Your search keyword '"Sant'Anna, Mauricio R. V."' showing total 32 results

1. Features of Interaction Between Triatomines and Vertebrates Based on Bug Feeding Parameters

Author

Soares, Adriana C., Sant’Anna, Maurício R. V., Gontijo, Nelder F., Araújo, Ricardo N., Pessoa, Grasielle C. D., Koerich, Leonardo B., Pereira, Marcos H., Guarneri, Alessandra, editor, and Lorenzo, Marcelo, editor

Published

2021

2. RNA-seq analysis of the salivary glands and midgut of the Argasid tick Ornithodoros rostratus

Author

Araujo, Ricardo N., Silva, Naylene C. S., Mendes-Sousa, Antonio, Paim, Rafaela, Costa, Gabriel C. A., Dias, Luciana R., Oliveira, Karla, Sant’Anna, Mauricio R. V., Gontijo, Nelder F., Pereira, Marcos H., Pessoa, Grasielle D., Valenzuela, Jesus G., Koerich, Leonardo B., and Oliveira, Fabiano

Published

2019

3. Genomic analysis of two phlebotomine sand fly vectors of Leishmania from the New and Old World

Author

Labbé, Frédéric, primary, Abdeladhim, Maha, additional, Abrudan, Jenica, additional, Araki, Alejandra Saori, additional, Araujo, Ricardo N., additional, Arensburger, Peter, additional, Benoit, Joshua B., additional, Brazil, Reginaldo Pecanha, additional, Bruno, Rafaela V., additional, Bueno da Silva Rivas, Gustavo, additional, Carvalho de Abreu, Vinicius, additional, Charamis, Jason, additional, Coutinho-Abreu, Iliano V., additional, da Costa-Latgé, Samara G., additional, Darby, Alistair, additional, Dillon, Viv M., additional, Emrich, Scott J., additional, Fernandez-Medina, Daniela, additional, Figueiredo Gontijo, Nelder, additional, Flanley, Catherine M., additional, Gatherer, Derek, additional, Genta, Fernando A., additional, Gesing, Sandra, additional, Giraldo-Calderón, Gloria I., additional, Gomes, Bruno, additional, Aguiar, Eric Roberto Guimaraes Rocha, additional, Hamilton, James G. C., additional, Hamarsheh, Omar, additional, Hawksworth, Mallory, additional, Hendershot, Jacob M., additional, Hickner, Paul V., additional, Imler, Jean-Luc, additional, Ioannidis, Panagiotis, additional, Jennings, Emily C., additional, Kamhawi, Shaden, additional, Karageorgiou, Charikleia, additional, Kennedy, Ryan C., additional, Krueger, Andreas, additional, Latorre-Estivalis, José M., additional, Ligoxygakis, Petros, additional, Meireles-Filho, Antonio Carlos A., additional, Minx, Patrick, additional, Miranda, Jose Carlos, additional, Montague, Michael J., additional, Nowling, Ronald J., additional, Oliveira, Fabiano, additional, Ortigão-Farias, João, additional, Pavan, Marcio G., additional, Horacio Pereira, Marcos, additional, Nobrega Pitaluga, Andre, additional, Proveti Olmo, Roenick, additional, Ramalho-Ortigao, Marcelo, additional, Ribeiro, José M. C., additional, Rosendale, Andrew J., additional, Sant’Anna, Mauricio R. V., additional, Scherer, Steven E., additional, Secundino, Nágila F. C., additional, Shoue, Douglas A., additional, da Silva Moraes, Caroline, additional, Gesto, João Silveira Moledo, additional, Souza, Nataly Araujo, additional, Syed, Zainulabueddin, additional, Tadros, Samuel, additional, Teles-de-Freitas, Rayane, additional, Telleria, Erich L., additional, Tomlinson, Chad, additional, Traub-Csekö, Yara M., additional, Marques, João Trindade, additional, Tu, Zhijian, additional, Unger, Maria F., additional, Valenzuela, Jesus, additional, Ferreira, Flávia V., additional, de Oliveira, Karla P. V., additional, Vigoder, Felipe M., additional, Vontas, John, additional, Wang, Lihui, additional, Weedall, Gareth D., additional, Zhioua, Elyes, additional, Richards, Stephen, additional, Warren, Wesley C., additional, Waterhouse, Robert M., additional, Dillon, Rod J., additional, and McDowell, Mary Ann, additional

Published

2023

4. Recent Technological Advances and Strategies for Arbovirus Vector Control

Author

Koerich, Leonardo B., primary, Sant’Anna, Mauricio R. V., additional, and Huits, Ralph, additional

Published

2022

5. Analysis of the testicle’s transcriptome of the Chagas disease vectorRhodnius prolixus

Author

Cardoso, Jovino C., primary, Ribeiro, Jose M. C., additional, dos Santos, Daniela V., additional, Pereira, Marcos H., additional, Araújo, Ricardo N., additional, Gontijo, Nelder F., additional, Pessoa, Grasielle C. D., additional, Sant’Anna, Mauricio R. V., additional, Sorgine, Marcos H. F., additional, Majerowicz, David, additional, Medeiros, Marcelo, additional, Braz, Gloria R. C., additional, Mesquita, Rafael D., additional, Oliveira, Pedro L., additional, and Koerich, Leonardo B., additional

Published

2019

6. Functional aspects of salivary nitric oxide synthase of Rhodnius prolixus (Hemiptera, Reduviidae) and nitric oxide trafficking at the vector-host interface

Author

Paim, Rafaela M. M., primary, Nascimento, Bruno W. L., additional, Nascimento, Ana Mércia D., additional, Pacheco, Dimitri E., additional, Soares, Adriana C., additional, Araujo, Ricardo N., additional, Sant’Anna, Mauricio R. V., additional, Pessoa, Grasielle C. D., additional, Gontijo, Nelder F., additional, and Pereira, Marcos H., additional

Published

2017

7. Virus-like Particle Display of the α-Gal Carbohydrate for Vaccination against Leishmania Infection

Author

Moura, Anna Paula V., primary, Santos, Luiza C. B., additional, Brito, Carlos Ramon Nascimento, additional, Valencia, Edward, additional, Junqueira, Caroline, additional, Filho, Adalberto A. P., additional, Sant’Anna, Mauricio R. V., additional, Gontijo, Nelder F., additional, Bartholomeu, Daniella C., additional, Fujiwara, Ricardo T., additional, Gazzinelli, Ricardo T., additional, McKay, Craig S., additional, Sanhueza, Carlos A., additional, Finn, M. G., additional, and Marques, Alexandre Ferreira, additional

Published

2017

8. The Sand Fly Salivary Protein Lufaxin Inhibits the Early Steps of the Alternative Pathway of Complement by Direct Binding to the Proconvertase C3b-B

Author

Mendes-Sousa, Antonio F., primary, Vale, Vladimir Fazito do, additional, Silva, Naylene C. S., additional, Guimaraes-Costa, Anderson B., additional, Pereira, Marcos H., additional, Sant’Anna, Mauricio R. V., additional, Oliveira, Fabiano, additional, Kamhawi, Shaden, additional, Ribeiro, José M. C., additional, Andersen, John F., additional, Valenzuela, Jesus G., additional, and Araujo, Ricardo N., additional

Published

2017

9. Saliva of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) inhibits classical and alternative complement pathways

Author

Silva, Naylene C. S., primary, Vale, Vladimir F., additional, Franco, Paula F., additional, Gontijo, Nelder F., additional, Valenzuela, Jesus G., additional, Pereira, Marcos H., additional, Sant’Anna, Mauricio R. V., additional, Rodrigues, Daniel S., additional, Lima, Walter S., additional, Fux, Blima, additional, and Araujo, Ricardo N., additional

Published

2016

10. Colonisation resistance in the sand fly gut:Leishmania protects Lutzomyia longipalpis from bacterial infection

Author

Sant'Anna, Mauricio R. V., Diaz-Albiter, Hector, Aguiar-Martins, Kelsilândia, Al Salem, Waleed S., Cavalcante, Reginaldo R., Dillon, Viv M., Bates, Paul A., Genta, Fernando A., Dillon, Rod J., Sant'Anna, Mauricio R. V., Diaz-Albiter, Hector, Aguiar-Martins, Kelsilândia, Al Salem, Waleed S., Cavalcante, Reginaldo R., Dillon, Viv M., Bates, Paul A., Genta, Fernando A., and Dillon, Rod J.

Abstract

BACKGROUND: Phlebotomine sand flies transmit the haemoflagellate Leishmania, the causative agent of human leishmaniasis. The Leishmania promastigotes are confined to the gut lumen and are exposed to the gut microbiota within female sand flies. Here we study the colonisation resistance of yeast and bacteria in preventing the establishment of a Leishmania population in sand flies and the ability of Leishmania to provide colonisation resistance towards the insect bacterial pathogen Serratia marcescens that is also pathogenic towards Leishmania. METHODS: We isolated microorganisms from wild-caught and laboratory-reared female Lutzomyia longipalpis, identified as Pseudozyma sp. Asaia sp. and Ochrobactrum intermedium. We fed the females with a sugar meal containing the microorganisms and then subsequently fed them with a bloodmeal containing Leishmania mexicana and recorded the development of the Leishmania population. Further experiments examined the effect of first colonising the sand fly gut with L. mexicana followed by feeding with, Serratia marcescens, an insect bacterial pathogen. The mortality of the flies due to S. marcescens was recorded in the presence and absence of Leishmania. RESULTS: There was a reduction in the number of flies harbouring a Leishmania population that had been pre-fed with Pseudozyma sp. and Asaia sp. or O. intermedium. Experiments in which L. mexicana colonised the sand fly gut prior to being fed an insect bacterial pathogen, Serratia marcescens, showed that the survival of flies with a Leishmania infection was significantly higher compared to flies without Leishmania infection. CONCLUSIONS: The yeast and bacterial colonisation experiments show that the presence of sand fly gut microorganisms reduce the potential for Leishmania to establish within the sand fly vector. Sand flies infected with Leishmania were able to survive an attack by the bacterial pathogen that would have killed the insect and we concluded that Leishmania may benefit its

Published

2014

11. Colonisation resistance in the sand fly gut : Leishmania protects Lutzomyia longipalpis from bacterial infection

Author

Sant'Anna, Mauricio R. V., Diaz-Albiter, Hector, Aguiar-Martins, Kelsilândia, Al Salem, Waleed S., Cavalcante, Reginaldo R., Dillon, Viv M., Bates, Paul A., Genta, Fernando A., Dillon, Rod J., Sant'Anna, Mauricio R. V., Diaz-Albiter, Hector, Aguiar-Martins, Kelsilândia, Al Salem, Waleed S., Cavalcante, Reginaldo R., Dillon, Viv M., Bates, Paul A., Genta, Fernando A., and Dillon, Rod J.

Abstract

BACKGROUND: Phlebotomine sand flies transmit the haemoflagellate Leishmania, the causative agent of human leishmaniasis. The Leishmania promastigotes are confined to the gut lumen and are exposed to the gut microbiota within female sand flies. Here we study the colonisation resistance of yeast and bacteria in preventing the establishment of a Leishmania population in sand flies and the ability of Leishmania to provide colonisation resistance towards the insect bacterial pathogen Serratia marcescens that is also pathogenic towards Leishmania. METHODS: We isolated microorganisms from wild-caught and laboratory-reared female Lutzomyia longipalpis, identified as Pseudozyma sp. Asaia sp. and Ochrobactrum intermedium. We fed the females with a sugar meal containing the microorganisms and then subsequently fed them with a bloodmeal containing Leishmania mexicana and recorded the development of the Leishmania population. Further experiments examined the effect of first colonising the sand fly gut with L. mexicana followed by feeding with, Serratia marcescens, an insect bacterial pathogen. The mortality of the flies due to S. marcescens was recorded in the presence and absence of Leishmania. RESULTS: There was a reduction in the number of flies harbouring a Leishmania population that had been pre-fed with Pseudozyma sp. and Asaia sp. or O. intermedium. Experiments in which L. mexicana colonised the sand fly gut prior to being fed an insect bacterial pathogen, Serratia marcescens, showed that the survival of flies with a Leishmania infection was significantly higher compared to flies without Leishmania infection. CONCLUSIONS: The yeast and bacterial colonisation experiments show that the presence of sand fly gut microorganisms reduce the potential for Leishmania to establish within the sand fly vector. Sand flies infected with Leishmania were able to survive an attack by the bacterial pathogen that would have killed the insect and we concluded that Leishmania may benefit its

Published

2014

12. Reactive Oxygen Species-mediated Immunity against Leishmania mexicana and Serratia marcescens in the Phlebotomine Sand Fly Lutzomyia longipalpis

Author

Diaz-Albiter, Hector, Sant'anna, Mauricio R V, Genta, Fernando A, Dillon, Rod J, Diaz-Albiter, Hector, Sant'anna, Mauricio R V, Genta, Fernando A, and Dillon, Rod J

Abstract

Phlebotomine sand flies are the vectors of medically important Leishmania. The Leishmania protozoa reside in the sand fly gut, but the nature of the immune response to the presence of Leishmania is unknown. Reactive oxygen species (ROS) are a major component of insect innate immune pathways regulating gut-microbe homeostasis. Here we show that the concentration of ROS increased in sand fly midguts after they fed on the insect pathogen Serratia marcescens but not after feeding on the Leishmania that uses the sand fly as a vector. Moreover, the Leishmania is sensitive to ROS either by oral administration of ROS to the infected fly or by silencing a gene that expresses a sand fly ROS-scavenging enzyme. Finally, the treatment of sand flies with an exogenous ROS scavenger (uric acid) altered the gut microbial homeostasis, led to an increased commensal gut microbiota, and reduced insect survival after oral infection with S. marcescens. Our study demonstrates a differential response of the sand fly ROS system to gut microbiota, an insect pathogen, and the Leishmania that utilize the sand fly as a vehicle for transmission between mammalian hosts.

Published

2012

13. Investigation of the bacterial communities associated with females of Lutzomyia sand fly species from South America

Author

Sant'anna, Mauricio R V, Darby, Alistair C, Brazil, Reginaldo P, Montoya-Lerma, James, Dillon, Viv M, Bates, Paul A, Dillon, Rod J, Sant'anna, Mauricio R V, Darby, Alistair C, Brazil, Reginaldo P, Montoya-Lerma, James, Dillon, Viv M, Bates, Paul A, and Dillon, Rod J

Abstract

Phlebotomine sand flies are vectors of Leishmania that are acquired by the female sand fly during blood feeding on an infected mammal. Leishmania parasites develop exclusively in the gut lumen during their residence in the insect before transmission to a suitable host during the next blood feed. Female phlebotomine sand flies are blood feeding insects but their life style of visiting plants as well as animals, and the propensity for larvae to feed on detritus including animal faeces means that the insect host and parasite are exposed to a range of microorganisms. Thus, the sand fly microbiota may interact with the developing Leishmania population in the gut. The aim of the study was to investigate and identify the bacterial diversity associated with wild adult female Lutzomyia sand flies from different geographical locations in the New World. The bacterial phylotypes recovered from 16S rRNA gene clone libraries obtained from wild caught adult female Lutzomyia sand flies were estimated from direct band sequencing after denaturing gradient gel electrophoresis of bacterial 16 rRNA gene fragments. These results confirm that the Lutzomyia sand flies contain a limited array of bacterial phylotypes across several divisions. Several potential plant-related bacterial sequences were detected including Erwinia sp. and putative Ralstonia sp. from two sand fly species sampled from 3 geographically separated regions in Brazil. Identification of putative human pathogens also demonstrated the potential for sand flies to act as vectors of bacterial pathogens of medical importance in addition to their role in Leishmania transmission.

Published

2012

14. Reactive oxygen species scavenging by catalase is important for female lutzomyia longipalpis fecundity and mortality

Author

Diaz-Albiter, Hector, Mitford, Roanna, Genta, Fernando A., Sant'Anna, Mauricio R. V., Dillon, Rod J., Diaz-Albiter, Hector, Mitford, Roanna, Genta, Fernando A., Sant'Anna, Mauricio R. V., and Dillon, Rod J.

Abstract

The phlebotomine sand fly Lutzomyia longipalpis is the most important vector of American visceral leishmaniasis (AVL), the disseminated and most serious form of the disease in Central and South America. In the natural environment, most female L. longipalpis are thought to survive for less than 10 days and will feed on blood only once or twice during their lifetime. Successful transmission of parasites occurs when a Leishmania-infected female sand fly feeds on a new host. Knowledge of factors affecting sand fly longevity that lead to a reduction in lifespan could result in a decrease in parasite transmission. Catalase has been found to play a major role in survival and fecundity in many insect species. It is a strong antioxidant enzyme that breaks down toxic reactive oxygen species (ROS). Ovarian catalase was found to accumulate in the developing sand fly oocyte from 12 to 48 hours after blood feeding. Catalase expression in ovaries as well as oocyte numbers was found to decrease with age. This reduction was not found in flies when fed on the antioxidant ascorbic acid in the sugar meal, a condition that increased mortality and activation of the prophenoloxidase cascade. RNA interference was used to silence catalase gene expression in female Lu. longipalpis. Depletion of catalase led to a significant increase of mortality and a reduction in the number of developing oocytes produced after blood feeding. These results demonstrate the central role that catalase and ROS play in the longevity and fecundity of phlebotomine sand flies.

Published

2011

15. Blood meal identification and parasite detection in laboratory-fed and field-captured Lutzomyia longipalpis by PCR using FTA databasing paper

Author

Sant'Anna, Mauricio R V, Jones, Nathaniel G, Hindley, Jonathan A, Mendes-Sousa, Antonio F, Dillon, Rod J, Cavalcante, Reginaldo R, Alexander, Bruce, Bates, Paul A, Sant'Anna, Mauricio R V, Jones, Nathaniel G, Hindley, Jonathan A, Mendes-Sousa, Antonio F, Dillon, Rod J, Cavalcante, Reginaldo R, Alexander, Bruce, and Bates, Paul A

Abstract

The phlebotomine sand fly Lutzomyia longipalpis takes blood from a variety of wild and domestic animals and transmits Leishmania (Leishmania) infantum chagasi, etiological agent of American visceral leishmaniasis. Blood meal identification in sand flies has depended largely on serological methods but a new protocol described here uses filter-based technology to stabilise and store blood meal DNA, allowing subsequent PCR identification of blood meal sources, as well as parasite detection, in blood-fed sand flies. This technique revealed that 53.6% of field-collected sand flies captured in the back yards of houses in Teresina (Brazil) had fed on chickens. The potential applications of this technique in epidemiological studies and strategic planning for leishmaniasis control programmes are discussed.

Published

2008

16. Investigation of the Bacterial Communities Associated with Females of Lutzomyia Sand Fly Species from South America

Author

Sant’Anna, Mauricio R. V., primary, Darby, Alistair C., additional, Brazil, Reginaldo P., additional, Montoya-Lerma, James, additional, Dillon, Viv M., additional, Bates, Paul A., additional, and Dillon, Rod J., additional

Published

2012

17. Reactive Oxygen Species Scavenging by Catalase Is Important for Female Lutzomyia longipalpis Fecundity and Mortality

Author

Diaz-Albiter, Hector, primary, Mitford, Roanna, additional, Genta, Fernando A., additional, Sant'Anna, Mauricio R. V., additional, and Dillon, Rod J., additional

Published

2011

18. Colonisation resistance in the sand fly gut: Leishmania protects Lutzomyia longipalpis from bacterial infection.

Author

Sant’Anna, Mauricio R. V., Diaz-Albiter, Hector, Aguiar-Martins, Kelsilândia, Al Salem, Waleed S., Cavalcante, Reginaldo R., Dillon, Viv M., Bates, Paul A., Genta, Fernando A., and Dillon, Rod J.

Abstract

Background: Phlebotomine sand flies transmit the haemoflagellate Leishmania, the causative agent of human leishmaniasis. The Leishmania promastigotes are confined to the gut lumen and are exposed to the gut microbiota within female sand flies. Here we study the colonisation resistance of yeast and bacteria in preventing the establishment of a Leishmania population in sand flies and the ability of Leishmania to provide colonisation resistance towards the insect bacterial pathogen Serratia marcescens that is also pathogenic towards Leishmania. Methods: We isolated microorganisms from wild-caught and laboratory-reared female Lutzomyia longipalpis, identified as Pseudozyma sp. Asaia sp. and Ochrobactrum intermedium. We fed the females with a sugar meal containing the microorganisms and then subsequently fed them with a bloodmeal containing Leishmania mexicana and recorded the development of the Leishmania population. Further experiments examined the effect of first colonising the sand fly gut with L. mexicana followed by feeding with, Serratia marcescens, an insect bacterial pathogen. The mortality of the flies due to S. marcescens was recorded in the presence and absence of Leishmania. Results: There was a reduction in the number of flies harbouring a Leishmania population that had been pre-fed with Pseudozyma sp. and Asaia sp. or O. intermedium. Experiments in which L. mexicana colonised the sand fly gut prior to being fed an insect bacterial pathogen, Serratia marcescens, showed that the survival of flies with a Leishmania infection was significantly higher compared to flies without Leishmania infection. Conclusions: The yeast and bacterial colonisation experiments show that the presence of sand fly gut microorganisms reduce the potential for Leishmania to establish within the sand fly vector. Sand flies infected with Leishmania were able to survive an attack by the bacterial pathogen that would have killed the insect and we concluded that Leishmania may benefit its insect host whilst increasing the potential to establish itself in the sand fly vector. We suggest that the increased ability of the sand fly to withstand a bacterial entomopathogen, due to the presence of the Leishmania, may provide an evolutionary pressure for the maintenance of the Leishmania-vector association. [ABSTRACT FROM AUTHOR]

Published

2014

19. Investigation of the Bacterial Communities Associated with Females of Lutzomyia Sand Fly Species from South America.

Author

Darby, Alistair C., Brazil, Reginaldo P., Montoya-Lerma, James, Dillon, Viv M., Bates, Paul A., Dillon, Rod J., Sant'Anna, Mauricio R. V., and Moreira, Luciano A.

Subjects

SAND flies, LEISHMANIA, PLANTS, DETRITUS, PSYCHODIDAE

Abstract

Phlebotomine sand flies are vectors of Leishmania that are acquired by the female sand fly during blood feeding on an infected mammal. Leishmania parasites develop exclusively in the gut lumen during their residence in the insect before transmission to a suitable host during the next blood feed. Female phlebotomine sand flies are blood feeding insects but their life style of visiting plants as well as animals, and the propensity for larvae to feed on detritus including animal faeces means that the insect host and parasite are exposed to a range of microorganisms. Thus, the sand fly microbiota may interact with the developing Leishmania population in the gut. The aim of the study was to investigate and identify the bacterial diversity associated with wild adult female Lutzomyia sand flies from different geographical locations in the New World. The bacterial phylotypes recovered from 16S rRNA gene clone libraries obtained from wild caught adult female Lutzomyia sand flies were estimated from direct band sequencing after denaturing gradient gel electrophoresis of bacterial 16 rRNA gene fragments. These results confirm that the Lutzomyia sand flies contain a limited array of bacterial phylotypes across several divisions. Several potential plant-related bacterial sequences were detected including Erwinia sp. and putative Ralstonia sp. from two sand fly species sampled from 3 geographically separated regions in Brazil. Identification of putative human pathogens also demonstrated the potential for sand flies to act as vectors of bacterial pathogens of medical importance in addition to their role in Leishmania transmission. [ABSTRACT FROM AUTHOR]

Published

2012

20. Chicken blood provides a suitable meal for the sand fly Lutzomyia longipalpis and does not inhibit Leishmania development in the gut.

Author

Sant'Anna, Mauricio R. V., Nascimento, Alexandre, Alexander, Bruce, Dilger, Erin, Cavalcante, Reginaldo R., Diaz-Albiter, Hector M., Bates, Paul A., and Dillon, Rod J.

Subjects

*CHICKEN diseases, *LUTZOMYIA, *SAND flies, *INFECTIOUS disease transmission, *BLOOD parasites, *HEMOGLOBINS, *PROTEINS, *PATHOGENIC microorganisms, *INFECTION

Abstract

Background: The aim of this study was to address the role of chickens as bloodmeal sources for female Lutzomyia longipalpis and to test whether chicken blood is harmful to Leishmania parasite development within the sand flies. Bloodmeal ingestion, excretion of urate, reproduction, fecundity, as well as Leishmania infection and development were compared in sand flies fed on blood from chickens and different mammalian sources. Results: Large differences in haemoglobin and protein concentrations in whole blood (dog>human>rabbit> chicken) did not correlate with differences in bloodmeal protein concentrations (dog = chicken>human>rabbit). This indicated that Lu. longipalpis were able to concentrate bloodmeals taken from different hosts using prediuresis and this was confirmed by direct observation. Sand flies fed on chickens or dogs produced significantly more eggs than those fed on human blood. Female Lu. longipalpis retained significantly more urate inside their bodies when fed on chicken blood compared to those fed on rabbit blood. However, when the amounts of urate excreted after feeding were measured, sand flies fed on rabbit blood excreted significantly more than those fed on chicken blood. There was no difference in female longevity after feeding on avian or mammalian blood. Sand flies infected via chicken blood produced Leishmania mexicana infections with a similar developmental pattern but higher overall parasite populations than sand flies infected via rabbit blood. Conclusions: The results of this study help to define the role that chickens play in the epidemiology of leishmaniasis. The present study using a Lu. longipalpis/L. mexicana model indicates that chickens are suitable hosts to support a Lu. longipalpis population and that chicken blood is likely to support the development of transmissible Leishmania infections in Lu. longipalpis. [ABSTRACT FROM AUTHOR]

Published

2010

21. Gut membrane proteins as candidate antigens for immunization of mice against the tick Amblyomma sculptum.

Author

Costa GCA, Ribeiro ICT, Giunchetti RC, Gontijo NF, Sant'Anna MRV, Pereira MH, Pessoa GCD, Koerich LB, Oliveira F, Valenzuela JG, Fujiwara RT, Bartholomeu DC, and Araujo RN

Subjects

Animals, Mice, Female, Immunization methods, Membrane Proteins immunology, Membrane Proteins genetics, Immunoglobulin G blood, Immunoglobulin G immunology, Recombinant Proteins immunology, Recombinant Proteins genetics, Tick Infestations prevention & control, Tick Infestations immunology, Rickettsia rickettsii immunology, Brazil, Male, Mice, Inbred BALB C, Antigens immunology, Amblyomma immunology

Abstract

Amblyomma sculptum is widely distributed in Brazil and is the main vector of Rickettsia rickettsii, the causative agent of the Brazilian spotted fever (BSF). Tick gut proteins play an essential role in blood feeding, digestion, and protection of gut epithelium. Therefore, many of these were investigated as potential vaccine targets for tick-control strategies. The present study aimed to select transcripts corresponding to putative immunogenic proteins in the A. sculptum gut epithelial membrane, produce recombinant proteins and evaluate them as antigens against A. sculptum infestations. Three gut proteins - AsMucin, AsAPP, and AsLAMP - and a chimeric protein (rAsChimera) based on 22 peptides containing putative B cell epitopes from seven different gut proteins were evaluated as anti-A. sculptum antigens. Mice immunizations revealed that all recombinant targets elicited humoral response with significantly increased IgG levels compared to controls. For rAsChimera, IgG levels remained significantly higher than controls up to 75 days after the end of the immunization. Challenge trials revealed that vaccination with the chimeric protein was the most effective against A. sculptum, inducing 100 % nymph mortality and reaching 80.8 % efficacy against females. The other three proteins did not induce relevant protection, as AsAPP had only 26.6 % efficacy, whereas AsMucin and AsLAMP induced no protection. These data indicate that targeting gut protein immunogenic regions may be an effective strategy for a vaccine formulation againstA. sculptum., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Ricardo Nascimento Araujo has patent #BR 10 2019 018609 7 pending to INPI- Instituto Nacional de Propriedade Intelectual. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

22. An updated catalog of lipocalins of the chagas disease vector Rhodnius prolixus (Hemiptera, Reduviidae).

Author

Santos DV, Gontijo NF, Pessoa GCD, Sant'Anna MRV, Araujo RN, Pereira MH, and Koerich LB

Subjects

Animals, Insect Vectors genetics, Lipocalins genetics, Phylogeny, Chagas Disease, Rhodnius chemistry, Rhodnius genetics

Abstract

The haematophagy process by arthropods has been one of the main targets of studies in the parasite-host interaction, and the kissing-bug Rhodnius prolixus, vector of the protozoan Trypanosoma cruzi, has been one of the main models for such studies. Still in the 1980s, it was identified that among the salivary proteins for disrupting vertebrate host homeostasis, lipocalins were among the most relevant proteins for this process. Since then, 30 lipocalins have been identified in the salivary glands of R. prolixus, that promotes vasodilatation, prevents inflammation, act as anticoagulants and inhibits platelet aggregation. The present work aims to identify new lipocalins from R. prolixus, combining transcriptome and genome data. Identified new genes were mapped and had their structure annotated. To infer an evolutionary relationship between lipocalins, and to support the predicted functions for each lipocalin, all amino acid sequences were used to construct phylogenetic trees. We identified a total of 29 new lipocalins, 3 new bioaminogenic-biding proteins (which act to inhibit platelet aggregation and vasodilation), 9 new inhibitors of platelet aggregation, 7 new apolipoproteins and 10 lipocalins with no putative function. In addition, we observed that several of the lipocalins are also expressed in different R. prolxius tissues, including gut, central nervous system, antennae, and reproductive organs. In addition to newly identified lipocalins and a mapping the new and old lipocalins in the genome of R. prolixus, our study also carried out a review on functional status and nomenclature of some of the already identified lipocalins. Our study reinforces that we are far from understanding the role of lipocalins in the physiology of R. prolixus, and that studies of this family are still of great relevance., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

23. Effect of Triatoma infestans saliva on mouse immune system cells: The role of the pore-forming salivary protein trialysin.

Author

Rocha FF, Gazzinelli-Guimarães PH, Soares AC, Lourdes RA, Estevão LRM, Rachid MA, Bueno LL, Gontijo NF, Pereira MH, Sant'Anna MRV, Natividade UA, Fujiwara RT, and Araujo RN

Subjects

Animals, Immune System, Mice, Saliva, Salivary Proteins and Peptides pharmacology, Triatoma, Trypanosoma cruzi

Abstract

Triatoma infestans is one of the most important vectors of Trypanosoma cruzi in the Americas. While feeding, they release large amounts of saliva that will counteract the host's responses triggered at the bite site. Despite the various activities described on T. infestans saliva, little is known about its effect on the modulation of the host's immune system. This work aimed to describe the effects of T. infestans saliva on cells of the mouse immune system and access the role in hematophagy. The effect of saliva or salivary gland extract (SGE) was evaluated in vivo and in vitro by direct T. infestans feeding on mice or using different biological assays. Mice that were submitted to four bites by three specimens of T. infestans had their anti-saliva IgG serum levels approximately 2.4 times higher than controls, but no change in serum IL-2, IL-4, IL-6, IL-10, IL-17A, IFN-γ, and TNF-α levels was observed. No macroscopic alterations were seen at the bite site, but an accumulation of mononuclear and polymorphonuclear cells shortly after the bite and 24 h later were observed in histological cuts. At low concentrations (up to ∼5 μg/well), SGE induced TNF-α production by macrophages and spleen cells, IFN-γ and IL-10 by spleen cells and NO by macrophages. However, at higher concentrations (10 and 20 μg/well), viability of macrophages and spleen cells was reduced by SGE, reducing the production of NO and cytokines (except TNF-α). The salivary trialysin was the main inducer of cell death as macrophage viability and NO production was restored in assays carried out with SGE from trialysin knockdown insects. The reduction of the salivary trialysin by RNAi affected the total ingestion rate, the weight gain, and retarded the molt from second to the fifth instar of T. infestans nymphs fed on mice. The results show that T. infestans saliva modulates the activity of cells of the host immune system and trialysin is an important salivary molecule that reduces host cells viability and impacts the feeding performance of T. infestans feeding on live hosts., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

24. Amblyomma sculptum Salivary Protease Inhibitors as Potential Anti-Tick Vaccines.

Author

Costa GCA, Ribeiro ICT, Melo-Junior O, Gontijo NF, Sant'Anna MRV, Pereira MH, Pessoa GCD, Koerich LB, Oliveira F, Valenzuela JG, Giunchetti RC, Fujiwara RT, Bartholomeu DC, and Araujo RN

Subjects

Amblyomma genetics, Animals, Arthropod Proteins genetics, Arthropod Proteins immunology, Disease Models, Animal, Host-Parasite Interactions, Immunization, Mice, Parasite Egg Count, Tick Infestations immunology, Tick Infestations parasitology, Vaccines genetics, Vaccines immunology, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Amblyomma immunology, Arthropod Proteins administration & dosage, Saliva immunology, Tick Infestations prevention & control, Vaccines administration & dosage

Abstract

Amblyomma sculptum is the main tick associated with human bites in Brazil and the main vector of Rickettsia rickettsii , the causative agent of the most severe form of Brazilian spotted fever. Molecules produced in the salivary glands are directly related to feeding success and vector competence. In the present study, we identified sequences of A. sculptum salivary proteins that may be involved in hematophagy and selected three proteins that underwent functional characterization and evaluation as vaccine antigens. Among the three proteins selected, one contained a Kunitz_bovine pancreatic trypsin inhibitor domain (named AsKunitz) and the other two belonged to the 8.9 kDa and basic tail families of tick salivary proteins (named As8.9kDa and AsBasicTail). Expression of the messenger RNA (mRNA) encoding all three proteins was detected in the larvae, nymphs, and females at basal levels in unfed ticks and the expression levels increased after the start of feeding. Recombinant proteins rAs8.9kDa and rAsBasicTail inhibited the enzymatic activity of factor Xa, thrombin, and trypsin, whereas rAsKunitz inhibited only thrombin activity. All three recombinant proteins inhibited the hemolysis of both the classical and alternative pathways; this is the first description of tick members of the Kunitz and 8.9kDa families being inhibitors of the classical complement pathway. Mice immunization with recombinant proteins caused efficacies against A. sculptum females from 59.4% with rAsBasicTail immunization to more than 85% by immunization with rAsKunitz and rAs8.9kDa. The mortality of nymphs fed on immunized mice reached 70-100%. Therefore, all three proteins are potential antigens with the possibility of becoming a new tool in the control of A. sculptum ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Costa, Ribeiro, Melo-Junior, Gontijo, Sant’Anna, Pereira, Pessoa, Koerich, Oliveira, Valenzuela, Giunchetti, Fujiwara, Bartholomeu and Araujo.)

Published

2021

25. Locomotion activity and its effects on the survival of Amblyomma sculptum (Acari: Ixodidae) nymphs under laboratory conditions.

Author

Natividade UA, Pimenta AP, Cezar RSM, Pereira MH, Gontijo NF, Sant'Anna MRV, Pessoa GD, Koerich LB, and Araujo RN

Subjects

Amblyomma growth & development, Animals, Locomotion, Longevity, Nymph growth & development, Nymph physiology, Amblyomma physiology

Abstract

The active locomotion of ticks is directly associated with the epidemiology of tick-borne diseases, as it has important implications for the interaction of ticks with their hosts and their dispersion in the environment. In an attempt to elucidate the factors involved in the dispersion of Amblyomma sculptum, the present work aimed to characterize different aspects of the active locomotion of A. sculptum nymphs under laboratory conditions. To this end, nymphs were placed on a string at a 70° inclination and their walking activity was recorded daily along with their survival period. During their lifetime, ticks walked an average of 110 m. Their locomotion was not in a straight line and nymphs changed direction 142 times throughout their lifetimes. The mean distance walked per experimental day was 1.8 m, while the average walking distance before changing direction was 52 cm. The distance walked per experimental day reduced over time. The survival of ticks was affected by walking; resting nymphs survived for over 6 months, while the survival of those that walked daily was reduced to approximately 62 days. The results showed that A. sculptum nymphs were able to cover distances of over 100 m throughout their lifetimes, but they walked short distances at a time and constantly changed direction. This behavior indicates that ticks are not able to disperse over long distances by means of active locomotion., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2021

26. Functional evaluation of Heat Shock Proteins 70 (HSP70/HSC70) on Rhodnius prolixus (Hemiptera, Reduviidae) physiological responses associated with feeding and starvation.

Author

Paim RMM, Araujo RN, Leis M, Sant'anna MRV, Gontijo NF, Lazzari CR, and Pereira MH

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cold Temperature adverse effects, DNA, Complementary genetics, DNA, Complementary metabolism, Feeding Behavior, Food Deprivation, HSP70 Heat-Shock Proteins metabolism, Hot Temperature adverse effects, Insect Proteins metabolism, Phylogeny, RNA, Messenger genetics, RNA, Messenger metabolism, Rhodnius genetics, Endoplasmic Reticulum Stress, HSP70 Heat-Shock Proteins genetics, Immunity, Innate, Insect Proteins genetics, Rhodnius physiology

Abstract

Blood-sucking vectors must overcome thermal stress caused by intake of proportionally large amounts of warm blood from their hosts. In response to this, Heat Shock Proteins (HSPs) such as the widely studied HSP70 family (the inducible HSP70 and the cognate form HSC70, known for their role in preserving essential cellular functions) are rapidly up-regulated in their tissues. The triatomine Rhodnius prolixus is an important vector of Trypanosoma cruzi, the causative pathogen of Chagas' disease, and is also a model organism for studying insect biology and physiology. In this work, we observed that the expression of Rhodnius prolixus HSP70 was rapidly up-regulated in response to thermal shocks (0 °C and 40 °C) and also during the first hours after feeding on blood. HSP70/HSC70 RNAi knockdown elicited important alterations in R. prolixus physiological responses triggered by blood meal and starvation. HSP70/HSC70 knockdown insects showed lower resistance to prolonged starvation in comparison to appropriate controls, dying between 32 and 40 days after dsRNA injection. After blood feeding, the physiological effects of HSP70/HSC70 knockdown were more prominent and the insects died even earlier, within 14-20 days after feeding (21-27 days after dsRNA injection). These bugs showed impaired blood processing and digestion, reduced energetic metabolism and the midgut immune responses were compromised. Our findings suggest that HSP70/HSC70 depletion affected R. prolixus in starvation or fed conditions. After feeding, the arrival of blood in the digestive tract of knockdown insects fails to activate essential signaling pathways involved in blood processing, producing several alterations in their physiological processes enough to generate a premature death., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

27. Inhibition of the classical pathway of the complement system by saliva of Amblyomma cajennense (Acari: Ixodidae).

Author

Franco PF, Silva NC, Fazito do Vale V, Abreu JF, Santos VC, Gontijo NF, Valenzuela JG, Pereira MH, Sant'Anna MR, Gomes AP, and Araujo RN

Subjects

Animals, Body Weight, Female, Hemolysis immunology, Horse Diseases parasitology, Horses, Hydrogen-Ion Concentration, Intestines chemistry, Ixodidae anatomy & histology, Male, Mice, Saliva immunology, Tick Infestations parasitology, Tick Infestations veterinary, Complement Pathway, Classical immunology, Ixodidae immunology

Abstract

Inhibition of the complement system during and after haematophagy is of utmost importance for tick success in feeding and tick development. The role of such inhibition is to minimise damage to the intestinal epithelium as well as avoiding inflammation and opsonisation of salivary molecules at the bite site. Despite its importance, the salivary anti-complement activity has been characterised only in species belonging to the Ixodes ricinus complex which saliva is able to inhibit the alternative and lectin pathways. Little is known about this activity in other species of the Ixodidae family. Thus, the aim of this study was to describe the inhibition of the classical pathway of the complement system by the saliva of Amblyomma cajennense at different stages of the haematophagy. The A. cajennense saliva and salivary gland extract (SGE) were able to inhibit the complement classical pathway through haemolytic assays with higher activity observed when saliva was used. The anti-complement activity is present in the salivary glands of starving females and also in females throughout the whole feeding process, with significant higher activity soon after tick detachment. The SGE activity from both females fed on mice or horses had no significant correlation (p > 0.05) with tick body weight. The pH found in the intestinal lumen of A. cajennense was 8.04 ± 0.08 and haemolytic assays performed at pH 8.0 showed activation of the classical pathway similarly to what occurs at pH 7.4. Consequently, inhibition could be necessary to protect the tick enterocytes. Indeed, the inhibition observed by SGE was higher in pH 8.0 in comparison to pH 7.4 reinforcing the role of saliva in protecting the intestinal cells. Further studies should be carried out in order to identify the inhibitor molecule and characterise its inhibition mechanism., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

28. Colonisation resistance in the sand fly gut: Leishmania protects Lutzomyia longipalpis from bacterial infection.

Author

Sant'Anna MR, Diaz-Albiter H, Aguiar-Martins K, Al Salem WS, Cavalcante RR, Dillon VM, Bates PA, Genta FA, and Dillon RJ

Subjects

Animals, Female, Host-Pathogen Interactions, Leishmania physiology, Psychodidae microbiology, Psychodidae parasitology, Serratia physiology

Abstract

Background: Phlebotomine sand flies transmit the haemoflagellate Leishmania, the causative agent of human leishmaniasis. The Leishmania promastigotes are confined to the gut lumen and are exposed to the gut microbiota within female sand flies. Here we study the colonisation resistance of yeast and bacteria in preventing the establishment of a Leishmania population in sand flies and the ability of Leishmania to provide colonisation resistance towards the insect bacterial pathogen Serratia marcescens that is also pathogenic towards Leishmania., Methods: We isolated microorganisms from wild-caught and laboratory-reared female Lutzomyia longipalpis, identified as Pseudozyma sp. Asaia sp. and Ochrobactrum intermedium. We fed the females with a sugar meal containing the microorganisms and then subsequently fed them with a bloodmeal containing Leishmania mexicana and recorded the development of the Leishmania population. Further experiments examined the effect of first colonising the sand fly gut with L. mexicana followed by feeding with, Serratia marcescens, an insect bacterial pathogen. The mortality of the flies due to S. marcescens was recorded in the presence and absence of Leishmania., Results: There was a reduction in the number of flies harbouring a Leishmania population that had been pre-fed with Pseudozyma sp. and Asaia sp. or O. intermedium. Experiments in which L. mexicana colonised the sand fly gut prior to being fed an insect bacterial pathogen, Serratia marcescens, showed that the survival of flies with a Leishmania infection was significantly higher compared to flies without Leishmania infection., Conclusions: The yeast and bacterial colonisation experiments show that the presence of sand fly gut microorganisms reduce the potential for Leishmania to establish within the sand fly vector. Sand flies infected with Leishmania were able to survive an attack by the bacterial pathogen that would have killed the insect and we concluded that Leishmania may benefit its insect host whilst increasing the potential to establish itself in the sand fly vector. We suggest that the increased ability of the sand fly to withstand a bacterial entomopathogen, due to the presence of the Leishmania, may provide an evolutionary pressure for the maintenance of the Leishmania-vector association.

Published

2014

29. Reactive oxygen species-mediated immunity against Leishmania mexicana and Serratia marcescens in the sand phlebotomine fly Lutzomyia longipalpis.

Author

Diaz-Albiter H, Sant'Anna MR, Genta FA, and Dillon RJ

Subjects

Amino Acid Sequence, Animals, Antioxidants administration & dosage, Antioxidants pharmacology, Catalase classification, Catalase genetics, Catalase metabolism, Female, Gastrointestinal Tract metabolism, Gastrointestinal Tract microbiology, Gastrointestinal Tract parasitology, Gene Knockout Techniques, Host-Pathogen Interactions drug effects, Host-Pathogen Interactions immunology, Hydrogen Peroxide metabolism, Immunity drug effects, Insect Proteins classification, Insect Proteins genetics, Insect Proteins metabolism, Insect Vectors immunology, Insect Vectors microbiology, Insect Vectors parasitology, Leishmania mexicana physiology, Molecular Sequence Data, Peroxiredoxins classification, Peroxiredoxins genetics, Peroxiredoxins metabolism, Phylogeny, Psychodidae enzymology, Psychodidae genetics, Reactive Oxygen Species metabolism, Sequence Homology, Amino Acid, Serratia marcescens physiology, Superoxide Dismutase classification, Superoxide Dismutase genetics, Superoxide Dismutase metabolism, Uric Acid administration & dosage, Uric Acid pharmacology, Immunity immunology, Leishmania mexicana immunology, Psychodidae immunology, Reactive Oxygen Species immunology, Serratia marcescens immunology

Abstract

Phlebotomine sand flies are the vectors of medically important Leishmania. The Leishmania protozoa reside in the sand fly gut, but the nature of the immune response to the presence of Leishmania is unknown. Reactive oxygen species (ROS) are a major component of insect innate immune pathways regulating gut-microbe homeostasis. Here we show that the concentration of ROS increased in sand fly midguts after they fed on the insect pathogen Serratia marcescens but not after feeding on the Leishmania that uses the sand fly as a vector. Moreover, the Leishmania is sensitive to ROS either by oral administration of ROS to the infected fly or by silencing a gene that expresses a sand fly ROS-scavenging enzyme. Finally, the treatment of sand flies with an exogenous ROS scavenger (uric acid) altered the gut microbial homeostasis, led to an increased commensal gut microbiota, and reduced insect survival after oral infection with S. marcescens. Our study demonstrates a differential response of the sand fly ROS system to gut microbiota, an insect pathogen, and the Leishmania that utilize the sand fly as a vehicle for transmission between mammalian hosts.

Published

2012

30. Investigation of the bacterial communities associated with females of Lutzomyia sand fly species from South America.

Author

Sant'Anna MR, Darby AC, Brazil RP, Montoya-Lerma J, Dillon VM, Bates PA, and Dillon RJ

Subjects

Aging genetics, Animals, Base Sequence, Brazil, Denaturing Gradient Gel Electrophoresis, Female, Gene Library, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, RNA, Ribosomal, 16S genetics, Bacteria genetics, Psychodidae microbiology

Abstract

Phlebotomine sand flies are vectors of Leishmania that are acquired by the female sand fly during blood feeding on an infected mammal. Leishmania parasites develop exclusively in the gut lumen during their residence in the insect before transmission to a suitable host during the next blood feed. Female phlebotomine sand flies are blood feeding insects but their life style of visiting plants as well as animals, and the propensity for larvae to feed on detritus including animal faeces means that the insect host and parasite are exposed to a range of microorganisms. Thus, the sand fly microbiota may interact with the developing Leishmania population in the gut. The aim of the study was to investigate and identify the bacterial diversity associated with wild adult female Lutzomyia sand flies from different geographical locations in the New World. The bacterial phylotypes recovered from 16S rRNA gene clone libraries obtained from wild caught adult female Lutzomyia sand flies were estimated from direct band sequencing after denaturing gradient gel electrophoresis of bacterial 16 rRNA gene fragments. These results confirm that the Lutzomyia sand flies contain a limited array of bacterial phylotypes across several divisions. Several potential plant-related bacterial sequences were detected including Erwinia sp. and putative Ralstonia sp. from two sand fly species sampled from 3 geographically separated regions in Brazil. Identification of putative human pathogens also demonstrated the potential for sand flies to act as vectors of bacterial pathogens of medical importance in addition to their role in Leishmania transmission.

Published

2012

31. Blood meal identification and parasite detection in laboratory-fed and field-captured Lutzomyia longipalpis by PCR using FTA databasing paper.

Author

Sant'Anna MR, Jones NG, Hindley JA, Mendes-Sousa AF, Dillon RJ, Cavalcante RR, Alexander B, and Bates PA

Subjects

Animals, Animals, Domestic, Animals, Wild, Brazil, Cricetinae, Female, Humans, Leishmaniasis, Visceral epidemiology, Leishmaniasis, Visceral prevention & control, Polymerase Chain Reaction methods, Blood, Feeding Behavior, Parasitology methods, Psychodidae, Specimen Handling methods

Abstract

The phlebotomine sand fly Lutzomyia longipalpis takes blood from a variety of wild and domestic animals and transmits Leishmania (Leishmania) infantum chagasi, etiological agent of American visceral leishmaniasis. Blood meal identification in sand flies has depended largely on serological methods but a new protocol described here uses filter-based technology to stabilise and store blood meal DNA, allowing subsequent PCR identification of blood meal sources, as well as parasite detection, in blood-fed sand flies. This technique revealed that 53.6% of field-collected sand flies captured in the back yards of houses in Teresina (Brazil) had fed on chickens. The potential applications of this technique in epidemiological studies and strategic planning for leishmaniasis control programmes are discussed.

Published

2008

32. The sialotranscriptome of the blood-sucking bug Triatoma brasiliensis (Hemiptera, Triatominae).

Author

Santos A, Ribeiro JM, Lehane MJ, Gontijo NF, Veloso AB, Sant'Anna MR, Nascimento Araujo R, Grisard EC, and Pereira MH

Subjects

Amino Acid Sequence, Animals, Apyrase chemistry, Blood, Brazil, Cloning, Molecular, Eating, Hemeproteins, Insect Proteins chemistry, Insect Proteins metabolism, Insect Vectors, Phylogeny, Salivary Glands physiology, Salivary Proteins and Peptides, Sequence Alignment, Sequence Analysis, DNA, Serine Endopeptidases isolation & purification, Serine Endopeptidases metabolism, Triatoma classification, Triatoma genetics, Trypanosoma cruzi physiology, Computational Biology, Gene Library, Insect Proteins genetics, Saliva chemistry, Salivary Glands chemistry, Triatoma metabolism

Abstract

Triatoma brasiliensis is the most important autochthon vector of Trypanosoma cruzi in Brazil, where it is widely distributed in the semiarid areas of the Northeast. In order to advance the knowledge of the salivary biomolecules of Triatominae, a salivary gland cDNA library of T. brasiliensis was mass sequenced and analyzed. Polypeptides were sequenced by HPLC/Edman degradation experiments. Then 1712 cDNA sequences were obtained and grouped in 786 clusters. The housekeeping category had 24.4% and 17.8% of the clusters and sequences, respectively. The putatively secreted category contained 47.1% of the clusters and 68.2% of the sequences. Finally, 28.5% of the clusters, containing 14% of all sequences, were classified as unknown. The sialoma of T. brasiliensis showed a high amount and great variety of different lipocalins (93.8% of secreted proteins). Remarkably, a great number of serine proteases that were not observed in previous blood-sucking sialotranscriptomes were found. Nine Kazal peptides were identified, among them one with high homology to the tabanid vasodilator vasotab, suggesting that the Triatoma vasodilator could be a Kazal protein.

Published

2007