Your search keyword '"Ribeiro, Jose M. C."' showing total 24 results

1. A bispecific inhibitor of complement and coagulation blocks activation in complementopathy models via a novel mechanism

Author

Andersen, John F., Lei, Haotian, Strayer, Ethan C., Kanai, Tapan, Pham, Van, Pan, Xiang-Zuo, Alvarenga, Patricia Hessab, Gerber, Gloria F., Asojo, Oluwatoyin A., Francischetti, Ivo M. B., Brodsky, Robert A., Valenzuela, Jesus G., and Ribeiro, José M. C.

Published

2023

2. Tick innate immune responses to hematophagy and Ehrlichia infection at single-cell resolution.

Author

Adegoke, Abdulsalam, Ribeiro, Jose M. C., Smith, Ryan C., and Karim, Shahid

Subjects

EHRLICHIOSIS, MOLECULAR biology, RNA interference, IMMUNE response, SMALL interfering RNA

Abstract

Introduction: Ticks rely on robust cellular and humoral responses to control microbial infection. However, several aspects of the tick's innate immune system remain uncharacterized, most notably that of the immune cells (called hemocytes), which are known to play a significant role in cellular and humoral responses. Despite the importance of hemocytes in regulating microbial infection, our understanding of their basic biology and molecular mechanisms remains limited. Therefore, we believe that a more detailed understanding of the role of hemocytes in the interactions between ticks and tick-borne microbes is crucial to illuminating their function in vector competence and to help identify novel targets for developing new strategies to block tick-borne pathogen transmission. Methods: This study examined hemocytes from the lone star tick (Amblyomma americanum) at the transcriptomic level using the 10X genomics single-cell RNA sequencing platform to analyze hemocyte populations from unfed, partially blood-fed, and Ehrlichia chaffeensis-infected ticks. The functional role of differentially expressed hemocyte markers in hemocyte proliferation and Ehrlichia dissemination was determined using an RNA interference approach. Results and discussion: Our data exhibit the identification of fourteen distinct hemocyte populations. Our results uncover seven distinct lineages present in uninfected and Ehrlichia-infected hemocyte clusters. The functional characterization of hemocytin, cystatin, fibronectin, and lipocalin demonstrate their role in hemocyte population changes, proliferation, and Ehrlichia dissemination. Conclusion: Our results uncover the tick immune responses to Ehrlichia infection and hematophagy at a single-cell resolution. This work opens a new field of tick innate immunobiology to understand the role of hemocytes, particularly in response to prolonged blood-feeding (hematophagy), and tickmicrobial interactions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Pf CDPK1 is critical for malaria parasite gametogenesis and mosquito infection

Author

Bansal, Abhisheka, Molina-Cruz, Alvaro, Brzostowski, Joseph, Liu, Poching, Luo, Yan, Gunalan, Karthigayan, Li, Yuesheng, Ribeiro, José M. C., and Miller, Louis H.

Published

2018

4. Genome of Rhodnius prolixus, an insect vector of Chagas disease, reveals unique adaptations to hematophagy and parasite infection

Author

Mesquita, Rafael D., Vionette-Amaral, Raquel J., Lowenberger, Carl, Rivera-Pomar, Rolando, Monteiro, Fernando A., Minx, Patrick, Spieth, John, Carvalho, A. Bernardo, Panzera, Francisco, Lawson, Daniel, Torres, André Q., Ribeiro, Jose M. C., Sorgine, Marcos H. F., Waterhouse, Robert M., Montague, Michael J., Abad-Franch, Fernando, Alves-Bezerra, Michele, Amaral, Laurence R., Araujo, Helena M., Araujo, Ricardo N., Aravind, L., Atella, Georgia C., Azambuja, Patricia, Berni, Mateus, Bittencourt-Cunha, Paula R., Braz, Gloria R. C., Calderón-Fernández, Gustavo, Carareto, Claudia M. A., Christensen, Mikkel B., Costa, Igor R., Costa, Samara G., Dansa, Marilvia, Daumas-Filho, Carlos R. O., De-Paula, Iron F., Dias, Felipe A., Dimopoulos, George, Emrich, Scott J., Esponda-Behrens, Natalia, Fampa, Patricia, Fernandez-Medina, Rita D., da Fonseca, Rodrigo N., Fontenele, Marcio, Fronick, Catrina, Fulton, Lucinda A., Gandara, Ana Caroline, Garcia, Eloi S., Genta, Fernando A., Giraldo-Calderón, Gloria I., Gomes, Bruno, Gondim, Katia C., Granzotto, Adriana, Guarneri, Alessandra A., Guigó, Roderic, Harry, Myriam, Hughes, Daniel S. T., Jablonka, Willy, Jacquin-Joly, Emmanuelle, Juárez, M. Patricia, Koerich, Leonardo B., Lange, Angela B., Latorre-Estivalis, José Manuel, Lavore, Andrés, Lawrence, Gena G., Lazoski, Cristiano, Lazzari, Claudio R., Lopes, Raphael R., Lorenzo, Marcelo G., Lugon, Magda D., Majerowicz, David, Marcet, Paula L., Mariotti, Marco, Masuda, Hatisaburo, Megy, Karine, Melo, Ana C. A., Missirlis, Fanis, Mota, Theo, Noriega, Fernando G., Nouzova, Marcela, Nunes, Rodrigo D., Oliveira, Raquel L. L., Oliveira-Silveira, Gilbert, Ons, Sheila, Orchard, Ian, Pagola, Lucia, Paiva-Silva, Gabriela O., Pascual, Agustina, Pavan, Marcio G., Pedrini, Nicolás, Peixoto, Alexandre A., Pereira, Marcos H., Pike, Andrew, Polycarpo, Carla, Prosdocimi, Francisco, Ribeiro-Rodrigues, Rodrigo, Robertson, Hugh M., Salerno, Ana Paula, Salmon, Didier, Santesmasses, Didac, Schama, Renata, Seabra-Junior, Eloy S., Silva-Cardoso, Livia, Silva-Neto, Mario A. C., Souza-Gomes, Matheus, Sterkel, Marcos, Taracena, Mabel L., Tojo, Marta, Tu, Zhijian Jake, Tubio, Jose M. C., Ursic-Bedoya, Raul, Venancio, Thiago M., Walter-Nuno, Ana Beatriz, Wilson, Derek, Warren, Wesley C., Wilson, Richard K., Huebner, Erwin, Dotson, Ellen M., and Oliveira, Pedro L.

Published

2015

5. Functional and structural similarities of D7 proteins in the independently-evolved salivary secretions of sand flies and mosquitoes

Author

Jablonka, Willy, Kim, Il Hwan, Alvarenga, Patricia H., Valenzuela, Jesus G., Ribeiro, Jose´ M. C., and Andersen, John F.

Published

2019

6. Rickettsia parkeri hijacks tick hemocytes to manipulate cellular and humoral transcriptional responses.

Author

Adegoke, Abdulsalam, Ribeiro, Jose M. C., Brown, Sidney, Smith, Ryan C., and Karim, Shahid

Subjects

BLOOD cells, MOLECULAR biology, PHAGOCYTOSIS, RICKETTSIA, HUMORAL immunity, TICKS, BIOMARKERS

Abstract

Introduction: Blood-feeding arthropods rely on robust cellular and humoral immunity to control pathogen invasion and replication. Tick hemocytes produce factors that can facilitate or suppress microbial infection and pathogenesis. Despite the importance of hemocytes in regulating microbial infection, understanding of their basic biology and molecular mechanisms remains limited. Methods: Here we combined histomorphology and functional analysis to identify five distinct phagocytic and non-phagocytic hemocyte populations circulating within the Gulf Coast tick Amblyomma maculatum. Results and discussion: Depletion of phagocytic hemocytes using clodronate liposomes revealed their function in eliminating bacterial infection. We provide the first direct evidence that an intracellular tick-borne pathogen, Rickettsia parkeri, infects phagocytic hemocytes in Am. maculatum to modify tick cellular immune responses. A hemocyte-specific RNA-seq dataset generated from hemocytes isolated from uninfected and R. parkeri-infected partially blood-fed ticks generated ~40,000 differentially regulated transcripts, >11,000 of which were immune genes. Silencing two differentially regulated phagocytic immune marker genes (nimrod B2 and eater-two Drosophila homologs), significantly reduced hemocyte phagocytosis. Conclusion: Together, these findings represent a significant step forward in understanding how hemocytes regulate microbial homeostasis and vector competence. [ABSTRACT FROM AUTHOR]

Published

2023

7. Rickettsia parkeri infection modulates the sialome and ovariome of the Gulf coast tick, Amblyomma maculatum.

Author

Garcia Guizzo, Melina, Budachetri, Khemraj, Adegoke, Abdulsalam, Ribeiro, Jose M. C., and Karim, Shahid

Subjects

AMBLYOMMA, RICKETTSIA, TICKS, SALIVARY glands, CANDIDATUS

Abstract

The Gulf Coast tick, Amblyomma maculatum, is a vector of several tick-borne pathogens, including Rickettsia parkeri. The ability of R. parkeri to persist within the tick population through transovarial and transstadial transmission, without apparently harming the ticks, contributes to the pathogen's perpetuation in the tick population. Previous studies have shown that the R. parkeri load in A. maculatum is regulated by the tick tissues' oxidant/antioxidant balance and the non-pathogenic tick microbiome. To obtain further insights into the interaction between tick and pathogen, we performed a bulk RNA-Seq for differential transcriptomic analysis of ovaries and salivary glands from R. parkeri-infected and uninfected ticks over the feeding course on a host. The most differentially expressed functional category was of bacterial origin, exhibiting a massive overexpression of bacterial transcripts in response to the R. parkeri infection. Candidatus Midichloria mitochondrii and bacteria from the genus Rickettsia were mainly responsible for the overexpression of bacterial transcripts. Host genes were also modulated in R. parkeri-infected tick organs. A similar number of host transcripts from all analyzed functional categories was negatively and positively modulated, revealing a global alteration of the A. maculatum transcriptome in response to pathogen infection. R. parkeri infection led to an increase in salivary transcripts involved in blood feeding success as well as a decrease in ovarian immune transcripts. We hypothesize that these transcriptional alterations facilitate pathogen persistence and transmission within tick population. [ABSTRACT FROM AUTHOR]

Published

2022

8. Proteomics Pipeline for Identifying Variant Proteins in Plasmodium falciparum Parasites Isolated from Children Presenting with Malaria.

Author

Gonzales Hurtado, Patricia A., Morrison, Robert, Ribeiro, Jose M. C., Magale, Hussein, Attaher, Oumar, Diarra, Bacary S., Mahamar, Almahamoudou, Barry, Amadou, Dicko, Alassane, Duffy, Patrick E., and Fried, Michal

Published

2019

9. Erratum to :'Genome of Rhodnius prolixus, an insect vector of Chagas disease, reveals unique adaptations to hematophagy and parasite infection' (vol 112, pg 14936, 2015)

Author

Lowenberger, Carl, Rivera Pomar, Rolando, Monteiro, Fernando A., Minx, Patrick, Spieth, John, Bernardo Carvalho, A., Panzera, Francisco, Lawson, Daniel, Torres, Andre Q., Ribeiro, Jose M. C., Sorgine, Marcos H. F., Waterhouse, Robert M., Montague, Michael J., Abad Franch, Fernando, Alves Bezerra, Michele, Amaral, Laurence R., Araujo, Helena M., Araujo, Ricardo N., Aravind, L., Atella, Georgia C., Azambuja, Patricia, Berni, Mateus, Bittencourt Cunha, Paula R., Braz, Gloria R. C., Calderon Fernandez, Gustavo, Carareto, Claudia M. A., Christensen, Mikkel B., Costa, Igor R., Costa, Samara G., Dansa, Marilvia, Daumas Filho, Carlos R. O., De Paula, Iron F., Dias, Felipe A., Dimopoulos, George, Emrich, Scott J., Esponda Behrens, Natalia, Fampa, Patricia, Fernandez Medina, Rita D., da Fonseca, Rodrigo N., Fontenele, Marcio, Fronick, Catrina, Fulton, Lucinda A., Gandara, Ana Caroline, Garcia, Eloi S., Genta, Fernando A., Giraldo Calderón, Gloria I., Gomes, Bruno, Gondim, Katia C., Granzotto, Adriana, Guarneri, Alessandra A., Guigó, Roderic, Harry, Myriam, Hughes, Daniel S. T., Jablonka, Willy, Jacquin Joly, Emmanuelle, Patricia Juarez, M., Koerich, Leonardo B., Latorre Estivalis, Jose Manuel, Lavore, Andrés, Lawrence, Gena G., Lazoski, Cristiano, Lazzari, Claudio R., Lopes, Raphael R., Lorenzo, Marcelo G., Lugon, Magda D., Majerowicz, David, Marcet, Paula L., Mariotti, Marco, Masuda, Hatisaburo, Megy, Karine, Melo, Ana C.A., Missirlis, Fanis, Mota, Theo, Noriega, Fernando G., Nouzova, Marcela, Nunes, Rodrigo D., Oliveira, Raquel L.L., Oliveira Silveira, Gilbert, Ons, Sheila, Pagola, Lucia, Paiva Silva, Gabriela O., Pascual, Agustina, Pavan, Marcio G., Pedrini, Nicolas, Peixoto, Alexandre A., Pereira, Marcos H., Pike, Andrew, Polycarpo, Carla, Prosdocimi, Francisco, Ribeiro Rodrigues, Rodrigo, Robertson, Hugh M., Salerno, Ana Paula, Salmon, Didier, Santesmasses, Didac, Schama, Renata, Seabra Junior, Eloy S., Silva Cardoso, Livia, Mesquita, Rafael D., and Vionette Amaral, Raquel J.

Subjects

rhodnius prolixus, Rhodnius prolixus, genome, hematophagy, immunity, Chagas disease, maladie de chagas

Abstract

Rhodnius prolixus not only has served as a model organism for the study of insect physiology, but also is a major vector of Chagas disease, an illness that affects approximately seven million people worldwide. We sequenced the genome of R. prolixus, generated assembled sequences covering 95% of the genome (similar to 702 Mb), including 15,456 putative protein-coding genes, and completed comprehensive genomic analyses of this obligate blood-feeding insect. Although immune-deficiency (IMD)-mediated immune responses were observed, R. prolixus putatively lacks key components of the IMD pathway, suggesting a reorganization of the canonical immune signaling network. Although both Toll and IMD effectors controlled intestinal microbiota, neither affected Trypanosoma cruzi, the causal agent of Chagas disease, implying the existence of evasion or tolerance mechanisms. R. prolixus has experienced an extensive loss of selenoprotein genes, with its repertoire reduced to only two proteins, one of which is a selenocysteine-based glutathione peroxidase, the first found in insects. The genome contained actively transcribed, horizontally transferred genes from Wolbachia sp., which showed evidence of codon use evolution toward the insect use pattern. Comparative protein analyses revealed many lineage-specific expansions and putative gene absences in R. prolixus, including tandem expansions of genes related to chemoreception, feeding, and digestion that possibly contributed to the evolution of a blood-feeding lifestyle. The genome assembly and these associated analyses provide critical information on the physiology and evolution of this important vector species and should be instrumental for the development of innovative disease control methods.

Published

2016

10. Immunity to LuloHya and Lundep, the salivary spreading factors from Lutzomyia longipalpis, protects against Leishmania major infection.

Author

Martin-Martin, Ines, Chagas, Andrezza Campos, Guimaraes-Costa, Anderson B., Amo, Laura, Oliveira, Fabiano, Moore, Ian N., DeSouza-Vieira, Thiago S., Sanchez, Elda E., Suntravat, Montamas, Valenzuela, Jesus G., Ribeiro, Jose M. C., and Calvo, Eric

Subjects

LUTZOMYIA, LEISHMANIA, SALIVARY glands, ARTHROPOD vectors, BLOOD meal as feed, ENDONUCLEASES

Abstract

Salivary components from disease vectors help arthropods to acquire blood and have been shown to enhance pathogen transmission in different model systems. Here we show that two salivary enzymes from Lutzomyia longipalpis have a synergist effect that facilitates a more efficient blood meal intake and diffusion of other sialome components. We have previously shown that Lundep, a highly active endonuclease, enhances parasite infection and prevent blood clotting by inhibiting the intrinsic pathway of coagulation. To investigate the physiological role of a salivary hyaluronidase in blood feeding we cloned and expressed a recombinant hyaluronidase from Lu. longipalpis. Recombinant hyaluronidase (LuloHya) was expressed in mammalian cells and biochemically characterized in vitro. Our study showed that expression of neutrophil CXC chemokines and colony stimulating factors were upregulated in HMVEC cells after incubation with LuloHya and Lundep. These results were confirmed by the acute hemorrhage, edema and inflammation in a dermal necrosis (dermonecrotic) assay involving a massive infiltration of leukocytes, especially neutrophils, in mice co-injected with hemorrhagic factor and these two salivary proteins. Moreover, flow cytometry results showed that LuloHya and Lundep promote neutrophil recruitment to the bite site that may serve as a vehicle for establishment of Leishmania infection. A vaccination experiment demonstrated that LuloHya and Lundep confer protective immunity against cutaneous leishmaniasis using the Lu. longipalpis—Leishmania major combination as a model. Animals (C57BL/6) immunized with LuloHya or Lundep showed minimal skin damage while lesions in control animals remained ulcerated. This protective immunity was abrogated when B-cell-deficient mice were used indicating that antibodies against both proteins play a significant role for disease protection. Rabbit-raised anti-LuloHya antibodies completely abrogated hyaluronidase activity in vitro. Moreover, in vivo experiments demonstrated that blocking LuloHya with specific antibodies interferes with sand fly blood feeding. This work highlights the relevance of vector salivary components in blood feeding and parasite transmission and further suggests the inclusion of these salivary proteins as components for an anti-Leishmania vaccine. [ABSTRACT FROM AUTHOR]

Published

2018

11. Molecular Diversity between Salivary Proteins from New World and Old World Sand Flies with Emphasis on Bichromomyia olmeca, the Sand Fly Vector of Leishmania mexicana in Mesoamerica.

Author

Abdeladhim, Maha, V. Coutinho-Abreu, Iliano, Townsend, Shannon, Pasos-Pinto, Silvia, Sanchez, Laura, Rasouli, Manoochehr, B. Guimaraes-Costa, Anderson, Aslan, Hamide, Francischetti, Ivo M. B., Oliveira, Fabiano, Becker, Ingeborg, Kamhawi, Shaden, Ribeiro, Jose M. C., Jochim, Ryan C., and Valenzuela, Jesus G.

Subjects

BIODIVERSITY, SALIVARY proteins, SAND flies, LEISHMANIA mexicana, BIOMARKERS

Abstract

Background: Sand fly saliva has been shown to have proteins with potent biological activities, salivary proteins that can be used as biomarkers of vector exposure, and salivary proteins that are candidate vaccines against different forms of leishmaniasis. Sand fly salivary gland transcriptomic approach has contributed significantly to the identification and characterization of many of these salivary proteins from important Leishmania vectors; however, sand fly vectors in some regions of the world are still neglected, as Bichromomyia olmeca (formerly known as Lutzomyia olmeca olmeca), a proven vector of Leishmania mexicana in Mexico and Central America. Despite the importance of this vector in transmitting Leishmania parasite in Mesoamerica there is no information on the repertoire of B. olmeca salivary proteins and their relationship to salivary proteins from other sand fly species. Methods and Findings: A cDNA library of the salivary glands of wild-caught B. olmeca was constructed, sequenced, and analyzed. We identified transcripts encoding for novel salivary proteins from this sand fly species and performed a comparative analysis between B. olmeca salivary proteins and those from other sand fly species. With this new information we present an updated catalog of the salivary proteins specific to New World sand flies and salivary proteins common to all sand fly species. We also report in this work the anti-Factor Xa activity of Lofaxin, a salivary anticoagulant protein present in this sand fly species. Conclusions: This study provides information on the first transcriptome of a sand fly from Mesoamerica and adds information to the limited repertoire of salivary transcriptomes from the Americas. This comparative analysis also shows a fast degree of evolution in salivary proteins from New World sand flies as compared with Old World sand flies. [ABSTRACT FROM AUTHOR]

Published

2016

12. The structure of hookworm platelet inhibitor (HPI), a CAP superfamily member from Ancylostoma caninum.

Author

Ma, Dongying, Francischetti, Ivo M. B., Ribeiro, Jose M. C., and Andersen, John F.

Subjects

ANCYLOSTOMA caninum, HOOKWORMS, PLATELET aggregation inhibitors, CYSTEINE, ANTIGENS

Abstract

Secreted protein components of hookworm species include a number of representatives of the cysteine-rich/antigen 5/pathogenesis-related 1 (CAP) protein family known as Ancylostoma-secreted proteins (ASPs). Some of these have been considered as candidate antigens for the development of vaccines against hookworms. The functions of most CAP superfamily members are poorly understood, but one form, the hookworm platelet inhibitor (HPI), has been isolated as a putative antagonist of the platelet integrins αIIbβ3 and α2β1. Here, the crystal structure of HPI is described and its structural features are examined in relation to its possible function. The HPI structure is similar to those of other ASPs and shows incomplete conservation of the sequence motifs CAP1 and CAP2 that are considered to be diagnostic of CAP superfamily members. The asymmetric unit of the HPI crystal contains a dimer with an extensive interaction interface, but chromatographic measurements indicate that it is primarily monomeric in solution. In the dimeric structure, the putative active-site cleft areas from both monomers are united into a single negatively charged depression. A potential Lys-Gly-Asp disintegrin-like motif was identified in the sequence of HPI, but is not positioned at the apex of a tight turn, making it unlikely that it interacts with the integrin. Recombinant HPI produced in Escherichia coli was found not to inhibit the adhesion of human platelets to collagen or fibrinogen, despite having a native structure as shown by X-ray diffraction. This result corroborates previous analyses of recombinant HPI and suggests that it might require post-translational modification or have a different biological function. [ABSTRACT FROM AUTHOR]

Published

2015

13. SALO, a novel classical pathway complement inhibitor from saliva of the sand fly Lutzomyia longipalpis.

Author

Ferreira, Viviana P., Fazito Vale, Vladimir, Pangburn, Michael K., Abdeladhim, Maha, Ferreira Mendes-Sousa, Antonio, Coutinho-Abreu, Iliano V., Rasouli, Manoochehr, Brandt, Elizabeth A., Meneses, Claudio, Lima, Kolyvan Ferreira, Nascimento Araújo, Ricardo, Horácio Pereira, Marcos, Kotsyfakis, Michalis, Oliveira, Fabiano, Kamhawi, Shaden, Ribeiro, Jose M. C., Gontijo, Nelder F., Collin, Nicolas, and Valenzuela, Jesus G.

Published

2016

14. Comprehensive Proteomics Analysis of the Hemolymph Composition of Sugar-Fed Aedes aegypti Female and Male Mosquitoes.

Author

Alvarenga PH, Alves E Silva TL, Suzuki M, Nardone G, Cecilio P, Vega-Rodriguez J, Ribeiro JMC, and Andersen JF

Subjects

Humans, Animals, Male, Female, Sugars metabolism, Hemolymph metabolism, Proteomics, Carbohydrates, Aedes metabolism

Abstract

In arthropods, hemolymph carries immune cells and solubilizes and transports nutrients, hormones, and other molecules that are involved in diverse physiological processes including immunity, metabolism, and reproduction. However, despite such physiological importance, little is known about its composition. We applied mass spectrometry-based label-free quantification approaches to study the proteome of hemolymph perfused from sugar-fed female and male Aedes aegypti mosquitoes. A total of 1403 proteins were identified, out of which 447 of them were predicted to be extracellular. In both sexes, almost half of these extracellular proteins were predicted to be involved in defense/immune response, and their relative abundances (based on their intensity-based absolute quantification, iBAQ) were 37.9 and 33.2%, respectively. Interestingly, among them, 102 serine proteases/serine protease-homologues were identified, with almost half of them containing CLIP regulatory domains. Moreover, proteins belonging to families classically described as chemoreceptors, such as odorant-binding proteins (OBPs) and chemosensory proteins (CSPs), were also highly abundant in the hemolymph of both sexes. Our data provide a comprehensive catalogue of A. aegypti hemolymph basal protein content, revealing numerous unexplored targets for future research on mosquito physiology and disease transmission. It also provides a reference for future studies on the effect of blood meal and infection on hemolymph composition.

Published

2024

15. A comparison of Illumina and PacBio methods to build tick salivary gland transcriptomes confirms large expression of lipocalins and other salivary protein families that are not represented in available tick genomes.

Author

Guizzo MG, Mans B, Pienaar R, and Ribeiro JMC

Subjects

Animals, Transcriptome, Proteome metabolism, Lipocalins genetics, Lipocalins metabolism, Salivary Glands, Salivary Proteins and Peptides genetics, Rhipicephalus genetics, Ixodes genetics

Abstract

Tick saliva helps blood feeding by its antihemostatic and immunomodulatory activities. Tick salivary gland transcriptomes (sialotranscriptomes) revealed thousands of transcripts coding for putative secreted polypeptides. Hundreds of these transcripts code for groups of similar proteins, constituting protein families, such as the lipocalins and metalloproteases. However, while many of these transcriptome-derived protein sequences matches sequences predicted by tick genome assemblies, the majority are not represented in these proteomes. The diversity of these transcriptome-derived transcripts could derive from artifacts generated during assembly of short Illumina reads or derive from polymorphisms of the genes coding for these proteins. To investigate this discrepancy, we collected salivary glands from blood-feeding ticks and, from the same homogenate, made and sequenced libraries following Illumina and PacBio protocols, with the assumption that the longer PacBio reads would reveal the sequences generated by the assembly of Illumina reads. Using both Rhipicephalus zambeziensis and Ixodes scapularis ticks, we have obtained more lipocalin transcripts from the Illumina library than the PacBio library. To verify whether these unique Illumina transcripts were real, we selected 9 uniquely Illumina-derived lipocalin transcripts from I. scapularis and attempted to obtain PCR products. These were obtained and their sequences confirmed the presence of these transcripts in the I. scapularis salivary homogenate. We further compared the predicted salivary lipocalins and metalloproteases from I. scapularis sialotranscriptomes with those found in the predicted proteomes of 3 publicly available genomes of I. scapularis. Results indicate that the discrepancy between the genome and transcriptome sequences for these salivary protein families is due to a high degree of polymorphism within these genes., (Copyright © 2023. Published by Elsevier GmbH.)

Published

2023

16. A draft of the genome of the Gulf Coast tick, Amblyomma maculatum.

Author

Ribeiro JMC, Bayona-Vásquez NJ, Budachetri K, Kumar D, Frederick JC, Tahir F, Faircloth BC, Glenn TC, and Karim S

Subjects

Animals, Male, Amblyomma genetics, Genomics, RNA, Ixodidae genetics, Ixodidae microbiology, Rickettsia genetics, Ticks genetics

Abstract

The Gulf Coast tick, Amblyomma maculatum, inhabits the Southeastern states of the USA bordering the Gulf of Mexico, Mexico, and other Central and South American countries. More recently, its U.S. range has extended West to Arizona and Northeast to New York state and Connecticut. It is a vector of Rickettsia parkeri and Hepatozoon americanum. This tick species has become a model to study tick/Rickettsia interactions. To increase our knowledge of the basic biology of A. maculatum we report here a draft genome of this tick and an extensive functional classification of its proteome. The DNA from a single male tick was used as a genomic source, and a 10X genomics protocol determined 28,460 scaffolds having equal or more than 10 Kb, totaling 1.98 Gb. The N50 scaffold size was 19,849 Kb. The BRAKER pipeline was used to find the protein-coding gene boundaries on the assembled A. maculatum genome, discovering 237,921 CDS. After trimming and classifying the transposable elements, bacterial contaminants, and truncated genes, a set of 25,702 were annotated and classified as the core gene products. A BUSCO analysis revealed 83.4% complete BUSCOs. A hyperlinked spreadsheet is provided, allowing browsing of the individual gene products and their matches to several databases., (Copyright © 2022. Published by Elsevier GmbH.)

Published

2023

17. An insight into the female and male Sabethes cyaneus mosquito salivary glands transcriptome.

Author

Smith LB, Chagas AC, Martin-Martin I, Ribeiro JMC, and Calvo E

Subjects

Humans, Male, Female, Animals, Transcriptome, Mosquito Vectors, Salivary Glands metabolism, Anopheles genetics, Anopheles metabolism, Aedes genetics

Abstract

Mosquitoes are responsible for the death and debilitation of millions of people every year due to the pathogens they can transmit while blood feeding. While a handful of mosquitoes, namely those in the Aedes, Anopheles, and Culex genus, are the dominant vectors, many other species belonging to different genus are also involved in various pathogen cycles. Sabethes cyaneus is one of the many poorly understood mosquito species involved in the sylvatic cycle of Yellow Fever Virus. Here, we report the expression profile differences between male and female of Sa.cyaneus salivary glands (SGs). We find that female Sa.cyaneus SGs have 165 up-regulated and 18 down-regulated genes compared to male SGs. Most of the up-regulated genes have unknown functions, however, odorant binding proteins, such as those in the D7 protein family, and mucins were among the top 30 genes. We also performed various in vitro activity assays of female SGs. In the activity analysis we found that female SG extracts inhibit coagulation by blocking factor Xa and has endonuclease activity. Knowledge about mosquitoes and their physiology are important for understanding how different species differ in their ability to feed on and transmits pathogens to humans. These results provide us with an insight into the Sabethes SG activity and gene expression that expands our understanding of mosquito salivary glands., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2023

18. Rickettsia parkeri infection modulates the sialome and ovariome of the Gulf coast tick, Amblyomma maculatum .

Author

Guizzo MG, Budachetri K, Adegoke A, Ribeiro JMC, and Karim S

Abstract

The Gulf Coast tick, Amblyomma maculatum , is a vector of several tick-borne pathogens, including Rickettsia parkeri . The ability of R . parkeri to persist within the tick population through transovarial and transstadial transmission, without apparently harming the ticks, contributes to the pathogen's perpetuation in the tick population. Previous studies have shown that the R . parkeri load in A . maculatum is regulated by the tick tissues' oxidant/antioxidant balance and the non-pathogenic tick microbiome. To obtain further insights into the interaction between tick and pathogen, we performed a bulk RNA-Seq for differential transcriptomic analysis of ovaries and salivary glands from R . parkeri -infected and uninfected ticks over the feeding course on a host. The most differentially expressed functional category was of bacterial origin, exhibiting a massive overexpression of bacterial transcripts in response to the R . parkeri infection. Candidatus Midichloria mitochondrii and bacteria from the genus Rickettsia were mainly responsible for the overexpression of bacterial transcripts. Host genes were also modulated in R . parkeri -infected tick organs. A similar number of host transcripts from all analyzed functional categories was negatively and positively modulated, revealing a global alteration of the A . maculatum transcriptome in response to pathogen infection. R . parkeri infection led to an increase in salivary transcripts involved in blood feeding success as well as a decrease in ovarian immune transcripts. We hypothesize that these transcriptional alterations facilitate pathogen persistence and transmission within tick population., 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 © 2022 Guizzo, Budachetri, Adegoke, Ribeiro and Karim.)

Published

2022

19. The structures of two salivary proteins from the West Nile vector Culex quinquefasciatus reveal a beta-trefoil fold with putative sugar binding properties.

Author

Kern O, Valenzuela Leon PC, Gittis AG, Bonilla B, Cruz P, Chagas AC, Ganesan S, Ribeiro JMC, Garboczi DN, Martin-Martin I, and Calvo E

Abstract

Female mosquitoes require blood meals for egg development. The saliva of blood feeding arthropods contains biochemically active molecules, whose anti-hemostatic and anti-inflammatory properties facilitate blood feeding on vertebrate hosts. While transcriptomics has presented new opportunities to investigate the diversity of salivary proteins from hematophagous arthropods, many of these proteins remain functionally undescribed. Previous transcriptomic analysis of female salivary glands from Culex quinquefasciatus, an important vector of parasitic and viral infections, uncovered a 12-member family of putatively secreted proteins of unknown function, named the Cysteine and Tryptophan-Rich (CWRC) proteins. Here, we present advances in the characterization of two C. quinquefasciatus CWRC family members, CqDVP-2 and CqDVP-4, including their enrichment in female salivary glands, their specific localization within salivary gland tissues, evidence that these proteins are secreted into the saliva, and their native crystal structures, at 2.3 ​Å and 1.87 ​Å, respectively. The β-trefoil fold common to CqDVP-2 and CqDVP-4 is similar to carbohydrate-binding proteins, including the B subunit of the AB toxin, ricin, from the castor bean Ricinus communis . Further, we used a glycan array approach, which identifies carbohydrate ligands associated with inflammatory processes and signal transduction. Glycan array 300 testing identified 100 carbohydrate moieties with positive binding to CqDVP-2, and 77 glycans with positive binding to CqDVP-4. The glycan with the highest relative fluorescence intensities, which exhibited binding to both CqDVP-2 and CqDVP-4, was used for molecular docking experiments. We hypothesize that these proteins bind to carbohydrates on the surface of cells important to host immunology. Given that saliva is deposited into the skin during a mosquito bite, and acts as the vehicle for arbovirus inoculation, understanding the role of these proteins in pathogen transmission is of critical importance. This work presents the first solved crystal structures of C. quinquefasciatus salivary proteins with unknown function. These two molecules are the second and third structures reported from salivary proteins from C. quinquefasciatus , an important, yet understudied disease vector., Competing Interests: There is no conflict of interest.

Published

2021

20. Molecular mechanisms underlying milk production and viviparity in the cockroach, Diploptera punctata.

Author

Jennings EC, Korthauer MW, Hendershot JM, Bailey ST, Weirauch MT, Ribeiro JMC, and Benoit JB

Subjects

Animals, Carboxylic Ester Hydrolases metabolism, Cockroaches enzymology, Insect Proteins metabolism, Methyltransferases metabolism, Milk metabolism, RNA Interference, RNA-Seq, Reproduction, Carboxylic Ester Hydrolases genetics, Cockroaches physiology, Gene Expression Regulation, Insect Proteins genetics, Methyltransferases genetics, Transcriptome, Viviparity, Nonmammalian genetics

Abstract

Viviparous reproduction is characterized by maternal retention of developing offspring within the reproductive tract during gestation, culminating in live birth. In some cases, a mother will provide nutrition beyond that present in the yolk; this is known as matrotrophic viviparity. While this phenomenon is best associated with mammals, it is observed in insects such as the viviparous cockroach, Diploptera punctata. Female D. punctata carry developing embryos in the brood sac, a reproductive organ that acts as both a uterus and a placenta by protecting and providing a nutritive secretion to the intrauterine developing progeny. While the basic physiology of D. punctata pregnancy has been characterized, little is known about the molecular mechanisms underlying this phenomenon. This study combined RNA-seq analysis, RNA interference, and other assays to characterize molecular and physiological changes associated with D. punctata reproduction. A comparison of four stages of the female reproductive cycle and males revealed unique gene expression profiles corresponding to each stage and between sexes. Differentially regulated transcripts of interest include the previously identified family of milk proteins and transcripts associated with juvenile hormone metabolism. RNA interference and methoprene application experiments established the potential impacts of bothbreakdown and synthesis reduction of juvenile hormone in maintaining pregnancy in D. punctata. These studies provide the comprehensive molecular mechanisms associated with cockroach viviparity, which will be a critical resource for comparative purposes among viviparity in insect systems., (Published by Elsevier Ltd.)

Published

2020

21. Stage-Specific Transcriptome and Proteome Analyses of the Filarial Parasite Onchocerca volvulus and Its Wolbachia Endosymbiont.

Author

Bennuru S, Cotton JA, Ribeiro JM, Grote A, Harsha B, Holroyd N, Mhashilkar A, Molina DM, Randall AZ, Shandling AD, Unnasch TR, Ghedin E, Berriman M, Lustigman S, and Nutman TB

Subjects

Animals, Onchocerca volvulus chemistry, Wolbachia chemistry, Onchocerca volvulus genetics, Onchocerca volvulus growth & development, Proteome, Symbiosis, Transcriptome, Wolbachia genetics, Wolbachia growth & development

Abstract

Onchocerciasis (river blindness) is a neglected tropical disease that has been successfully targeted by mass drug treatment programs in the Americas and small parts of Africa. Achieving the long-term goal of elimination of onchocerciasis, however, requires additional tools, including drugs, vaccines, and biomarkers of infection. Here, we describe the transcriptome and proteome profiles of the major vector and the human host stages (L1, L2, L3, molting L3, L4, adult male, and adult female) of Onchocerca volvulus along with the proteome of each parasitic stage and of its Wolbachia endosymbiont (wOv). In so doing, we have identified stage-specific pathways important to the parasite's adaptation to its human host during its early development. Further, we generated a protein array that, when screened with well-characterized human samples, identified novel diagnostic biomarkers of O. volvulus infection and new potential vaccine candidates. This immunomic approach not only demonstrates the power of this postgenomic discovery platform but also provides additional tools for onchocerciasis control programs., Importance: The global onchocerciasis (river blindness) elimination program will have to rely on the development of new tools (drugs, vaccines, biomarkers) to achieve its goals by 2025. As an adjunct to the completed genomic sequencing of O. volvulus, we used a comprehensive proteomic and transcriptomic profiling strategy to gain a comprehensive understanding of both the vector-derived and human host-derived parasite stages. In so doing, we have identified proteins and pathways that enable novel drug targeting studies and the discovery of novel vaccine candidates, as well as useful biomarkers of active infection., (Copyright © 2016 Bennuru et al.)

Published

2016

22. The genome of Onchocerca volvulus, agent of river blindness.

Author

Cotton JA, Bennuru S, Grote A, Harsha B, Tracey A, Beech R, Doyle SR, Dunn M, Hotopp JC, Holroyd N, Kikuchi T, Lambert O, Mhashilkar A, Mutowo P, Nursimulu N, Ribeiro JM, Rogers MB, Stanley E, Swapna LS, Tsai IJ, Unnasch TR, Voronin D, Parkinson J, Nutman TB, Ghedin E, Berriman M, and Lustigman S

Subjects

Animals, Genome, Bacterial, Wolbachia genetics, Genome, Helminth, Onchocerca volvulus genetics, Onchocerciasis, Ocular parasitology

Abstract

Human onchocerciasis is a serious neglected tropical disease caused by the filarial nematode Onchocerca volvulus that can lead to blindness and chronic disability. Control of the disease relies largely on mass administration of a single drug, and the development of new drugs and vaccines depends on a better knowledge of parasite biology. Here, we describe the chromosomes of O. volvulus and its Wolbachia endosymbiont. We provide the highest-quality sequence assembly for any parasitic nematode to date, giving a glimpse into the evolution of filarial parasite chromosomes and proteomes. This resource was used to investigate gene families with key functions that could be potentially exploited as targets for future drugs. Using metabolic reconstruction of the nematode and its endosymbiont, we identified enzymes that are likely to be essential for O. volvulus viability. In addition, we have generated a list of proteins that could be targeted by Federal-Drug-Agency-approved but repurposed drugs, providing starting points for anti-onchocerciasis drug development.

Published

2016

23. Unique features of a global human ectoparasite identified through sequencing of the bed bug genome.

Author

Benoit JB, Adelman ZN, Reinhardt K, Dolan A, Poelchau M, Jennings EC, Szuter EM, Hagan RW, Gujar H, Shukla JN, Zhu F, Mohan M, Nelson DR, Rosendale AJ, Derst C, Resnik V, Wernig S, Menegazzi P, Wegener C, Peschel N, Hendershot JM, Blenau W, Predel R, Johnston PR, Ioannidis P, Waterhouse RM, Nauen R, Schorn C, Ott MC, Maiwald F, Johnston JS, Gondhalekar AD, Scharf ME, Peterson BF, Raje KR, Hottel BA, Armisén D, Crumière AJJ, Refki PN, Santos ME, Sghaier E, Viala S, Khila A, Ahn SJ, Childers C, Lee CY, Lin H, Hughes DST, Duncan EJ, Murali SC, Qu J, Dugan S, Lee SL, Chao H, Dinh H, Han Y, Doddapaneni H, Worley KC, Muzny DM, Wheeler D, Panfilio KA, Vargas Jentzsch IM, Vargo EL, Booth W, Friedrich M, Weirauch MT, Anderson MAE, Jones JW, Mittapalli O, Zhao C, Zhou JJ, Evans JD, Attardo GM, Robertson HM, Zdobnov EM, Ribeiro JMC, Gibbs RA, Werren JH, Palli SR, Schal C, and Richards S

Subjects

Animals, Genome, Humans, Sequence Analysis, DNA, Bedbugs genetics, Ectoparasitic Infestations, Feeding Behavior, Gene Transfer, Horizontal genetics, Host-Parasite Interactions genetics, Insecticide Resistance genetics, Insecticides

Abstract

The bed bug, Cimex lectularius, has re-established itself as a ubiquitous human ectoparasite throughout much of the world during the past two decades. This global resurgence is likely linked to increased international travel and commerce in addition to widespread insecticide resistance. Analyses of the C. lectularius sequenced genome (650 Mb) and 14,220 predicted protein-coding genes provide a comprehensive representation of genes that are linked to traumatic insemination, a reduced chemosensory repertoire of genes related to obligate hematophagy, host-symbiont interactions, and several mechanisms of insecticide resistance. In addition, we document the presence of multiple putative lateral gene transfer events. Genome sequencing and annotation establish a solid foundation for future research on mechanisms of insecticide resistance, human-bed bug and symbiont-bed bug associations, and unique features of bed bug biology that contribute to the unprecedented success of C. lectularius as a human ectoparasite.

Published

2016

24. Genome analysis of a major urban malaria vector mosquito, Anopheles stephensi.

Author

Jiang X, Peery A, Hall AB, Sharma A, Chen XG, Waterhouse RM, Komissarov A, Riehle MM, Shouche Y, Sharakhova MV, Lawson D, Pakpour N, Arensburger P, Davidson VL, Eiglmeier K, Emrich S, George P, Kennedy RC, Mane SP, Maslen G, Oringanje C, Qi Y, Settlage R, Tojo M, Tubio JM, Unger MF, Wang B, Vernick KD, Ribeiro JM, James AA, Michel K, Riehle MA, Luckhart S, Sharakhov IV, and Tu Z

Subjects

Animals, Anopheles metabolism, Chromosome Mapping, Chromosomes, Insect genetics, Cluster Analysis, Evolution, Molecular, Genome, Insect, Humans, Insect Proteins genetics, Insect Proteins metabolism, Malaria transmission, Phylogeny, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Synteny, Transcriptome, Urban Population, Anopheles genetics, Insect Vectors genetics

Abstract

Background: Anopheles stephensi is the key vector of malaria throughout the Indian subcontinent and Middle East and an emerging model for molecular and genetic studies of mosquito-parasite interactions. The type form of the species is responsible for the majority of urban malaria transmission across its range., Results: Here, we report the genome sequence and annotation of the Indian strain of the type form of An. stephensi. The 221 Mb genome assembly represents more than 92% of the entire genome and was produced using a combination of 454, Illumina, and PacBio sequencing. Physical mapping assigned 62% of the genome onto chromosomes, enabling chromosome-based analysis. Comparisons between An. stephensi and An. gambiae reveal that the rate of gene order reshuffling on the X chromosome was three times higher than that on the autosomes. An. stephensi has more heterochromatin in pericentric regions but less repetitive DNA in chromosome arms than An. gambiae. We also identify a number of Y-chromosome contigs and BACs. Interspersed repeats constitute 7.1% of the assembled genome while LTR retrotransposons alone comprise more than 49% of the Y contigs. RNA-seq analyses provide new insights into mosquito innate immunity, development, and sexual dimorphism., Conclusions: The genome analysis described in this manuscript provides a resource and platform for fundamental and translational research into a major urban malaria vector. Chromosome-based investigations provide unique perspectives on Anopheles chromosome evolution. RNA-seq analysis and studies of immunity genes offer new insights into mosquito biology and mosquito-parasite interactions.

Published

2014