collection and 40 days later; both detections were performed after laboratory feeding. Most infected bugs were T. cruzi positive on both occasions. However, infected bugs from winter 2018 presented switches from T. cruzi negative at collection to T. cruzi positive 40 days later. The results suggest infections with T. cruzi attached to the hindgut wall as the colonization site, caused by infections that persist there after a fasting event, are released after a second feeding. [ABSTRACT FROM AUTHOR]

Published

2021

20. Effects of food source and feeding frequency on Chagasic bug (Triatoma pallidipennis) fitness.

Author

Gutiérrez-Cabrera, Ana E., Bello-Bedoy, Rafael, Patiño-Uriostegui, Nadecha M., Lecona-Valera, Alba N., and Córdoba-Aguilar, Alex

Subjects

*TRIATOMA, *STINKBUGS, *CONENOSES, *CHAGAS' disease, *INSECT development, *DISEASE vectors

Abstract

The effects of quality and frequency of blood ingested by insect vectors on their life histories are crucial to interpret their feeding preferences in the field. Triatomine bugs act as vectors of the Chagas disease, feeding on blood during their entire lives. Earlier research has shown that compared to avian blood, mammal blood has positive effects on life history traits, as does having a higher frequency of feeding events. Using a factorial design, we investigated the effect of feeding on mammal blood, avian blood and defibrinated mammal blood, as well as the potential impact of feeding every 8 or every 45 days. The kissing bug Triatoma pallidipennis was selected as study species. The response variables considered here were the insect development time (i.e. from first instar nymph to adult), size, survival, and fecundity. Bugs fed with mammal blood did not differ from those fed with avian blood in how long it took to reach adulthood. Bugs were larger when fed with mammal blood, although there were differences between the sexes according to distinct size indicators. Survival was higher when the food source was bird rather than mammal blood, but the opposite occurred for fecundity. All traits were maximized when feeding was every 8 days, while the worst performances were achieved when bugs were fed with defibrinated blood every 45 days. These results suggest divergent effects in the relationship with blood source depending on the examined life history trait. This life history trait-specific maximization implies that T. pallidipennis may demand different food sources in the field. Results about other triatomines indicate species-specific host feeding preferences in nature that also maximize different traits, contributing to shedding light on the diversity of feeding preferences across triatomine vectors. [ABSTRACT FROM AUTHOR]

Published

2021

21. Biology of Chagas disease vectors: biological cycle and emergence rates of Rhodnius marabaensis Souza et al., 2016 (Hemiptera, Reduviidae, Triatominae) under laboratory conditions.

Author

Olaia, Nicoly, Alevi, Kaio Cesar Chaboli, de Oliveira, Jader, Cacini, Gustavo Lázari, Souza, Eder dos Santos, Pinotti, Heloisa, da Silva, Lucas Abrantes, and da Rosa, João Aristeu

Subjects

*DISEASE vectors, *BIOLOGICAL rhythms, *ASSASSIN bugs, *CONENOSES, *CHAGAS' disease, *HEMIPTERA

Abstract

In Latin America, Chagas disease has been mostly transmitted to humans by contact with the feces or urine of triatomine species infected with the protozoan Trypanosoma cruzi. There are currently 156 species in the subfamily Triatominae, distributed in 18 genera and five tribes. The prolixus group of the genus Rhodnius is composed of 11 species. Rhodnius marabaensis was the last species described and considered in this grouping of vectors. Knowledge about the biology, ecology, and behavior of these vectors is of great epidemiological importance, and in order to expand the knowledge of the biology of R. marabaensis, this paper describes the biological cycle and emergence rates of the species under laboratory conditions. The experiment was carried out at temperatures ranging from 15.5 to 29 °C (average of 24 °C) and humidity ranging from 51.4 to 72.2 (average of 63). For each of the fifteen couples, the egg emergence rate was calculated throughout the oviposition period. The oviposition period lasted from February to September, and the emergence rate varied between 13.9 and 53.3%. R. marabaensis presented an emergence rate of 46.7% and a total biological cycle of 193 days (the mean time required for emergence (25.1 days), 1st nymphal instar (19.4 days), 2nd nymphal instar (22.1 days), 3rd nymphal instar (26.2 days), 4th nymphal instar (29.3 days), and 5th nymphal instar (70.9 days)). Based on the biological cycle of R. marabaensis and 14 other Rhodnius species already described in the literature, it was also possible to calculate the averages for the groups prolixus, pictipes, and pallescens and, mainly, for the genus Rhodnius, contributing to the knowledge of this important group of Chagas disease vectors. [ABSTRACT FROM AUTHOR]

Published

2021

22. Kissing bugs, vector for Chagas disease, successfully gene edited for first time.

Subjects

CONENOSES, CHAGAS' disease, GENOME editing, DISEASE vectors, MEDICAL sciences, LYME disease

Abstract

Kissing bugs, also known as triatomine bugs, are the primary carriers of Chagas disease, a significant public health concern in Central and South America and parts of the southern United States. However, there are limited treatment options available for the disease, making it crucial to control the bugs that carry the parasite. A recent study, including a researcher from Penn State, has successfully used CRISPR-Cas9 gene editing in kissing bugs for the first time. This breakthrough opens the door for further research on strategies to control Chagas disease. The study developed a new technology called Receptor-Mediated Ovary Transduction of Cargo (ReMOT Control), which allows researchers to inject gene editing materials directly into the circulatory system of the mother bug, resulting in successful genetic edits in the offspring. This technology has the potential to make gene editing more efficient, easier, and cheaper in a wide range of animals. The study also highlights the importance of genetic technologies in controlling vector-borne diseases like Chagas. [Extracted from the article]

Published

2024

23. Identification and characterization of microsatellite markers for population genetic studies of Panstrongylus megistus (Burmeister, 1835) (Triatominae: Reduviidae).

Author

Ferreira, Flávio Campos, Gonçalves, Leilane Oliveira, Ruiz, Jeronimo Conceição, Koerich, Leonardo Barbosa, Pais, Fabiano Sviatopolk Mirsky, Diotaiuti, Lileia Gonçalves, and Belisário, Carlota Josefovicz

Subjects

*MICROSATELLITE repeats, *GENETIC markers, *ASSASSIN bugs, *CONENOSES, *CHAGAS' disease, *DISEASE vectors, *DNA sequencing

Abstract

Background: Panstrongylus megistus is the most important vector of Chagas disease in Brazil. Studies show that the principal factor hindering the control of triatomines is reinfestation of houses previously treated with insecticides. Studies at the microgeographic level are therefore necessary to better understand these events. However, an efficient molecular marker is not yet available for carrying out such analyses in this species. The aim of the present study was to identify and characterize microsatellite loci for future population genetic studies of P. megistus. Methods: This study work consisted of five stages: (i) sequencing of genomic DNA; (ii) assembly and selection of contigs containing microsatellites; (iii) validation of amplification and evaluation of polymorphic loci; (iv) standardization of the polymorphic loci; and (v) verification of cross-amplification with other triatomine species. Results: Sequencing of males and females generated 7,908,463 contigs with a total length of 2,043,422,613 bp. A total of 2,043,690 regions with microsatellites in 1,441,091 contigs were obtained, with mononucleotide repeats being the most abundant class. From a panel of 96 loci it was possible to visualize polymorphisms in 64.55% of the loci. Of the 20 loci genotyped, the number of alleles varied from two to nine with an average of 4.9. Cross-amplification with other species of triatomines was observed in 13 of the loci. Conclusions: Due to the high number of alleles encountered, polymorphism and the capacity to amplify from geographically distant populations, the microsatellites described here show promise for utilization in population genetic studies of P. megistus. [ABSTRACT FROM AUTHOR]

Published

2021

24. TriatoDex, an electronic identification key to the Triatominae (Hemiptera: Reduviidae), vectors of Chagas disease: Development, description, and performance.

Author

Gurgel-Gonçalves, Rodrigo, Abad-Franch, Fernando, de Almeida, Maxwell Ramos, Obara, Marcos Takashi, de Souza, Rita de Cássia Moreira, Batista, Jainaine Abrantes de Sena, and Rocha, Douglas de Almeida

Subjects

*DISEASE vectors, *ASSASSIN bugs, *CONENOSES, *CHAGAS' disease, *HEMIPTERA, *GENDER

Abstract

Correct identification of triatomine bugs is crucial for Chagas disease surveillance, yet available taxonomic keys are outdated, incomplete, or both. Here we present TriatoDex, an Android app-based pictorial, annotated, polytomous key to the Triatominae. TriatoDex was developed using Android Studio and tested by 27 Brazilian users. Each user received a box with pinned, number-labeled, adult triatomines (33 species in total) and was asked to identify each bug to the species level. We used generalized linear mixed models (with user- and species-ID random effects) and information-theoretic model evaluation/averaging to investigate TriatoDex performance. TriatoDex encompasses 79 questions and 554 images of the 150 triatomine-bug species described worldwide up to 2017. TriatoDex-based identification was correct in 78.9% of 824 tasks. TriatoDex performed better in the hands of trained taxonomists (93.3% vs. 72.7% correct identifications; model-averaged, adjusted odds ratio 5.96, 95% confidence interval [CI] 3.09–11.48). In contrast, user age, gender, primary job (including academic research/teaching or disease surveillance), workplace (including universities, a reference laboratory for triatomine-bug taxonomy, or disease-surveillance units), and basic training (from high school to biology) all had negligible effects on TriatoDex performance. Our analyses also suggest that, as TriatoDex results accrue to cover more taxa, they may help pinpoint triatomine-bug species that are consistently harder (than average) to identify. In a pilot comparison with a standard, printed key (370 tasks by seven users), TriatoDex performed similarly (84.5% correct assignments, CI 68.9–94.0%), but identification was 32.8% (CI 24.7–40.1%) faster on average–for a mean absolute saving of ~2.3 minutes per bug-identification task. TriatoDex holds much promise as a handy, flexible, and reliable tool for triatomine-bug identification; an updated iOS/Android version is under development. We expect that, with continuous refinement derived from evolving knowledge and user feedback, TriatoDex will substantially help strengthen both entomological surveillance and research on Chagas disease vectors. [ABSTRACT FROM AUTHOR]

Published

2021

25. Functional characterization of the kinin receptor in the Chagas disease vector Rhodnius prolixus; activity of native kinins and potent biostable Aib-containing insect kinin analogs.

Author

Orchard, Ian, Leyria, Jimena, Al-Dailami, Areej N., Nachman, Ronald J., and Lange, Angela B.

Subjects

*RHODNIUS prolixus, *CHAGAS' disease, *KININS, *DISEASE vectors, *CONENOSES

Abstract

The causative agent for Chagas disease, Trypanosoma cruzi , is transmitted to a human host in the urine/feces of the kissing bug, Rhodnius prolixus , following blood feeding. Kinins are important chemical messengers in the overall control of blood feeding physiology in R. prolixus , including hindgut contractions and excretion. Thus, disruption in kinin signaling would have damaging consequences to the insect but also interfere with the transmission of Chagas Disease. Here, a heterologous functional receptor assay was used to confirm the validity of the previously cloned putative kinin G-protein-coupled receptor, RhoprKR, in Rhodnius prolixus. Three native R. prolixus kinins were chosen for analysis; two possessing the typical kinin WGamide C -terminal motif and one that possesses an atypical C -terminal WAamide. All three are potent (EC 50 values in the nM range), with high efficacy, on CHO-K1-aeq cells expressing the RhoprKR, thereby confirming ligand binding. Members of three other R. prolixus peptide families, which are also myotropins (tachykinins, pyrokinins and sulfakinins) elicited little or no response. In addition, this heterologous receptor assay was used to test characteristics of kinin mimetics previously tested on tick and mosquito kinin receptors. Five α-aminoisobutyric acid (Aib) containing analogs were tested, and four found to have considerably higher potencies than the native kinins, with EC 50 values in the pM range. Interestingly, adding Aib to the atypical WAamide kinin improves its EC 50 value from 2 nM to 39 pM. Biostable kinin analogs may prove useful leads for novel pest control strategies. Since T. cruzi is transmitted to a human host in the urine/feces after blood feeding, disruption in kinin signaling would also interfere with the transmission of Chagas Disease. • The Rhodnius prolixus kinin receptor has been deorphanized using a heterologous receptor assay. • Native R. prolixus kinins activate this receptor with high potency and efficacy. • Rhopr-kinin 2 is the most potent with an EC 50 value of 0.14 nM. • Biostable α-aminoisobutyric acid-containing kinin analogs have EC 50 values of 24 – 39 pM. [ABSTRACT FROM AUTHOR]

Published

2024

26. Revised New World bioregions and environmental correlates for vectors of Chagas disease (Hemiptera, Triatominae).

Author

Gomez, Mireya, Matamoros, Wilfredo A., Larre-Campuzano, Santiago, Yépez-Mulia, Lilián, De Fuentes-Vicente, José A, and Hoagstrom, Christopher W.

Subjects

*CHAGAS' disease, *DISEASE vectors, *CONENOSES, *BLOODSUCKING insects, *REGRESSION analysis

Abstract

• New bioregions of the new world are proposed based on the distribution of the subfamily Triatominae. • The UPGMA and NMDS analysis detected seven main bioregions. • Each bioregion is defined by unique species of triatomines. • Precipitation, temperature, vegetation cover and elevation were the most important variables. The subfamily Triatominae includes a group of hematophagous insects, vectors of the parasite Trypanosoma cruzi , which is the etiological agent of Chagas disease, also known as American trypanosomiasis. Triatomines occur in the Old and New World and occupy diverse habitats including tropical and temperate areas. Some studies suggest the distributions of triatomines group into three or four regions. This study objectively determined bioregions focused specifically on New World Triatominae, using clustering and ordination analysis. We also identified indicator species by bioregion and investigated relationships among bioregions and environmental variables using redundancy analysis and multivariate regression trees. We delineated seven bioregions specific to Triatominae and linked each with indicator species. This result suggests more biogeographical structure exists than was revealed in earlier studies that were more general, subjective, and based on older taxonomic and distributional information. Precipitation, elevation, and vegetation were important variables in the delimitating bioregions. This implies that more detailed study of how these factors influence triatomine distributions could benefit understanding of how Chagas disease is spread. [ABSTRACT FROM AUTHOR]

Published

2024

27. Thermal performance of the Chagas disease vector, Triatoma infestans, under thermal variability.

Author

Clavijo-Baquet, Sabrina, Cavieres, Grisel, González, Avia, Cattan, Pedro E., and Bozinovic, Francisco

Subjects

*CHAGAS' disease, *DISEASE vectors, *GLOBAL environmental change, *TRIATOMA, *CONENOSES, *TRICHOMONIASIS

Abstract

Vector-borne diseases (VBD) are particularly susceptible to climate change because most of the diseases' vectors are ectotherms, which themselves are susceptible to thermal changes. The Chagas disease is one neglected tropical disease caused by the protozoan parasite, Trypanosoma cruzi. One of the main vectors of the Chagas disease in South America is Triatoma infestans, a species traditionally considered to be restricted to domestic or peridomestic habitats, but sylvatic foci have also been described along its distribution. The infestation of wild individuals, together with the projections of environmental changes due to global warming, urge the need to understand the relationship between temperature and the vector's performance. Here, we evaluated the impact of temperature variability on the thermal response of T. infestans. We acclimated individuals to six thermal treatments for five weeks to then estimate their thermal performance curves (TPCs) by measuring the walking speed of the individuals. We found that the TPCs varied with thermal acclimation and body mass. Individuals acclimated to a low and variable ambient temperature (18°C ± 5°C) exhibited lower performances than those individuals acclimated to an optimal temperature (27°C ± 0°C); while those individuals acclimated to a low but constant temperature (18°C ± 0°C) did not differ in their maximal performance from those at an optimal temperature. Additionally, thermal variability (i.e., ± 5°C) at a high temperature (30°C) increased performance. These results evidenced the plastic response of T. infestans to thermal acclimation. This plastic response and the non-linear effect of thermal variability on the performance of T. infestans posit challenges when predicting changes in the vector's distribution range under climate change. Author summary: The Chagas disease is transmitted by the infected feces of kissing bugs, such as Triatoma infestans, when it feeds on human blood. This species is an ectotherm and its physical activity level, behavior, and survival respond to environmental changes in temperature. Climate change predicts changes in environmental temperature and its variability. These changes may affect the distribution and survival of T. infestans, generating difficulties for eradication programs. Here, we evaluated the effects of temperature, and its variability on the performance of T. infestans' individuals maintained at or acclimated to six different temperatures, which capture the essence of climate change predictions regarding temperature (i.e., temperatures displaying changes in mean and in variance). We found that T. infestans exhibited a plastic response to thermal conditions, with individuals performing worse at a low mean temperature (18°C) with variance (± 5°C), while individuals acclimated to the same low temperature (18°C) without variance (± 0°C) performed as good as individuals acclimated to their optimal temperature (27°C). Nevertheless, thermal variation at a high mean temperature (30°C ± 5°C) increased performance. Thus, we concluded that the thermal variability affects the performance of this species, in a non-linear way. From our results, the difficulty to predict climate change effects on populations of T. infestans becomes evident, as well as the need to include putative thermal plasticity in future predictions. [ABSTRACT FROM AUTHOR]

Published

2021

28. Regulation of a Trehalose-Specific Facilitated Transporter (TRET) by Insulin and Adipokinetic Hormone in Rhodnius prolixus , a Vector of Chagas Disease.

Author

Leyria, Jimena, El-Mawed, Hanine, Orchard, Ian, and Lange, Angela B.

Subjects

TREHALOSE, RHODNIUS prolixus, CHAGAS' disease, DISEASE vectors, CARBOHYDRATE metabolism, CONENOSES

Abstract

Using the blood-sucking kissing bug, Rhodnius prolixus as an experimental model, we have studied the involvement of insulin-like peptides (ILPs) and adipokinetic hormone (AKH) signaling in carbohydrate metabolism, focusing on the regulation of the trehalose-specific facilitated transporter (Rhopr-TRET), particularly in the ovaries. We find that trehalose stores in ovaries increase after feeding, synchronously with the beginning of vitellogenesis, but that the transcript expression of enzymes involved in trehalose synthesis show no changes between unfed and blood-fed animals. However, an eightfold increase in Rhopr-TRET transcript expression is observed in the ovaries post-blood meal. In vivo and ex vivo assays using exogenous insulins and Rhopr-AKH, reveal that Rhopr-TRET is up-regulated in ovaries by both peptide families. In accordance with these results, when ILP and AKH signaling cascades are impaired using RNA interference, Rhopr-TRET transcript is down-regulated. In addition, trehalose injection induces an up-regulation of Rhopr-TRET transcript expression and suggests an activation of insulin signaling. Overall, the results support the hypothesis of a direct trehalose uptake by ovaries from the hemolymph through Rhopr-TRET, regulated by ILP and/or AKH. We also show that Rhopr-TRET may work cooperatively with AKH signaling to support the release of trehalose from the ovaries into the hemolymph during the unfed (starved) condition. In conclusion, the results indicate that in females of R. prolixus , trehalose metabolism and its hormonal regulation by ILP and AKH play critical roles in adapting to different nutritional conditions and physiological states. [ABSTRACT FROM AUTHOR]

Published

2021

29. A biogeographic–ecological approach to disentangle reticulate evolution in the Triatoma phyllosoma species group (Heteroptera: Triatominae), vectors of Chagas disease.

Author

Rengifo‐Correa, Laura, Abad‐Franch, Fernando, Martínez‐Hernández, Fernando, Salazar‐Schettino, Paz M., Téllez‐Rendón, Juan L., Villalobos, Guiehdani, and Morrone, Juan J.

Subjects

*DISEASE vectors, *TRIATOMA, *CONENOSES, *SPECIES, *CHAGAS' disease, *MOLECULAR phylogeny, *HEMIPTERA, *SPECIES hybridization

Abstract

Introgression and incomplete lineage sorting (ILS) are two of the main sources of gene‐tree incongruence; both can confound the assessment of phylogenetic relationships among closely related species. The Triatoma phyllosoma species group is a clade of partially co‐distributed and cross‐fertile Chagas disease vectors. Despite previous efforts, the phylogeny of this group remains unresolved, largely because of substantial gene‐tree incongruence. Here, we sequentially address introgression and ILS to provide a robust phylogenetic hypothesis for the T. phyllosoma species group. To identify likely instances of introgression prior to molecular scrutiny, we assessed biogeographic data and information on fertility of inter‐specific crosses. We first derived a few explicit hybridization hypotheses by considering the degree of spatial overlap within each species pair. Then, we assessed the plausibility of these hypotheses in the light of each species pair's cross‐fertility. Using this contextual information, we evaluated mito‐nuclear (cyt b, ITS‐2) gene‐tree incongruence and found evidence suggesting introgression within two species pairs. Finally, we modeled ILS using a Bayesian multispecies coalescent approach and either (a) a "complete" dataset with all the specimens in our sample, or (b) a "filtered" dataset without putatively introgressed specimens. The "filtered tree" had higher posterior‐probability support, as well as more plausible topology and divergence times, than the "complete tree." Detecting and filtering out introgression and modeling ILS allowed us to derive an improved phylogenetic hypothesis for the T. phyllosoma species group. Our results illustrate how biogeographic and ecological‐reproductive contextual information can help clarify the systematics and evolution of recently diverged taxa prone to introgression and ILS. [ABSTRACT FROM AUTHOR]

Published

2021

30. Analysis of Chagas disease vectors occurrence data: the Argentinean triatomine species database.

Author

Ceccarelli, Soledad, Balsalobre, Agustín, Cano, Maria Eugenia, Canale, Delmi, Lobbia, Patricia, Stariolo, Raúl, Rabinovich, Jorge Eduardo, and Marti, Gerardo Anibal

Subjects

DISEASE vectors, CONENOSES, ECOLOGICAL regions, HEALTH policy, HABITATS

Abstract

Background Chagas disease is a neglected tropical disease and Trypanosoma cruzi (its etiological agent) is mainly transmitted by triatomines (Hemiptera: Reduviidae). All triatomine species are considered as potential vectors; thus, their geographic distribution and habitat information should be a fundamental guide for the surveillance and control of Chagas disease. Currently, of the 137 species distributed in the Americas (Justi and Galvão 2017), 17 species are cited for Argentina: Panstrongylus geniculatus, P. guentheri, P. megistus, P. rufotuberculatus, Psammolestes coreodes, Triatoma breyeri, T. delpontei, T. eratyrusiformis, T. garciabesi, T. guasayana, T. infestans, T. limai, T. patagonica, T. platensis, T. rubrofasciata, T. rubrovaria and T. sordida. Almost 20 years have passed since the publication of the "Atlas of the Triatominae" by Carcavallo et al. (1998) and no work has been done to provide an updated complete integration and analysis of the existing information for Argentinean triatomine species. Here we provide a detailed temporal, spatial and ecological analysis of updated occurrence data for triatomines present in Argentina. New information This is the first database of the 17 triatomine species present in Argentina (15917 records), with a critical analysis of the temporal, spatial and ecological characteristics of 9788 records. The information spans the last 100 years (1918-2019) and it was mostly obtained from the DataTri database and from the Argentinean Vector Reference Center. As 70% of the occurrences corresponded to the last 20 years, the information was split into two broad periods (pre-2000 and post-2000). Occurrence data for most species show distribution range contractions, which, from the pre-2000 to post-2000 period, became restricted mainly to the dry and humid Chaco ecoregions. Concurrently, the highest species richness foci occurred within those ecoregions. The species T. infestans, T. sordida, T. garciabesi and T. guasayana mostly colonise human dwelling habitats. This study provides the most comprehensive picture available for Argentinean triatomine species and we hope that any knowledge gaps will encourage others to keep this information updated to assist health policy-makers to make decisions based on the best evidence. [ABSTRACT FROM AUTHOR]

Published

2020

31. Studies from NOVA Southeastern University Yield New Data on Chagas Disease (Integrated pest management strategies targeting the Florida kissing bug, Triatoma sanguisuga: Preventing this vector of Chagas disease from invading your home).

Subjects

CONENOSES, CHAGAS' disease, INTEGRATED pest control, DISEASE vectors, TRIATOMA

Abstract

A recent study conducted by researchers at NOVA Southeastern University focuses on Chagas disease, a parasitic infection transmitted by kissing bugs. The study specifically examines the Florida kissing bug, Triatoma sanguisuga, which frequently invades homes and poses a risk to humans and animals. The researchers propose integrated pest management strategies to minimize human exposure to these bugs, including detailed inspections, removal of nesting areas, home improvements to prevent bug entry, pest removal, and judicious use of pesticides. Implementing these strategies can help prevent kissing bug bites and Chagas disease infections in humans and animals. [Extracted from the article]

Published

2024

32. Biogeographical factors determining Triatoma recurva distribution in Chihuahua, México, 2014.

Author

Torres, María Elena, Rojas, Hugo Luis, Alatorre, Luis Carlos, Bravo, Luis Carlos, Uc, Mario Iván, González, Manuel Octavio, Wiebe, Lara Cecilia, and Granados, Alfredo

Subjects

TRIATOMA, CHAGAS' disease, CONENOSES, ECOLOGICAL models, ECOLOGICAL niche

Abstract

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Published

2020

33. Phylogenetic structure of geographical co‐occurrence among New World Triatominae species, vectors of Chagas disease.

Author

Ceccarelli, Soledad, Justi, Silvia A., Rabinovich, Jorge E., Diniz Filho, José Alexandre F., and Villalobos, Fabricio

Subjects

*DISEASE vectors, *CONENOSES, *CHAGAS' disease, *SEASONAL temperature variations, *HEMIPTERA, *SPECIES, TROPICAL climate

Abstract

Aim: The tropical niche conservatism (TNC) hypothesis is one of the most prominent evolutionary hypotheses that has been supported as an explanation for the diversity gradients of several animal taxa, mainly vertebrates. However, the validity of TNC for less‐known taxa such as disease vectors is not clear. Here, we test predictions of TNC in driving the geographical co‐occurrence among triatomine species, vector insects of Chagas disease. We aim to infer the relative effects of ecological and evolutionary processes in determining triatomine species richness at broad spatial scales. Location: America. Taxon: Triatominae (Hemiptera: Reduviidae). Methods: We gathered distributional, phylogenetic and climatic information for 63 triatomine species. We apply the phylogenetic field (PF) framework based on the phylogenetic structure of species co‐occurrences, considering their climatic preferences. We defined PFs of species by estimating the phylogenetic structure of species co‐occurrence within a focal species' range. Likewise, climatic conditions within focal species' ranges were defined as their preferred climates. We applied a spatial‐phylogenetic statistical framework to evaluate geographical variation of species' co‐occurrence and tested the significance of PFs based on biogeographically informed null models. Results: Phylogenetic fields of 17 out of 59 triatomine species showed a trend from overdispersed to clustered, coincident with tropical to subtropical–temperate climate. Triatomines co‐occur with more closely related species in temperate areas and more distantly related species in tropical areas. Temperature seasonality was inversely related to the phylogenetic structure of co‐occurrence within species ranges. Main conclusions: Geographical co‐occurrence among triatomine species revealed a tropical to subtropical–temperate gradient from overdispersed to clustered PFs and a correspondence between the type of climate in which these species are found and their PFs. Phylogenetic structure within triatomine ranges is explained by their evolutionary history. Our study provides a methodological framework to evaluate the New World triatomine geographical co‐occurrence patterns under a phylogenetic perspective and our results make an important contribution to the understanding of the broad‐scale biodiversity patterns in Triatominae. [ABSTRACT FROM AUTHOR]

Published

2020

34. Distribution, genetic characteristics and public health implications of Triatoma rubrofasciata, the vector of Chagas disease in Guangxi, China.

Author

Shi, Yunliang, Wei, Yaobao, Feng, Xiangyang, Liu, Jianfeng, Jiang, Zhihua, Ou, Fangqi, Wei, Haiyan, Lv, Guoli, Wan, Xiaoling, Wang, Ziyue, and Yang, Yichao

Subjects

*TRIATOMA, *CHAGAS' disease, *DISEASE vectors, *CONENOSES, *CYTOCHROME b, *PUBLIC health

Abstract

Background: Triatomines are natural vectors of Chagas disease and are mainly prevalent in the Americas. In China, previous data from decades ago showed that there were two species of triatomine bugs, Triatoma rubrofasciata and T. sinica. However, the distribution, genetic characteristics and public health implications of triatomines in China are still relatively unknown. In order to gain knowledge on the distribution, genetic characteristics and public health implications of the triatomines in Guangxi, China, an entomological-epidemiological study and genetic research was conducted. Methods: Different methods were used to elucidate the distribution of triatomines in Guangxi including consultations with county-level Center for Disease Prevention and Control staff and village doctors, the distribution of educational material on triatomines though the internet and social media apps such as Wechat and QQ, and conducting manual inspections and light trapping to collect triatomines. The morphological characteristics of the collected triatomines were identified under light microscopy. The mitochondrial 16S rRNA, cytochrome b (cytb) genes and nuclear 28S rRNA gene were amplified, sequenced and used in phylogenetic analyses. Results: A total of 305 triatomines were captured from 54 different sites in 13 cities in Guangxi. All collected bugs were identified as T. rubrofasciata based on morphology. Most triatomine collection sites were around or inside houses. Four triatomines bite cases were observed during the investigation indicating that triatomine bites are common, the bites can cause serious anaphylaxis and skin papules and urticaria, suggesting a systemic skin response. The 16S rRNA, 28S rRNA and cytb sequence analyses of T. rubrofasciata from Guangxi and other countries showed that T. rubrofasciata sequences from different regions exhibit a high similarity, with no geographical differences. The phylogenetic tree based on the 16S rRNA and cytb genes showed that T. rubrofasciata sequences from different regions and continents were in the same cluster, indicating no differentiation among different geographical populations. Conclusions: Our study showed that T. rubrofasciata is widely distributed in Guangxi and that people are commonly bitten by this insect in some regions. This highlights the need to enhance surveillance for and control of T. rubrofasciata and to strengthen the monitoring of imported Trypanosoma cruzi in China. The 16S rRNA, 28S rRNA and cytb sequence analyses of T. rubrofasciata from different regions and continents suggested that T. rubrofasciata populations exhibit high similarity, and the clustering in the phylogenetic analyses indicates that T. rubrofasciata has a close ancestor originating in the Americas. [ABSTRACT FROM AUTHOR]

Published

2020

35. The innate immune system of kissing bugs, vectors of chagas disease.

Author

Salcedo-Porras, Nicolás and Lowenberger, Carl

Subjects

*CONENOSES, *CHAGAS' disease, *DISEASE vectors, *IMMUNE system, *INSECTS, *TRYPANOSOMA cruzi, *INSECT physiology

Abstract

Kissing bugs have long served as models to study many aspects of insect physiology. They also serve as vectors for the parasite Trypanosoma cruzi that causes Chagas disease in humans. The overall success of insects is due, in part, to their ability to recognize parasites and pathogens as non-self and to eliminate them using their innate immune system. This immune system comprises physical barriers, cellular responses (phagocytosis, nodulation and encapsulation), and humoral factors (antimicrobial peptides and the prophenoloxidase cascade). Trypanosoma cruzi survives solely in the gastrointestinal (GI) tract of the vector; if it migrates to the hemocoel it is eliminated. Kissing bugs may not mount a vigorous immune response in the GI tract to avoid eliminating obligate symbiotic microbes on which they rely for survival. Here we describe the current knowledge of innate immunity in kissing bugs and new opportunities using genomic and transcriptomic approaches to study the complex triatomine-trypanosome-microbiome interactions. • Kissing bugs have a robust innate immune system to eliminate parasites and pathogens. • In the gut of kissing bugs the human parasite T. cruzi is not eliminated. • Different bacterial species can be the principal gut symbiont in triatomines. • Using omics tools will help elucidate these complex tritrophic interactions. • Introduction. [ABSTRACT FROM AUTHOR]

Published

2019

36. First record of domestic colonies of the dark chromatic variant of Triatoma infestans (Hemiptera: Reduviidae).

Author

LOBBIA, Patricia A., ALVAREZ, Rodrigo, PICOLLO, María I., and MOUGABURE-CUETO, Gastón

Subjects

*TRIATOMA infestans, *ASSASSIN bugs, *SPECIES distribution, *CONENOSES, *CHAGAS' disease, *DISEASE vectors, *COLOR of insects

Abstract

Triatoma infestans (Klug) is the main vector of Chagas disease in southern South America. Although this species shows a similar morphology and chromatic pattern throughout its geographical distribution, some melanic variations have been described. Most of these variants were recognized as part of wild populations constituting evidence of a wild distribution for T. infestans greater than the expected. This paper reports the presence of eight adults and fifteen immature individuals of melanic T. infestans in domiciliary units of Argentine Gran Chaco. This is the first report of domestic colonies of the dark chromatic morph of T. infestans. [ABSTRACT FROM AUTHOR]

Published

2019

37. Identification of Triatomines and Their Habitats in a Highly Developed Urban Environment.

Author

Dye-Braumuller, Kyndall C., Gorchakov, Rodion, Gunter, Sarah M., Nielsen, David H., Roachell, Walter D., Wheless, Anna, Debboun, Mustapha, Murray, Kristy O., and Nolan, Melissa S.

Subjects

*CONENOSES, *URBAN ecology, *CHAGAS' disease, *TRIATOMA, *DISEASE vectors

Abstract

Eleven triatomine species, the vector for Chagas disease, are endemic in the southern U.S. While traditionally thought to only occur in rural habitats and sylvatic transmission cycles, recent studies provide compounding evidence that triatomines could exist in urban habitats and domestic transmission cycles in Texas. We conducted a study of active and passive surveillance techniques over 3 years (2016–2018) in the City of Houston, Harris County, Texas to determine the presence of triatomines in this metroplex. Active surveillance methods uncovered Triatoma sanguisuga nymphs from two locations in downtown Houston city parks. We also documented the first Trypanosoma cruzi positive kissing bug collected in an urban environment of Harris County, Texas. Our findings provide evidence that triatomines can be found in heavily populated U.S. urban environments, and warrant public health support for expanded triatomine and Chagas disease surveillance in city settings. [ABSTRACT FROM AUTHOR]

Published

2019

38. An oral dose of Fluralaner administered to dogs kills pyrethroid-resistant and susceptible Chagas disease vectors for at least four months.

Author

Laiño, M.A., Cardinal, M.V., Enriquez, G.F., Alvedro, A., Gaspe, M.S., and Gürtler, R.E.

Subjects

*DISEASE vectors, *CHAGAS' disease, *RURAL housing, *DOGS, *INSECT mortality, *CONENOSES

Abstract

• A randomized trial assessed the effects of Fluralaner in dogs on Triatoma infestans. • Fluralaner exerted no significant effects on bug feeding success or engorgement level. • Insect mortality was ≥99% up to 60 days posttreatment (DPT). • Mortality was high over 90–120 DPT depending on bug stage and susceptibility status. • Fluralaner and xenointoxication are eligible for Phase III efficacy trials. New vector control tools that can fit into a broader integrated vector management strategy are notably lacking. We conducted a seven-month randomized trial to assess the efficacy of a single oral dose of Fluralaner (Bravecto®) administered to dogs on the blood-feeding success, engorgement levels and mortality of pyrethroid-resistant and -susceptible Triatoma infestans third- and fifth-instar nymphs. The trial included 10 Fluralaner-treated and 10 placebo-treated (control) outbred healthy dogs residing in rural houses of the Argentine Chaco. Most (92.7%) of the 3017 triatomines exposed were able to blood-feed. Generalized linear models showed that blood-feeding success was not significantly modified by Fluralaner treatment, time posttreatment and their interaction. However, pyrethroid-susceptible fifth instars blood-fed significantly more frequently than susceptible third instars, and no significant differences were observed between the latter and resistant fifth instars. Engorgement levels were not significantly modified by Fluralaner treatment, time posttreatment and their interaction. Nearly all the triatomines that blood-fed on treated dogs up to 60 days posttreatment (DPT) died within 24 h regardless of pyrethroid susceptibility status combined with bug stage. Cumulative bug mortality over 4 days postexposure remained high over 90–120 DPT (70–81% in susceptible third and fifth instars, and 47–49% in resistant fifth instars), and was virtually nil at 210 DPT. Triatomines that fed on control dogs suffered marginal mortality (0–4%) except at 4 and 30 DPT. Fluralaner and xenointoxication are eligible for Phase III efficacy trials alone or combined with other methods in the frame of an integrated vector management strategy in areas with or without pyrethroid resistance. [ABSTRACT FROM AUTHOR]

Published

2019

39. Community-based surveillance and control of chagas disease vectors in remote rural areas of the Argentine Chaco: A five-year follow-up.

Author

Cecere, María C., Rodríguez-Planes, Lucía I., Vazquez-Prokopec, Gonzalo M., Kitron, Uriel, and Gürtler, Ricardo E.

Subjects

*DISEASE vectors, *INSECTICIDES, *VECTOR control, *CONENOSES, *PUBLIC health

Abstract

Graphical abstract Highlights • House infestation was consistently higher in peridomestic than in domestic habitats. • Domestic abundance decreased with recent house-level insecticide spraying. • Peridomestic abundance increased with prior and current domestic abundance. • Domestic and peridomestic vector populations were interconnected. • Community-directed efforts controlled domestic vectors and interrupted transmission. Abstract Prevention of Chagas disease vector-borne transmission mostly relies on the residual application of pyrethroid insecticide. Persistent or recurrent house infestation after insecticide spraying remains a serious challenge in remote, resource-poor rural areas where public health services face substantial constraints. Here we use generalized estimating equations and multimodel inference to model the fine-scale, time-lagged effects of a community-based vector surveillance-and-response strategy on house infestation and abundance of Triatoma infestans in four rural communities of the Argentine Chaco over a five-year period. Householders and community leaders were trained to detect triatomines and spray with insecticides their premises if infested. House infestation and vector abundance were consistently higher in peridomestic habitats than in human habitations (domiciles). Householders supplemented with sensor boxes detected infested domiciles (67%) more frequently than timed-manual searches (49%). Of all houses ever found to be infested by timed-manual searches, 76% were sprayed within six months upon detection. Domestic triatomine abundance was significantly related to house-level insecticide spraying during the previous year (inversely) and current peridomestic abundance (positively). Peridomestic triatomine abundance significantly increased with current domestic bug abundance and maximum peridomestic abundance during the previous year, and was unaffected by insecticide spraying. Our study provides new empirical evidence of the interconnection and flow between domestic and peridomestic populations of T. infestans under recurrent insecticide treatments, and supports targeting both habitats with appropriate tactics for longer-lasting, improved vector control. Community-directed efforts succeeded in controlling domestic infestations and interrupting domestic transmission, whereas persistent peridomestic infestations demand sustained control efforts to address domestic reinvasions. [ABSTRACT FROM AUTHOR]

Published

2019

40. Description of Triatoma huehuetenanguensis sp. n., a potential Chagas disease vector (Hemiptera, Reduviidae, Triatominae).

Author

Lima-Cordón, Raquel Asunción, Monroy, María Carlota, Stevens, Lori, Rodas, Antonieta, Rodas, Gabriela Anaité, Dorn, Patricia L., and Justi, Silvia A.

Subjects

*HEMIPTERA, *TRIATOMA, *DISEASE vectors, *ASSASSIN bugs, *CHAGAS' disease, *CONENOSES, *TRYPANOSOMA cruzi

Abstract

A new species of the genus Triatoma Laporte, 1832 (Hemiptera, Reduviidae) is described based on specimens collected in the department of Huehuetenango, Guatemala. Triatoma huehuetenanguensis sp. n. is closely related to T. dimidiata (Latreille, 1811), with the following main morphological differences: lighter color; smaller overall size, including head length; and width and length of the pronotum. Natural Trypanosoma cruzi (Chagas, 1909) infection, coupled with its presence in domestic habitats, makes this species a potentially important vector of Trypanosoma cruzi in Guatemala. [ABSTRACT FROM AUTHOR]

Published

2019

41. Anti-complement activity in salivary glands and midgut of Chagas disease vector, Panstrongylus megistus (Hemiptera, Triatominae).

Author

Antonio Ferreira Mendes-Sousa, Elias de Almeida Rocha Filho, Mateus Almeida Macêdo, and Veruska Cavalcanti Barros

Subjects

SALIVARY glands, CHAGAS' disease, DISEASE vectors, ECULIZUMAB, CONENOSES, HEMIPTERA

Abstract

The triatomine insect Panstrongylus megistus, one of the most important Chagas disease vectors in Brazil, presents salivary molecules pharmacologically active to counteract homeostatic responses from the host, including inhibitors of the human complement system, a major effector of immune responses. The aim of the present study was to investigate the effect of P. megistus salivary gland extract (SGE) on the complement system from different host species and characterize the inhibitory effect of SGE and intestinal contents on human complement. Glands and midguts from fourth instar nymphs were used. Hemolytic assays were performed with sheep erythrocytes as complement activators by using human, rats and chickens sera in the presence or absence of SGE. An ELISA assay was carried out detect deposition of the C3b component on IgG- or agarose-sensitized microplates, in the presence or absence of SGE or midgut contents. P. megistus SGE was able to significantly inhibit the complement of the three studied species (human, rat and chiken). Both, SGE and midgut contents inhibited C3b deposition in either the classical or the alternative pathways. As conclusions, SGE and midgut from P. megistus possess anti-complement activity. The inhibitors are effective against different host species and act on the initial steps of the complement system cascade. These inhibitors may have a role in blood feeding and Trypanosoma cruzi transmission by the vector. [ABSTRACT FROM AUTHOR]

Published

2019

42. Biological parameters of the triatomine, Meccus phyllosomus pallidipennis, fed on two bloodmeal sources under laboratory conditions.

Author

Martínez‐Ibarra, J. A., Grant‐Guillén, Y., Nogueda‐Torres, B., Villagrán‐Herrera, M. E., de Diego‐Cabrera, J. A., and Bustos‐Saldaña, R.

Subjects

*CONENOSES, *PATHOGENIC microorganisms, *TRYPANOSOMA cruzi, *DISEASE vectors, *HEMIPTERA

Abstract

Chagas disease is one of the most important vector‐borne diseases in Latin America, including Mexico. Meccus phyllosomus pallidipennis (Stål), 1872 (Hemiptera: Reduviidae) is a Mexican triatomine vector that is commonly associated with hens and rabbits. The biological parameters of two cohorts fed on hens (H) and on rabbits (R) were evaluated. The median lifecycles of the two cohorts were 198 days (H) and 180 days (R). Moreover, mortality was around 30% in both cohorts. Time lapse for beginning of feeding was 0.5–1.9 (H) and 1.1–2.4 min (R). Feeding times of each instar in both cohorts were over 10 min. Most specimens fed on hens defecated immediately after feeding, whereas those that fed on rabbits defecated within 1–5 min post‐feeding. Similar numbers of males and females (50%) were obtained in both cohorts. An average of 2.1–2.3 eggs per female per day was noted in both cohorts, with eclosion rates of 95.4 (H) and 88.8% (R). Thus, it can be concluded that M. phyllosomus pallidipennis may take advantage of feeding in hens, as in rabbits, which could imply a higher risk of Trypanosoma cruzi transmission to humans and animals in its distribution area. Biological parameters of two cohorts of Meccus phyllosomus pallidipennis fed on hens and rabbits as bloodmeal sources are reported, with slight advantages for the cohort fed on hens.An apparent influence of the race of hens used as bloodmeal source was noticed.Study parameters lead to considering that M. phyllosomus pallidipennis is a very skilful subspecies, as it can easily take advantage of feeding on different hosts. [ABSTRACT FROM AUTHOR]

Published

2018

43. Complete Mitochondrial Genome of the Chagas Disease Vector, Triatoma rubrofasciata.

Author

Li Dong, Xiaoling Ma, Mengfei Wang, Dan Zhu, Yuebiao Feng, Yi Zhang, and Jingwen Wang

Subjects

CHAGAS' disease, DISEASE vectors, TRIATOMA, NUCLEOTIDE sequence, CONENOSES

Abstract

Triatoma rubrofasciata is a wide-spread vector of Chagas disease in Americas. In this study, we completed the mitochondrial genome sequencing of T. rubrofasciata. The total length of T. rubrofasciata mitochondrial genome was 17,150 bp with the base composition of 40.4% A, 11.6% G, 29.4% T and 18.6% C. It included 13 protein-coding genes, 22 tRNA genes, 2 rRNA genes and one control region. We constructed a phylogenetic tree on the 13 protein-coding genes of T. rubrofasciata and other 13 closely related species to show their phylogenic relationship. The determination of T. rubrofasciata mitogenome would play an important role in understanding the genetic diversity and evolution of triatomine bugs. [ABSTRACT FROM AUTHOR]

Published

2018

44. Phylogeography and demographic history of the Chagas disease vector Rhodnius nasutus (Hemiptera: Reduviidae) in the Brazilian Caatinga biome.

Author

Peretolchina, Tatiana, Pavan, Márcio G., Corrêa-Antônio, Jessica, Gurgel-Gonçalves, Rodrigo, Lima, Marli M., and Monteiro, Fernando A.

Subjects

*RHODNIUS, *CONENOSES, *BIOGEOGRAPHY, *TRYPANOSOMA cruzi, *CYTOCHROME b

Abstract

Background: Rhodnius nasutus, a vector of the etiological agent Trypanosoma cruzi, is one of the epidemiologically most relevant triatomine species of the Brazilian Caatinga, where it often colonizes rural peridomestic structures such as chicken coops and occasionally invades houses. Historical colonization and determination of its genetic diversity and population structure may provide new information towards the improvement of vector control in the region. In this paper we present thoughtful analyses considering the phylogeography and demographic history of R. nasutus in the Caatinga. Methodology/Principal findings: A total of 157 R. nasutus specimens were collected from Copernicia prunifera palm trees in eight geographic localities within the Brazilian Caatinga biome, sequenced for 595-bp fragment of the mitochondrial cytochrome b gene (cyt b) and genotyped for eight microsatellite loci. Sixteen haplotypes were detected in the cyt b sequences, two of which were shared between different localities. Molecular diversity indices exhibited low diversity and a haplotype network revealed low divergence among R. nasutus sequences, with two central haplotypes shared by five of the eight populations analyzed. The demographic model that better represented R. nasutus population dynamics was the exponential growth model. Results of the microsatellite data analyses indicated that the entire population is comprised of four highly differentiated groups, with no obvious contemporary geographic barriers that could explain the population substructure detected. A complex pattern of migration was observed, in which a western Caatinga population seems to be the source of emigrants to the eastern populations. Conclusions/Significance: R. nasutus that inhabit C. prunifera palms do not comprise a species complex. The species went through a population expansion at 12–10 ka, during the Holocene, which coincides with end of the largest dry season in South America. It colonized the Caatinga in a process that occurred from west to east in the region. R. nasutus is presently facing an important ecological impact caused by the continuous deforestation of C. prunifera palms in northeast Brazil. We hypothesize that this ecological disturbance might contribute to an increase in the events of invasion and colonization of human habitations. [ABSTRACT FROM AUTHOR]

Published

2018

45. Bacterial community composition in the salivary glands of triatomines (Hemiptera: Reduviidae).

Author

Lima, Michele Souza, da Silva Neto, Mário Alberto Cardoso, Atella, Georgia Correa, Laport, Marinella Silva, dos Santos, Kátia Regina Netto, Rachid, Caio Tavora Coelho da Costa, Lorosa, Elias Seixas, and Jurberg, José

Subjects

*BACTERIAL communities, *CONENOSES, *SALIVARY glands, *CHAGAS' disease, *TRYPANOSOMA cruzi, *DISEASE risk factors

Abstract

Background: Chagas disease is caused by the parasite Trypanosoma cruzi and is transmitted through triatomines (Hemiptera: Reduviidae). In the last year, many studies of triatomine gut microbiota have outlined its potential role in modulating vector competence. However, little is known about the microbiota present in the salivary glands of triatomines. Bacterial composition of salivary glands in selected triatomine species was investigated, as well as environmental influences on the acquisition of bacterial communities. Methodology/Principal findings: The diversity of the bacterial communities of 30 pairs of salivary glands of triatomines was studied by sequencing of the V1- V3 variable region of the 16S rRNA using the MiSeq platform (Illumina), and bacteria isolated from skin of three vertebrate hosts were identified based on 16S rRNA gene sequence analysis (targeting the V3–V5 region). In a comparative analysis of microbiota in the salivary glands of triatomine species, operational taxonomic units belonging to Arsenophonous appeared as dominant in Triatoma spp (74% of the total 16S coverage), while these units belonging to unclassified Enterobacteriaceae were dominant in the Rhodnius spp (57% of the total 16S coverage). Some intraspecific changes in the composition of the triatomine microbiota were observed, suggesting that some bacteria may have been acquired from the environment. Conclusions and significance: Our study revealed the presence of a low-diversity microbiota associated to the salivary glands of the evaluated triatomines. The predominant bacteria genera are associated with triatomine genera and the bacteria can be acquired in the environment in which the insects reside. Further studies are necessary to determine the influence of bacterial communities on vector competence. [ABSTRACT FROM AUTHOR]

Published

2018

46. The effect of temperature increase on the development of Rhodnius prolixus and the course of Trypanosoma cruzi metacyclogenesis.

Author

Tamayo, Laura D., Guhl, Felipe, Vallejo, Gustavo A., and Ramírez, Juan David

Subjects

*RHODNIUS prolixus, *TRYPANOSOMA cruzi, *CLIMATE change, *CHAGAS' disease, *CONENOSES

Abstract

The increase in the global land temperature, expected under predictions of climate change, can directly affect the transmission of some infectious diseases, including Chagas disease, an anthropozoonosis caused by Trypanosoma cruzi and transmitted by arthropod vectors of the subfamily Triatominae. This work seeks to study the effects of temperature on the development of the life cycle, fertility and fecundity of the insect vector Rhodnius prolixus and on the metacyclogenesis of T. cruzi. All of the variables were subjected to 3 temperatures: 26°C, 28°C and 30°C. Hatching time was evaluated, along with time to fifth instar, time to adult, fecundity studied using the e-value, and egg viability during the first 3 reproductive cycles. In addition, the amounts of metacyclic trypomastigotes of the TcI and TcII DTUs in R. prolixus were evaluated from days 2 to 20 at two-day intervals and from weeks 6 to 8 post-infection. Decreases were observed in time to hatching (15–10 days on average) and in time to fifth instar (70–60 days on average) and transition to adult (100–85 days on average). No significant differences in egg viability were observed in any of the reproductive cycles evaluated, but an increase in fecundity was observed at 30°C during the third reproductive cycle. At 30°C, there was also an increase in the number of infective forms and a decrease in the time at which metacyclic trypomastigotes were detected in the rectal ampulla of the insects for both TcI and TcII. According to these results, the expected temperature increase under climate change would cause an increase in the number of insects and a greater probability of infection of the parasite, which affects the transmission of Chagas disease. [ABSTRACT FROM AUTHOR]

Published

2018

47. Heme crystallization in a Chagas disease vector acts as a redox-protective mechanism to allow insect reproduction and parasite infection.

Author

Ferreira, Caroline M., Stiebler, Renata, Saraiva, Francis M., Lechuga, Guilherme C., Walter-Nuno, Ana Beatriz, Bourguignon, Saulo C., Gonzalez, Marcelo S., Azambuja, Patrícia, Gandara, Ana Caroline P., Menna-Barreto, Rubem F. S., Paiva-Silva, Gabriela O., Paes, Marcia C., and Oliveira, Marcus F.

Subjects

*CHAGAS' disease, *SPECTROPHOTOMETRY, *FLUORESCENCE microscopy, *CONENOSES, *INFECTION

Abstract

Heme crystallization as hemozoin represents the dominant mechanism of heme disposal in blood feeding triatomine insect vectors of the Chagas disease. The absence of drugs or vaccine for the Chagas disease causative agent, the parasite Trypanosoma cruzi, makes the control of vector population the best available strategy to limit disease spread. Although heme and redox homeostasis regulation is critical for both triatomine insects and T. cruzi, the physiological relevance of hemozoin for these organisms remains unknown. Here, we demonstrate that selective blockage of heme crystallization in vivo by the antimalarial drug quinidine, caused systemic heme overload and redox imbalance in distinct insect tissues, assessed by spectrophotometry and fluorescence microscopy. Quinidine treatment activated compensatory defensive heme-scavenging mechanisms to cope with excessive heme, as revealed by biochemical hemolymph analyses, and fat body gene expression. Importantly, egg production, oviposition, and total T. cruzi parasite counts in R. prolixus were significantly reduced by quinidine treatment. These effects were reverted by oral supplementation with the major insect antioxidant urate. Altogether, these data underscore the importance of heme crystallization as the main redox regulator for triatomine vectors, indicating the dual role of hemozoin as a protective mechanism to allow insect fertility, and T. cruzi life-cycle. Thus, targeting heme crystallization in insect vectors represents an innovative way for Chagas disease control, by reducing simultaneously triatomine reproduction and T. cruzi transmission. [ABSTRACT FROM AUTHOR]

Published

2018

48. Trypanosoma cruzi Transmission Among Captive Nonhuman Primates, Wildlife, and Vectors.

Author

Hodo, Carolyn L., Wilkerson, Gregory K., Birkner, Elise C., Gray, Stanton B., and Hamer, Sarah A.

Subjects

TRYPANOSOMA cruzi, CHAGAS' disease, PRIMATE diseases, RHESUS monkeys, CONENOSES, DISEASE vectors

Abstract

Natural infection of captive nonhuman primates (NHPs) with Trypanosoma cruzi (agent of Chagas disease) is an increasingly recognized problem in facilities across the southern USA, with negative consequences for NHP health and biomedical research. We explored a central Texas NHP facility as a nidus of transmission by characterizing parasite discrete typing units (DTU) in seropositive rhesus macaques (Macaca mulatta), identifying the wildlife reservoirs, and characterizing vector infection. In seropositive NHPs, we documented low and intermittent concentrations of circulating T. cruzi DNA, with two DTUs in equal proportions, TcI and TcIV. In contrast, consistently high concentrations of T. cruzi DNA were found in wild mesomammals at the facility, yet rodents were PCR-negative. Strong wildlife host associations were found in which raccoons (Procyon lotor) harbored TcIV and opossums (Didelphis virginiana) harbored TcI, while skunks (Mephitis mephitis) were infected with both DTUs. Active and passive vector surveillance yielded three species of triatomines from the facility and in proximity to the NHP enclosures, with 17% T. cruzi infection prevalence. Interventions to protect NHP and human health must focus on interrupting spillover from the robust sylvatic transmission in the surrounding environment. [ABSTRACT FROM AUTHOR]

Published

2018

49. Keeping cool: Kissing bugs avoid cannibalism by thermoregulating.

Author

Lazzari, Claudio R., Fauquet, Aurélie, and Lahondère, Chloé

Subjects

*CONENOSES, *CANNIBALISM, *BODY temperature regulation, *WARM-blooded animals, *INSECT larvae, *INSECTS

Abstract

Kissing bugs possess a highly developed thermal sense and when starved, they attempt to bite any object which temperature is close to that of a warm-blooded host. At each feeding event, these insects take massive meals in just a few minutes. One could then expect fed-bugs being heated-up by the ingested warm blood and so becoming attractive to starved conspecifics. This is not however the case, arising the question about why cannibalism is very rare among these insects. Recently, the ability of thermoregulating during feeding has been demonstrated in Rhodnius prolixus . These bugs possess a countercurrent heat-exchanger that cools down the ingested blood, before it reaches the abdomen. We hypothesise that avoiding thermal stress is not the only adaptive advantages of this mechanism, but could also help avoiding cannibalism. We tested this hypothesis by quantifying cannibalism by never-fed first-instar larvae on: (1) just-fed 5th instar bugs, (2) artificially heated just-fed bugs, (3) heated or (4) non-heated objects of the same size. In line with our hypothesis, non-heated just-fed bugs were not attacked by the 1st instar larvae, whereas heated bugs and object triggered biting behaviour in starved bugs, which performed either cleptohaematophagy or haemolymphagy on heated bugs. We conclude that cannibalism triggered by thermal stimuli has been one of the selection pressures that gave origin to thermoregulation during feeding on kissing bugs. [ABSTRACT FROM AUTHOR]

Published

2018

50. Ecological and physiological thermal niches to understand distribution of Chagas disease vectors in Latin America.

Author

DE LA VEGA, G. J. and SCHILMAN, P. E.

Subjects

*CHAGAS' disease, *CONENOSES, *THERMAL tolerance (Physiology), *DISEASE vectors, *PHYLOGENY, *INFECTIOUS disease transmission

Abstract

Abstract: In order to assess how triatomines (Hemiptera, Reduviidae), Chagas disease vectors, are distributed through Latin America, we analysed the relationship between the ecological niche and the limits of the physiological thermal niche in seven species of triatomines. We combined two methodological approaches: species distribution models, and physiological tolerances. First, we modelled the ecological niche and identified the most important abiotic factor for their distribution. Then, thermal tolerance limits were analysed by measuring maximum and minimum critical temperatures, upper lethal temperature, and ‘chill‐coma recovery time’. Finally, we used phylogenetic independent contrasts to analyse the link between limiting factors and the thermal tolerance range for the assessment of ecological hypotheses that provide a different outlook for the geo‐epidemiology of Chagas disease. In triatomines, thermo‐tolerance range increases with increasing latitude mainly due to better cold tolerances, suggesting an effect of thermal selection. In turn, physiological analyses show that species reaching southernmost areas have a higher thermo‐tolerance than those with tropical distributions, denoting that thermo‐tolerance is limiting the southern distribution. Understanding the latitudinal range along its physiological limits of disease vectors may prove useful to test ecological hypotheses and improve strategies and efficiency of vector control at the local and regional levels. [ABSTRACT FROM AUTHOR]

Published

2018