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3. Using quantitative PCR to identify opportunities to strengthen soil-transmitted helminth control in Solomon Islands: A cross-sectional epidemiological survey

Author

Mitreva, M, Le, B, Clarke, N, Hii, SF, Byrne, A, Zendejas-Heredia, PAA, Lake, S, Sokana, O, Khattak, A, Romani, L, Engelman, D, Nasi, T, Boara, D, Kaldor, J, Steer, A, Traub, R, Nery, SV, Mitreva, M, Le, B, Clarke, N, Hii, SF, Byrne, A, Zendejas-Heredia, PAA, Lake, S, Sokana, O, Khattak, A, Romani, L, Engelman, D, Nasi, T, Boara, D, Kaldor, J, Steer, A, Traub, R, and Nery, SV

Abstract

BACKGROUND: The Kato-Katz microscopy technique is the global standard for assessment of soil-transmitted helminth (STH) burden. However, major limitations include its poor sensitivity, requirement for rapid sample processing, and inability to differentiate hookworm species nor detect Strongyloides spp. infections. We assessed the prevalence and intensity of STH species in Solomon Islands by conducting a province-wide survey using quantitative PCR (qPCR) for diagnosis, which can provide much better characterisation of STH burden than microscopy. METHODOLOGY/PRINCIPAL FINDINGS: We conducted a cross-sectional survey in 18 villages in Western Province to detect infections with six STH species and quantify intensity with three. We used linear mixed model regression to identify potential water, sanitation, and hygiene (WASH) and environmental risk factors for infection. We collected stool specimens from 830 village residents. Overall STH prevalence was 63.3% (range 27.5 to 91.5% across villages), led by Necator americanus (54.5% [range 17.5-89.4%]), followed by Ancylostoma ceylanicum (15.5% [range 2.8-45.8%]), Trichuris trichiura (9.1% [range 0-79.2%]), and Strongyloides spp. (3.2% [range 0-29.2%]). Most infections were of light intensity for N. americanus (85.7%) and T. trichiura (90.7%). Owning a household latrine was associated with a lower risk of N. americanus infection (AOR 0.41, 95% CI 0.24-0.68) while greater precipitation was linked to more common T. trichiura infection (AOR 1.14, 95% CI 1.04-1.25). CONCLUSION/SIGNIFICANCE: In this first large-scale population survey of STH in the Pacific using qPCR, we found evidence that ivermectin should be incorporated into STH control programmes because of the presence of T. trichiura and Strongyloides spp., both of which are poorly responsive to albendazole. Furthermore, One Health strategies are needed for improved A. ceylanicum and Strongyloides spp. control, WASH access and use should be improved to complement deworming

Published
2022

4. The gut microbial metabolic capacity of microbiome-humanized vs. wild type rodents reveals a likely dual role of intestinal bacteria in hepato-intestinal schistosomiasis.

Author

Downs, JA, Cortés, A, Martin, J, Rosa, BA, Stark, KA, Clare, S, McCarthy, C, Harcourt, K, Brandt, C, Tolley, C, Lawley, TD, Mitreva, M, Berriman, M, Rinaldi, G, Cantacessi, C, Downs, JA, Cortés, A, Martin, J, Rosa, BA, Stark, KA, Clare, S, McCarthy, C, Harcourt, K, Brandt, C, Tolley, C, Lawley, TD, Mitreva, M, Berriman, M, Rinaldi, G, and Cantacessi, C

Abstract

Increasing evidence shows that the host gut microbiota might be involved in the immunological cascade that culminates with the formation of tissue granulomas underlying the pathophysiology of hepato-intestinal schistosomiasis. In this study, we investigated the impact of Schistosoma mansoni infection on the gut microbial composition and functional potential of both wild type and microbiome-humanized mice. In spite of substantial differences in microbiome composition at baseline, selected pathways were consistently affected by parasite infection. The gut microbiomes of infected mice of both lines displayed, amongst other features, enhanced capacity for tryptophan and butyrate production, which might be linked to the activation of mechanisms aimed to prevent excessive injuries caused by migrating parasite eggs. Complementing data from previous studies, our findings suggest that the host gut microbiome might play a dual role in the pathophysiology of schistosomiasis, where intestinal bacteria may contribute to egg-associated pathology while, in turn, protect the host from uncontrolled tissue damage.

Published
2022

6. Adaptive Radiation of the Flukes of the Family Fasciolidae Inferred from Genome-Wide Comparisons of Key Species

Author

Choi, Y., Fontenla Martínez, Santiago, Fischer, P.U., Le, T. H., Costábile Cristech, Alicia, Blair, D., Brindley, P. J., Tort, José F., Cabada, M.M., Mitreva, M., Crandall, K., Choi Y., Fontenla Martínez Santiago, Universidad de la República (Uruguay). Facultad de Medicina., Fischer P.U., Le T. H., Costábile Cristech Alicia, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Biología., Blair D., Brindley P.J., Tort José F., Universidad de la República (Uruguay). Facultad de Medicina., Cabada M.M., and Mitreva M.

Subjects
Adaptive radiation, Genome evolution, Genome, Helminth, biology, Fasciola, Fasciola gigantica, Fasciola hepatica, biology.organism_classification, Biological Evolution, Fasciolidae, Evolutionary biology, Fasciolopsis, Fasciolopsis buski, Multigene Family, Food–borne flukes, parasitic diseases, Genetics, Animals, Adaptation, Molecular Biology, Ecology, Evolution, Behavior and Systematics
Abstract

Liver and intestinal flukes of the family Fasciolidae cause zoonotic food–borne infections that impact both agriculture and human health throughout the world. Their evolutionary history and the genetic basis underlying their phenotypic and ecological diversity are not well understood. To close that knowledge gap, we compared the whole genomes of Fasciola hepatica, Fasciola gigantica, and Fasciolopsis buski and determined that the split between Fasciolopsis and Fasciola took place ∼90 Ma in the late Cretaceous period, and that between 65 and 50 Ma an intermediate host switch and a shift from intestinal to hepatic habitats occurred in the Fasciola lineage. The rapid climatic and ecological changes occurring during this period may have contributed to the adaptive radiation of these flukes. Expansion of cathepsins, fatty-acid-binding proteins, protein disulfide-isomerases, and molecular chaperones in the genus Fasciola highlights the significance of excretory–secretory proteins in these liver-dwelling flukes. Fasciola hepatica and Fasciola gigantica diverged ∼5 Ma near the Miocene–Pliocene boundary that coincides with reduced faunal exchange between Africa and Eurasia. Severe decrease in the effective population size ∼10 ka in Fasciola is consistent with a founder effect associated with its recent global spread through ruminant domestication. G-protein-coupled receptors may have key roles in adaptation of physiology and behavior to new ecological niches. This study has provided novel insights about the genome evolution of these important pathogens, has generated genomic resources to enable development of improved interventions and diagnosis, and has laid a solid foundation for genomic epidemiology to trace drug resistance and to aid surveillance.

Published
2019

7. Lung Epithelial Signaling Mediates Early Vaccine-Induced CD4(+) T Cell Activation and Mycobacterium tuberculosis Control

Author

Das, Shibali, Marin, N.D., Esaulova, E., Ahmed, M., Swain, A., Rosa, B.A., Mitreva, M., Rangel-Moreno, J., Netea, M.G., Barreiro, L.B., Divangahi, M., Artyomov, M.N., Kaushal, D., Khader, S.A., Das, Shibali, Marin, N.D., Esaulova, E., Ahmed, M., Swain, A., Rosa, B.A., Mitreva, M., Rangel-Moreno, J., Netea, M.G., Barreiro, L.B., Divangahi, M., Artyomov, M.N., Kaushal, D., and Khader, S.A.

Abstract

Contains fulltext : 238036.pdf (Publisher’s version ) (Open Access), Tuberculosis (TB) is one of the leading causes of death due to a single infectious agent. The development of a TB vaccine that induces durable and effective immunity to Mycobacterium tuberculosis (Mtb) infection is urgently needed. Early and superior Mtb control can be induced in M. bovis Bacillus Calmette-Guérin (BCG)-vaccinated hosts when the innate immune response is targeted to generate effective vaccine-induced immunity. In the present study, we show that innate activation of DCs is critical for mucosal localization of clonally activated vaccine-induced CD4(+) T cells in the lung and superior early Mtb control. In addition, our study reveals that Th1/Th17 cytokine axis play an important role in superior vaccine-induced immunity. Our studies also show that activation of the nuclear factor kappa-light-chain enhancer of activated B cell (NF-κβ) pathway in lung epithelial cells is critical for the mucosal localization of activated vaccine-induced CD4(+) T cells for rapid Mtb control. Thus, our study provides novel insights into the immune mechanisms that can overcome TB vaccine bottlenecks and provide early rapid Mtb control. IMPORTANCE Tuberculosis is a leading cause of death due to single infectious agent accounting 1.4 million deaths each year. The only licensed vaccine, BCG, is not effective due to variable efficacy. In our study, we determined the early immune events necessary for achieving complete protection in a BCG-vaccinated host. Our study reveals that innate activation of DCs can mediate superior and early Mtb control in BCG-vaccinated mice through lung epithelial cell signaling and localization of clonal activated, Mtb antigen-specific, cytokine-producing CD4(+) T cells within the lung parenchyma and airways. Thus, our study provides novel insights into the immune mechanisms that can overcome TB vaccine bottlenecks and provide early rapid Mtb control.

Published
2021

16. A tale of three kingdoms: members of the Phylum Nematoda independently acquired the detoxifying enzyme cyanase through horizontal gene transfer from plants and bacteria

Author

Zarlenga, Dante, Mitreva, M., Thompson, P., Tyagi, R., Tuo, W., Hoberg, E.P., Zarlenga, Dante, Mitreva, M., Thompson, P., Tyagi, R., Tuo, W., and Hoberg, E.P.

Abstract

Horizontal gene transfer (HGT) has played an important role in the evolution of nematodes. Among candidate genes, cyanase, which is typically found only in plants, bacteria and fungi, is present in more than 35 members of the Phylum Nematoda, but absent from free-living and clade V organisms. Phylogenetic analyses showed that the cyanases of clade I organisms Trichinella spp., Trichuris spp. and Soboliphyme baturini (Subclass: Dorylaimia) represent a well-supported monophyletic clade with plant cyanases. In contrast, all cyanases found within the Subclass Chromadoria which encompasses filarioids, ascaridoids and strongyloids are homologous to those of bacteria. Western blots exhibited typical multimeric forms of the native molecule in protein extracts of Trichinella spiralis muscle larvae, where immunohisto- chemical staining localized the protein to the worm hypodermis and underlying muscle. Recombinant Trichinella cyanase was bioactive where gene transcription profiles support functional activity in vivo. Results suggest that: (1) independent HGT in parasitic nematodes originated from different Kingdoms; (2) cyanase acquired an active role in the biology of extant Trichinella; (3) acquisition occurred more than 400 million years ago (MYA), prior to the divergence of the Trichinellida and Dioctophymatida, and (4) early, free-living ances- tors of the genus Trichinella had an association with terrestrial plants.

Published
2018

17. Changes in duodenal tissue-associated microbiota following hookworm infection and consecutive gluten challenges in humans with coeliac disease

Author

Giacomin P, Zakrzewski M, Timothy P. Jenkins, Su X, Al-Hallaf R, Croese J, de Vries S, Grant A, Mitreva M, Loukas A, Krause L, Cantacessi C, Jenkins, Timothy [0000-0003-2979-5663], de Vries, Stefan [0000-0002-0823-208X], Grant, Andrew [0000-0001-9746-2989], Cantacessi, Cinzia [0000-0001-6863-2950], and Apollo - University of Cambridge Repository

Subjects
Ancylostomatoidea, Bacteria, Duodenum, Microbiota, education, Sequence Analysis, DNA, digestive system, Article, Celiac Disease, Feces, fluids and secretions, parasitic diseases, Animals, Humans
Abstract

A reduced diversity of the gastrointestinal commensal microbiota is associated with the development of several inflammatory diseases. Recent reports in humans and animal models have demonstrated the beneficial therapeutic effects of infections by parasitic worms (helminths) in some inflammatory disorders, such as inflammatory bowel disease (IBD) and coeliac disease (CeD). Interestingly, these studies have described how helminths may alter the intestinal microbiota, potentially representing a mechanism by which they regulate inflammation. However, for practical reasons, these reports have primarily analysed the faecal microbiota. In the present investigation, we have assessed, for the first time, the changes in the microbiota at the site of infection by a parasitic helminth (hookworm) and gluten-dependent inflammation in humans with CeD using biopsy tissue from the duodenum. Hookworm infection and gluten exposure were associated with an increased abundance of species within the Bacteroides phylum, as well as increases in the richness and diversity of the tissue-resident microbiota within the intestine, results that are consistent with previous reports using other helminth species in humans and animal models. Hence, this may represent a mechanism by which parasitic helminths may restore intestinal immune homeostasis and exert a therapeutic benefit in CeD, and potentially other inflammatory disorders.

Published
2016

18. A tale of three kingdoms: members of the Phylum Nematoda independently acquired the detoxifying enzyme cyanase through horizontal gene transfer from plants and bacteria.

Author

Zarlenga, D. S., Mitreva, M., Thompson, P., Tyagi, R., Tuo, W., and Hoberg, E. P.

Subjects
*NEMATODES, *HORIZONTAL gene transfer
Abstract

Horizontal gene transfer (HGT) has played an important role in the evolution of nematodes. Among candidate genes, cyanase, which is typically found only in plants, bacteria and fungi, is present in more than 35 members of the Phylum Nematoda, but absent from free-living and clade V organisms. Phylogenetic analyses showed that the cyanases of clade I organisms Trichinella spp., Trichuris spp. and Soboliphyme baturini (Subclass: Dorylaimia) represent a well-supported monophyletic clade with plant cyanases. In contrast, all cyanases found within the Subclass Chromadoria which encompasses filarioids, ascaridoids and strongyloids are homologous to those of bacteria. Western blots exhibited typical multimeric forms of the native molecule in protein extracts of Trichinella spiralis muscle larvae, where immunohistochemical staining localized the protein to the worm hypodermis and underlying muscle. Recombinant Trichinella cyanase was bioactive where gene transcription profiles support functional activity in vivo. Results suggest that: (1) independent HGT in parasitic nematodes originated from different Kingdoms; (2) cyanase acquired an active role in the biology of extant Trichinella ; (3) acquisition occurred more than 400 million years ago (MYA), prior to the divergence of the Trichinellida and Dioctophymatida, and (4) early, free-living ancestors of the genus Trichinella had an association with terrestrial plants. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Changes in duodenal tissue-associated microbiota following hookworm infection and consecutive gluten challenges in humans with coeliac disease

Author

Giacomin, P, Zakrzewski, M, Jenkins, TP, Su, X, Al-Hallaf, R, Croese, J, de Vries, S, Grant, A, Mitreva, M, Loukas, A, Krause, L, Cantacessi, C, Giacomin, P, Zakrzewski, M, Jenkins, TP, Su, X, Al-Hallaf, R, Croese, J, de Vries, S, Grant, A, Mitreva, M, Loukas, A, Krause, L, and Cantacessi, C

Abstract

A reduced diversity of the gastrointestinal commensal microbiota is associated with the development of several inflammatory diseases. Recent reports in humans and animal models have demonstrated the beneficial therapeutic effects of infections by parasitic worms (helminths) in some inflammatory disorders, such as inflammatory bowel disease (IBD) and coeliac disease (CeD). Interestingly, these studies have described how helminths may alter the intestinal microbiota, potentially representing a mechanism by which they regulate inflammation. However, for practical reasons, these reports have primarily analysed the faecal microbiota. In the present investigation, we have assessed, for the first time, the changes in the microbiota at the site of infection by a parasitic helminth (hookworm) and gluten-dependent inflammation in humans with CeD using biopsy tissue from the duodenum. Hookworm infection and gluten exposure were associated with an increased abundance of species within the Bacteroides phylum, as well as increases in the richness and diversity of the tissue-resident microbiota within the intestine, results that are consistent with previous reports using other helminth species in humans and animal models. Hence, this may represent a mechanism by which parasitic helminths may restore intestinal immune homeostasis and exert a therapeutic benefit in CeD, and potentially other inflammatory disorders.

Published
2016

20. Dictyocaulus viviparus genome, variome and transcriptome elucidate lungworm biology and support future intervention

Author

McNulty, SN, Struebe, C, Rosa, BA, Martin, JC, Tyagi, R, Choi, Y-J, Wang, Q, Pepin, KH, Zhang, X, Ozersky, P, Wilson, RK, Sternberg, PW, Gasser, RB, Mitreva, M, McNulty, SN, Struebe, C, Rosa, BA, Martin, JC, Tyagi, R, Choi, Y-J, Wang, Q, Pepin, KH, Zhang, X, Ozersky, P, Wilson, RK, Sternberg, PW, Gasser, RB, and Mitreva, M

Abstract

The bovine lungworm, Dictyocaulus viviparus (order Strongylida), is an important parasite of livestock that causes substantial economic and production losses worldwide. Here we report the draft genome, variome, and developmental transcriptome of D. viviparus. The genome (161 Mb) is smaller than those of related bursate nematodes and encodes fewer proteins (14,171 total). In the first genome-wide assessment of genomic variation in any parasitic nematode, we found a high degree of sequence variability in proteins predicted to be involved host-parasite interactions. Next, we used extensive RNA sequence data to track gene transcription across the life cycle of D. viviparus, and identified genes that might be important in nematode development and parasitism. Finally, we predicted genes that could be vital in host-parasite interactions, genes that could serve as drug targets, and putative RNAi effectors with a view to developing functional genomic tools. This extensive, well-curated dataset should provide a basis for developing new anthelmintics, vaccines, and improved diagnostic tests and serve as a platform for future investigations of drug resistance and epidemiology of the bovine lungworm and related nematodes.

Published
2016

21. Triticinae alpha-gliadin storage protein gene, partial cds

Author

van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., Smulders, M.J.M., van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., and Smulders, M.J.M.

Published
2016

23. Experimental hookworm infection and escalating gluten challenges are associated with increased microbial richness in celiac subjects

Author

Giacomin, P, Zakrzewski, M, Croese, J, Su, X, Sotillo, J, McCann, L, Navarro, S, Mitreva, M, Krause, L, Loukas, A, Cantacessi, C, Giacomin, P, Zakrzewski, M, Croese, J, Su, X, Sotillo, J, McCann, L, Navarro, S, Mitreva, M, Krause, L, Loukas, A, and Cantacessi, C

Abstract

The intestinal microbiota plays a critical role in the development of the immune system. Recent investigations have highlighted the potential of helminth therapy for treating a range of inflammatory disorders, including celiac disease (CeD); however, the mechanisms by which helminths modulate the immune response of the human host and ameliorate CeD pathology are unknown. In this study, we investigated the potential role of alterations in the human gut microbiota in helminth-mediated suppression of an inflammatory disease. We assessed the qualitative and quantitative changes in the microbiota of human volunteers with CeD prior to and following infection with human hookworms, and following challenge with escalating doses of dietary gluten. Experimental hookworm infection of the trial subjects resulted in maintenance of the composition of the intestinal flora, even after a moderate gluten challenge. Notably, we observed a significant increase in microbial species richness over the course of the trial, which could represent a potential mechanism by which hookworms can regulate gluten-induced inflammation and maintain intestinal immune homeostasis.

Published
2015

24. Genome analysis of the platypus reveals unique signatures of evolution (Nature (2008) 453, (175-183))

Author

Warren, WC, Hillier, LW, Marshall Graves, JA, Birney, E, Ponting, CP, Grützner, F, Belov, K, Miller, W, Clarke, L, Chinwalla, AT, Yang, S-P, Heger, A, Locke, DP, Miethke, P, Waters, PD, Veyrunes, F, Fulton, L, Fulton, B, Graves, T, Wallis, J, Puente, XS, López-Otín, C, Ordó̃ez, GR, Eichler, EE, Chen, L, Cheng, Z, Deakin, JE, Alsop, A, Thompson, K, Kirby, P, Papenfuss, AT, Wakefield, MJ, Olender, T, Lancet, D, Huttley, GA, Smit, AFA, Pask, A, Temple-Smith, P, Batzer, MA, Walker, JA, Konkel, MK, Harris, RS, Whittington, CM, Wong, ESW, Gemmell, NJ, Buschiazzo, E, Vargas Jentzsch, IM, Merkel, A, Schmitz, J, Zemann, A, Churakov, G, Kriegs, JO, Brosius, J, Murchison, EP, Sachidanandam, R, Smith, C, Hannon, GJ, Tsend-Ayush, E, McMillan, D, Attenborough, R, Rens, W, Ferguson-Smith, M, Lefèvre, CM, Sharp, JA, Nicholas, KR, Ray, DA, Kube, M, Reinhardt, R, Pringle, TH, Taylor, J, Jones, RC, Nixon, B, Dacheux, J-L, Niwa, H, Sekita, Y, Huang, X, Stark, A, Kheradpour, P, Kellis, M, Flicek, P, Chen, Y, Webber, C, Hardison, R, Nelson, J, Hallsworth-Pepin, K, Delehaunty, K, Markovic, C, Minx, P, Feng, Y, Kremitzki, C, Mitreva, M, Glasscock, J, Wylie, T, Wohldmann, P, Thiru, P, Nhan, MN, Pohl, CS, Smith, SM, Hou, S, Nefedov, M, De Jong, PJ, Renfree, MB, Mardis, ER, and Wilson, RK

Published
2008

25. Investigating hookworm genomes by comparative analysis of two Ancylostoma species\ud

Author

Mitreva, M., McCarter, J.P., Arasu, P., Hawdon, J., Martin, J., Dante, M., Wylie, T., Xu, J., Stajich, J.E., Kapulkin, W., Clifton, S.W., Waterston, R.H., and Wilson, R.K.

Subjects
parasitic diseases
Abstract

Background\ud \ud Hookworms, infecting over one billion people, are the mostly closely related major human parasites to the model nematode Caenorhabditis elegans. Applying genomics techniques to these species, we analyzed 3,840 and 3,149 genes from Ancylostoma caninum and A. ceylanicum.\ud \ud Results\ud \ud Transcripts originated from libraries representing infective L3 larva, stimulated L3, arrested L3, and adults. Most genes are represented in single stages including abundant transcripts like hsp-20 in infective L3 and vit-3 in adults. Over 80% of the genes have homologs in C. elegans, and nearly 30% of these were with observable RNA interference phenotypes. Homologies were identified to nematode-specific and clade V specific gene families. To study the evolution of hookworm genes, 574 A. caninum / A. ceylanicum orthologs were identified, all of which were found to be under purifying selection with distribution ratios of nonsynonymous to synonymous amino acid substitutions similar to that reported for C. elegans / C. briggsae orthologs. The phylogenetic distance between A. caninum and A. ceylanicum is almost identical to that for C. elegans / C. briggsae.\ud \ud Conclusion\ud \ud The genes discovered should substantially accelerate research toward better understanding of the parasites' basic biology as well as new therapies including vaccines and novel anthelmintics.\ud

Published
2005

26. Genome of the human hookworm Necator americanus

Author

Tang, YT, Gao, X, Rosa, BA, Abubucker, S, Hallsworth-Pepin, K, Martin, J, Tyagi, R, Heizer, E, Zhang, X, Bhonagiri-Palsikar, V, Minx, P, Warren, WC, Wang, Q, Zhan, B, Hotez, PJ, Sternberg, PW, Dougall, A, Gaze, ST, Mulvenna, J, Sotillo, J, Ranganathan, S, Rabelo, EM, Wilson, RK, Felgner, PL, Bethony, J, Hawdon, JM, Gasser, RB, Loukas, A, Mitreva, M, Tang, YT, Gao, X, Rosa, BA, Abubucker, S, Hallsworth-Pepin, K, Martin, J, Tyagi, R, Heizer, E, Zhang, X, Bhonagiri-Palsikar, V, Minx, P, Warren, WC, Wang, Q, Zhan, B, Hotez, PJ, Sternberg, PW, Dougall, A, Gaze, ST, Mulvenna, J, Sotillo, J, Ranganathan, S, Rabelo, EM, Wilson, RK, Felgner, PL, Bethony, J, Hawdon, JM, Gasser, RB, Loukas, A, and Mitreva, M

Abstract

The hookworm Necator americanus is the predominant soil-transmitted human parasite. Adult worms feed on blood in the small intestine, causing iron-deficiency anemia, malnutrition, growth and development stunting in children, and severe morbidity and mortality during pregnancy in women. We report sequencing and assembly of the N. americanus genome (244 Mb, 19,151 genes). Characterization of this first hookworm genome sequence identified genes orchestrating the hookworm's invasion of the human host, genes involved in blood feeding and development, and genes encoding proteins that represent new potential drug targets against hookworms. N. americanus has undergone a considerable and unique expansion of immunomodulator proteins, some of which we highlight as potential treatments against inflammatory diseases. We also used a protein microarray to demonstrate a postgenomic application of the hookworm genome sequence. This genome provides an invaluable resource to boost ongoing efforts toward fundamental and applied postgenomic research, including the development of new methods to control hookworm and human immunological diseases.

Published
2014

27. Impact of Experimental Hookworm Infection on the Human Gut Microbiota

Author

Cantacessi, C, Giacomin, P, Croese, J, Zakrzewski, M, Sotillo, J, McCann, L, Nolan, MJ, Mitreva, M, Krause, L, Loukas, A, Cantacessi, C, Giacomin, P, Croese, J, Zakrzewski, M, Sotillo, J, McCann, L, Nolan, MJ, Mitreva, M, Krause, L, and Loukas, A

Abstract

The interactions between gastrointestinal parasitic helminths and commensal bacteria are likely to play a pivotal role in the establishment of host-parasite cross-talk, ultimately shaping the development of the intestinal immune system. However, little information is available on the impact of infections by gastrointestinal helminths on the bacterial communities inhabiting the human gut. We used 16S rRNA gene amplification and pyrosequencing to characterize, for the first time to our knowledge, the differences in composition and relative abundance of fecal microbial communities in human subjects prior to and following experimental infection with the blood-feeding intestinal hookworm, Necator americanus. Our data show that, although hookworm infection leads to a minor increase in microbial species richness, no detectable effect is observed on community structure, diversity or relative abundance of individual bacterial species.

Published
2014

28. Transcriptome analyses reveal protein and domain families that delineate stage-related development in the economically important parasitic nematodes, Ostertagia ostertagi and Cooperia oncophora

Author

Heizer, E, Zarlenga, DS, Rosa, B, Gao, X, Gasser, RB, De Graef, J, Geldhof, P, Mitreva, M, Heizer, E, Zarlenga, DS, Rosa, B, Gao, X, Gasser, RB, De Graef, J, Geldhof, P, and Mitreva, M

Abstract

BACKGROUND: Cooperia oncophora and Ostertagia ostertagi are among the most important gastrointestinal nematodes of cattle worldwide. The economic losses caused by these parasites are on the order of hundreds of millions of dollars per year. Conventional treatment of these parasites is through anthelmintic drugs; however, as resistance to anthelmintics increases, overall effectiveness has begun decreasing. New methods of control and alternative drug targets are necessary. In-depth analysis of transcriptomic data can help provide these targets. RESULTS: The assembly of 8.7 million and 11 million sequences from C. oncophora and O. ostertagi, respectively, resulted in 29,900 and 34,792 transcripts. Among these, 69% and 73% of the predicted peptides encoded by C. oncophora and O. ostertagi had homologues in other nematodes. Approximately 21% and 24% were constitutively expressed in both species, respectively; however, the numbers of transcripts that were stage specific were much smaller (~1% of the transcripts expressed in a stage). Approximately 21% of the transcripts in C. oncophora and 22% in O. ostertagi were up-regulated in a particular stage. Functional molecular signatures were detected for 46% and 35% of the transcripts in C. oncophora and O. ostertagi, respectively. More in-depth examinations of the most prevalent domains led to knowledge of gene expression changes between the free-living (egg, L1, L2 and L3 sheathed) and parasitic (L3 exsheathed, L4, and adult) stages. Domains previously implicated in growth and development such as chromo domains and the MADF domain tended to dominate in the free-living stages. In contrast, domains potentially involved in feeding such as the zinc finger and CAP domains dominated in the parasitic stages. Pathway analyses showed significant associations between life-cycle stages and peptides involved in energy metabolism in O. ostertagi whereas metabolism of cofactors and vitamins were specifically up-regulated in the parasitic s

Published
2013

29. TIMPs of parasitic helminths - a large-scale analysis of high-throughput sequence datasets

Author

Cantacessi, C, Hofmann, A, Pickering, D, Navarro, S, Mitreva, M, Loukas, A, Cantacessi, C, Hofmann, A, Pickering, D, Navarro, S, Mitreva, M, and Loukas, A

Abstract

BACKGROUND: Tissue inhibitors of metalloproteases (TIMPs) are a multifunctional family of proteins that orchestrate extracellular matrix turnover, tissue remodelling and other cellular processes. In parasitic helminths, such as hookworms, TIMPs have been proposed to play key roles in the host-parasite interplay, including invasion of and establishment in the vertebrate animal hosts. Currently, knowledge of helminth TIMPs is limited to a small number of studies on canine hookworms, whereas no information is available on the occurrence of TIMPs in other parasitic helminths causing neglected diseases. METHODS: In the present study, we conducted a large-scale investigation of TIMP proteins of a range of neglected human parasites including the hookworm Necator americanus, the roundworm Ascaris suum, the liver flukes Clonorchis sinensis and Opisthorchis viverrini, as well as the schistosome blood flukes. This entailed mining available transcriptomic and/or genomic sequence datasets for the presence of homologues of known TIMPs, predicting secondary structures of defined protein sequences, systematic phylogenetic analyses and assessment of differential expression of genes encoding putative TIMPs in the developmental stages of A. suum, N. americanus and Schistosoma haematobium which infect the mammalian hosts. RESULTS: A total of 15 protein sequences with high homology to known eukaryotic TIMPs were predicted from the complement of sequence data available for parasitic helminths and subjected to in-depth bioinformatic analyses. CONCLUSIONS: Supported by the availability of gene manipulation technologies such as RNA interference and/or transgenesis, this work provides a basis for future functional explorations of helminth TIMPs and, in particular, of their role/s in fundamental biological pathways linked to long-term establishment in the vertebrate hosts, with a view towards the development of novel approaches for the control of neglected helminthiases.

Published
2013

30. An analysis of the transcriptome of Teladorsagia circumcincta: its biological and biotechnological implications

Author

Menon, R, Gasser, RB, Mitreva, M, Ranganathan, S, Menon, R, Gasser, RB, Mitreva, M, and Ranganathan, S

Abstract

BACKGROUND: Teladorsagia circumcincta (order Strongylida) is an economically important parasitic nematode of small ruminants (including sheep and goats) in temperate climatic regions of the world. Improved insights into the molecular biology of this parasite could underpin alternative methods required to control this and related parasites, in order to circumvent major problems associated with anthelmintic resistance. The aims of the present study were to define the transcriptome of the adult stage of T. circumcincta and to infer the main pathways linked to molecules known to be expressed in this nematode. Since sheep develop acquired immunity against T. circumcincta, there is some potential for the development of a vaccine against this parasite. Hence, we infer excretory/secretory molecules for T. circumcincta as possible immunogens and vaccine candidates. RESULTS: A total of 407,357 ESTs were assembled yielding 39,852 putative gene sequences. Conceptual translation predicted 24,013 proteins, which were then subjected to detailed annotation which included pathway mapping of predicted proteins (including 112 excreted/secreted [ES] and 226 transmembrane peptides), domain analysis and GO annotation was carried out using InterProScan along with BLAST2GO. Further analysis was carried out for secretory signal peptides using SignalP and non-classical sec pathway using SecretomeP tools. For ES proteins, key pathways, including Fc epsilon RI, T cell receptor, and chemokine signalling as well as leukocyte transendothelial migration were inferred to be linked to immune responses, along with other pathways related to neurodegenerative diseases and infectious diseases, which warrant detailed future studies. KAAS could identify new and updated pathways like phagosome and protein processing in endoplasmic reticulum. Domain analysis for the assembled dataset revealed families of serine, cysteine and proteinase inhibitors which might represent targets for parasite intervention. Inte

Published
2012

31. Massively Parallel Sequencing and Analysis of the Necator americanus Transcriptome

Author

Knight, M, Cantacessi, C, Mitreva, M, Jex, AR, Young, ND, Campbell, BE, Hall, RS, Doyle, MA, Ralph, SA, Rabelo, EM, Ranganathan, S, Sternberg, PW, Loukas, A, Gasser, RB, Knight, M, Cantacessi, C, Mitreva, M, Jex, AR, Young, ND, Campbell, BE, Hall, RS, Doyle, MA, Ralph, SA, Rabelo, EM, Ranganathan, S, Sternberg, PW, Loukas, A, and Gasser, RB

Abstract

BACKGROUND: The blood-feeding hookworm Necator americanus infects hundreds of millions of people worldwide. In order to elucidate fundamental molecular biological aspects of this hookworm, the transcriptome of the adult stage of Necator americanus was explored using next-generation sequencing and bioinformatic analyses. METHODOLOGY/PRINCIPAL FINDINGS: A total of 19,997 contigs were assembled from the sequence data; 6,771 of these contigs had known orthologues in the free-living nematode Caenorhabditis elegans, and most of them encoded proteins with WD40 repeats (10.6%), proteinase inhibitors (7.8%) or calcium-binding EF-hand proteins (6.7%). Bioinformatic analyses inferred that the C. elegans homologues are involved mainly in biological pathways linked to ribosome biogenesis (70%), oxidative phosphorylation (63%) and/or proteases (60%); most of these molecules were predicted to be involved in more than one biological pathway. Comparative analyses of the transcriptomes of N. americanus and the canine hookworm, Ancylostoma caninum, revealed qualitative and quantitative differences. For instance, proteinase inhibitors were inferred to be highly represented in the former species, whereas SCP/Tpx-1/Ag5/PR-1/Sc7 proteins ( = SCP/TAPS or Ancylostoma-secreted proteins) were predominant in the latter. In N. americanus, essential molecules were predicted using a combination of orthology mapping and functional data available for C. elegans. Further analyses allowed the prioritization of 18 predicted drug targets which did not have homologues in the human host. These candidate targets were inferred to be linked to mitochondrial (e.g., processing proteins) or amino acid metabolism (e.g., asparagine t-RNA synthetase). CONCLUSIONS: This study has provided detailed insights into the transcriptome of the adult stage of N. americanus and examines similarities and differences between this species and A. caninum. Future efforts should focus on comparative transcriptomic and proteomic i

Published
2010

32. A practical, bioinformatic workflow system for large data sets generated by next-generation sequencing

Author

Cantacessi, C, Jex, AR, Hall, RS, Young, ND, Campbell, BE, Joachim, A, Nolan, MJ, Abubucker, S, Sternberg, PW, Ranganathan, S, Mitreva, M, Gasser, RB, Cantacessi, C, Jex, AR, Hall, RS, Young, ND, Campbell, BE, Joachim, A, Nolan, MJ, Abubucker, S, Sternberg, PW, Ranganathan, S, Mitreva, M, and Gasser, RB

Abstract

Transcriptomics (at the level of single cells, tissues and/or whole organisms) underpins many fields of biomedical science, from understanding the basic cellular function in model organisms, to the elucidation of the biological events that govern the development and progression of human diseases, and the exploration of the mechanisms of survival, drug-resistance and virulence of pathogens. Next-generation sequencing (NGS) technologies are contributing to a massive expansion of transcriptomics in all fields and are reducing the cost, time and performance barriers presented by conventional approaches. However, bioinformatic tools for the analysis of the sequence data sets produced by these technologies can be daunting to researchers with limited or no expertise in bioinformatics. Here, we constructed a semi-automated, bioinformatic workflow system, and critically evaluated it for the analysis and annotation of large-scale sequence data sets generated by NGS. We demonstrated its utility for the exploration of differences in the transcriptomes among various stages and both sexes of an economically important parasitic worm (Oesophagostomum dentatum) as well as the prediction and prioritization of essential molecules (including GTPases, protein kinases and phosphatases) as novel drug target candidates. This workflow system provides a practical tool for the assembly, annotation and analysis of NGS data sets, also to researchers with a limited bioinformatic expertise. The custom-written Perl, Python and Unix shell computer scripts used can be readily modified or adapted to suit many different applications. This system is now utilized routinely for the analysis of data sets from pathogens of major socio-economic importance and can, in principle, be applied to transcriptomics data sets from any organism.

Published
2010

33. Novel venom gene discovery in the platypus

Author

Whittington, CM, Papenfuss, AT, Locke, DP, Mardis, ER, Wilson, RK, Abubucker, S, Mitreva, M, Wong, ESW, Hsu, AL, Kuchel, PW, Belov, K, Warren, WC, Whittington, CM, Papenfuss, AT, Locke, DP, Mardis, ER, Wilson, RK, Abubucker, S, Mitreva, M, Wong, ESW, Hsu, AL, Kuchel, PW, Belov, K, and Warren, WC

Abstract

BACKGROUND: To date, few peptides in the complex mixture of platypus venom have been identified and sequenced, in part due to the limited amounts of platypus venom available to study. We have constructed and sequenced a cDNA library from an active platypus venom gland to identify the remaining components. RESULTS: We identified 83 novel putative platypus venom genes from 13 toxin families, which are homologous to known toxins from a wide range of vertebrates (fish, reptiles, insectivores) and invertebrates (spiders, sea anemones, starfish). A number of these are expressed in tissues other than the venom gland, and at least three of these families (those with homology to toxins from distant invertebrates) may play non-toxin roles. Thus, further functional testing is required to confirm venom activity. However, the presence of similar putative toxins in such widely divergent species provides further evidence for the hypothesis that there are certain protein families that are selected preferentially during evolution to become venom peptides. We have also used homology with known proteins to speculate on the contributions of each venom component to the symptoms of platypus envenomation. CONCLUSIONS: This study represents a step towards fully characterizing the first mammal venom transcriptome. We have found similarities between putative platypus toxins and those of a number of unrelated species, providing insight into the evolution of mammalian venom.

Published
2010

34. Systematic analysis of insertions and deletions specific to nematode proteins and their proposed functional and evolutionary relevance

Author

Wang, Z, Martin, J, Abubucker, S, Yin, Y, Gasser, RB, Mitreva, M, Wang, Z, Martin, J, Abubucker, S, Yin, Y, Gasser, RB, and Mitreva, M

Abstract

BACKGROUND: Amino acid insertions and deletions in proteins are considered relatively rare events, and their associations with the evolution and adaptation of organisms are not yet understood. In this study, we undertook a systematic analysis of over 214,000 polypeptides from 32 nematode species and identified insertions and deletions unique to nematode proteins in more than 1000 families and provided indirect evidence that these alterations are linked to the evolution and adaptation of nematodes. RESULTS: Amino acid alterations in sequences of nematodes were identified by comparison with homologous sequences from a wide range of eukaryotic (metzoan) organisms. This comparison revealed that the proteins inferred from transcriptomic datasets for nematodes contained more deletions than insertions, and that the deletions tended to be larger in length than insertions, indicating a decreased size of the transcriptome of nematodes compared with other organisms. The present findings showed that this reduction is more pronounced in parasitic nematodes compared with the free-living nematodes of the genus Caenorhabditis. Consistent with a requirement for conservation in proteins involved in the processing of genetic information, fewer insertions and deletions were detected in such proteins. On the other hand, more insertions and deletions were recorded for proteins inferred to be involved in the endocrine and immune systems, suggesting a link with adaptation. Similarly, proteins involved in multiple cellular pathways tended to display more deletions and insertions than those involved in a single pathway. The number of insertions and deletions shared by a range of plant parasitic nematodes were higher for proteins involved in lipid metabolism and electron transport compared with other nematodes, suggesting an association between metabolic adaptation and parasitism in plant hosts. We also identified three sizable deletions from proteins found to be specific to and shared by par

Published
2009

35. Helminth genomics: The implications for human health

Author

Brindley, PJ, Mitreva, M, Ghedin, E, Lustigman, S, Brindley, PJ, Mitreva, M, Ghedin, E, and Lustigman, S

Abstract

More than two billion people (one-third of humanity) are infected with parasitic roundworms or flatworms, collectively known as helminth parasites. These infections cause diseases that are responsible for enormous levels of morbidity and mortality, delays in the physical development of children, loss of productivity among the workforce, and maintenance of poverty. Genomes of the major helminth species that affect humans, and many others of agricultural and veterinary significance, are now the subject of intensive genome sequencing and annotation. Draft genome sequences of the filarial worm Brugia malayi and two of the human schistosomes, Schistosoma japonicum and S. mansoni, are now available, among others. These genome data will provide the basis for a comprehensive understanding of the molecular mechanisms involved in helminth nutrition and metabolism, host-dependent development and maturation, immune evasion, and evolution. They are likely also to predict new potential vaccine candidates and drug targets. In this review, we present an overview of these efforts and emphasize the potential impact and importance of these new findings. © 2009 Brindley et al.

Published
2009

36. Integrating genomics and phylogenetics in understanding the history of Trichinella species

Author

Zarlenga, Dante, Rosenthal, B., Hoberg, E., Mitreva, M., Zarlenga, Dante, Rosenthal, B., Hoberg, E., and Mitreva, M.

Abstract

In 2004, funding was received by Washington University’s Genome Sequencing Center through NHGRI, to completely sequence several nematode genomes as part of a holistic effort to advance our understanding of the human genome and evolution within the Metazoa. Trichinella spiralis was among this group of worms because of its strategic location at the base of the phylum Nematoda, and the belief that extant species represented an ancient divergent event that occurred as early as the Paleozoic. At the same time, a concerted effort was put forth to solidify the phylogeny of extant species of Trichinella based upon molecular analyses of a multi-gene system to understand the history of the genus and thereby enhance utilization of the forthcoming sequence data. Since the inception of this research, several findings have emerged: (1) the size of T. spiralis genome estimated by flow cytometry (71.3 Mb) is substantially smaller than originally predicted (270 Mb); (2) to date, a subset of the total of 3,534,683 sequences have been assembled into a 59.3 Mb unique sequence; (3) 19% of the assembled sequence is comprised of repetitive elements; and (4) sequence data are predicated upon extant T. spiralis which probably diverged as little as 20 million years ago. Thus, the utility of the T. spiralis genome as representative of an archaic species must be tempered with the knowledge that encapsulated and non-encapsulated clades probably separated during the mid-Miocene as temperate ecosystems changed.

Published
2009

37. Mining the secretome of the root-knot nematode Meloidogyne chitwoodi for candidate parasitism genes

Author

Roze, E.H.A., Hanse, B., Mitreva, M., Vanholme, B., Bakker, J., Smant, G., Roze, E.H.A., Hanse, B., Mitreva, M., Vanholme, B., Bakker, J., and Smant, G.

Abstract

Parasite proteins secreted at the interface of nematode and host are believed to play an essential role in parasitism. Here, we present an efficient pipeline of bio-informatic algorithms and laboratory experiments to identify candidate parasitism genes within nematode secretomes, i.e. the repertoire of secreted proteins in an organism. We performed our approach on 12 218 expressed sequence tags (ESTs) originating from three life stages of the plant parasitic nematode Meloidogyne chitwoodi¿a molecularly unexplored root-knot nematode species. The ESTs from M. chitwoodi were assembled into 5880 contigs and open reading frames translated from the consensus sequences were searched for features of putative signal peptides for protein secretion and trans-membrane regions, resulting in the identification of 398 secretome members. The products of parasitism genes are secreted by a range of organs, including the oesophageal, amphidial and rectal glands, the intestine, and the hypodermis. To localize the site of expression in M. chitwoodi, we subjected the most abundant secretome members to in situ hybridization microscopy. We found hybridization of one tag in the dorsal oesophageal gland, seven in the two subventral oesophageal glands, two in the intestine and one tag hybridized to the tail tip in the proximity of the phasmids. Four sequences showed similarity to putative parasitism genes from other nematode species, whereas seven represented pioneering sequences. Our approach presents an efficient method to identify candidate parasitism genes, which does not require sophisticated cDNA isolation and selection protocols, and can therefore be used as a powerful starting point for the molecular investigation of parasites.

Published
2008

38. Triticinae alpha-gliadin storage protein pseudogene, partial sequence

Author

van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., Smulders, M.J.M., van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., and Smulders, M.J.M.

Published
2006

39. Alpha-gliadin genes from the A, B, and D genomes of wheat contain different sets of celiac disease epitopes

Author

van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., Smulders, M.J.M., van Herpen, T.W.J.M., Goryunova-Svetlana, V., van der Schoot, J., Mitreva, M., Salentijn, E.M.J., Vorst, O.F.J., Schenk, M.F., van Veelen, P., de Koning, F., van Soest, L.J.M., Vosman, B.J., Bosch, H.J., Gilissen, L.J.W.J., and Smulders, M.J.M.

Abstract

Background - Bread wheat (Triticum aestivum) is an important staple food. However, wheat gluten proteins cause celiac disease (CD) in 0.5 to 1% of the general population. Among these proteins, the a-gliadins contain several peptides that are associated to the disease. Results - We obtained 230 distinct a-gliadin gene sequences from severaldiploid wheat species representing the ancestral A, B, and D genomes of the hexaploid bread wheat. The large majority of these sequences (87%) contained an internal stop codon. All a-gliadin sequences could be distinguished according to the genome of origin on the basis of sequence similarity, of the average length of the polyglutamine repeats, and of the differences in the presence of four peptides that have been identified as T cell stimulatory epitopes in CD patients through binding to HLA-DQ2/8. By sequence similarity, a-gliadins from the public database of hexaploid T. aestivum could be assigned directly to chromosome 6A, 6B, or 6D. T. monococcum (A genome) sequences, as well as those from chromosome 6A of bread wheat, almost invariably contained epitope glia-a9 and glia-a20, but never the intact epitopes glia-a and glia-a2. A number of sequences from T. speltoides, as well as a number of sequences fromchromosome 6B of bread wheat, did not contain any of the four T cell epitopes screened for. The sequences from T. tauschii (D genome), as well as those from chromosome 6D of bread wheat, were found to contain all of these T cell epitopes in variable combinations per gene. The differences in epitope composition resulted mainly from point mutations. These substitutions appeared to be genome specific. Conclusion - Our analysis shows that a-gliadin sequences from the three genomes of bread wheat form distinct groups. The four known T cell stimulatory epitopes are distributed non-randomly across the sequences, indicating that the three genomes contribute differently to epitope content. A systematic analysis of all known epitopes in g

Published
2006

44. Theory of planned behavior: Personal attitude and perceived behavioral control as key determinants in creation of entrepreneurial societies and social inclusion of young people

Author

Tamara Jovanov Apasieva, Cabuleva, K., and Mitreva, M.

Subjects
Other social sciences, Economics and business, Sociology, Political Science, Psychology
Abstract

This paper examines the basic variables from the Theory of Planned Behavior in order to explain entrepreneurial intentions of 317 young people (students of economics and business) in a transitional economy, the Republic of North Macedonia (hereafter N. Macedonia). Confirmatory factor analysis for model fit and multiple regression analysis are used to test the hypotheses. The findings indicate that the young people‟s personal attitude and perceived behavioral control are two variables that have significant positive association with their entrepreneurial intent (the intent to start their own business in future). However, even when young people have high positive perceptions and strong perceived behavioral control (self-confidence in their own capabilities), their intent is not very clear (high). In order to contribute to the development of entrepreneurial societies and increase youth social inclusion through self-employment, policymakers and the scientific community should search for further answers for the underlying factors that hinder the entrepreneurial intention in transitional economies.

46. A white paper on nematode comparative genomics

Author

David Bird, Blaxter, M. L., Mccarter, J. P., Mitreva, M., Sternberg, P. W., and Thomas, W. K.

Subjects
Other medical sciences
Abstract

In response to the new opportunities for genome sequencing and comparative genomics, the Society of Nematology (SON) formed a committee to develop a white paper in support of the broad scientific needs associated with this phylum and interests of SON members. Although genome sequencing is expensive, the data generated are unique in biological systems in that genomes have the potential to be complete (every base of the genome can be accounted for), accurate (the data are digital and not subject to stochastic variation), and permanent (once obtained, the genome of a species does not need to be experimentally re-sampled). The availability of complete, accurate, and permanent genome sequences from diverse nematode species will underpin future studies into the biology and evolution of this phylum and the ecological associations (particularly parasitic) nematodes have with other organisms. We anticipate that upwards of 100 nematode genomes will be solved to varying levels of completion in the coming decade and suggest biological and practical considerations to guide the selection of the most informative taxa for sequencing.

48. Changes in duodenal tissue-associated microbiota following hookworm infection and consecutive gluten challenges in humans with coeliac disease

Author

Giacomin, P, Zakrzewski, M, Jenkins, TP, Su, X, Al-Hallaf, R, Croese, J, De Vries, S, Grant, A, Mitreva, M, Loukas, A, Krause, L, and Cantacessi, C

Subjects
Ancylostomatoidea, Celiac Disease, Feces, fluids and secretions, Bacteria, Duodenum, Microbiota, parasitic diseases, Animals, Humans, Sequence Analysis, DNA, digestive system, 3. Good health
Abstract

A reduced diversity of the gastrointestinal commensal microbiota is associated with the development of several inflammatory diseases. Recent reports in humans and animal models have demonstrated the beneficial therapeutic effects of infections by parasitic worms (helminths) in some inflammatory disorders, such as inflammatory bowel disease (IBD) and coeliac disease (CeD). Interestingly, these studies have described how helminths may alter the intestinal microbiota, potentially representing a mechanism by which they regulate inflammation. However, for practical reasons, these reports have primarily analysed the faecal microbiota. In the present investigation, we have assessed, for the first time, the changes in the microbiota at the site of infection by a parasitic helminth (hookworm) and gluten-dependent inflammation in humans with CeD using biopsy tissue from the duodenum. Hookworm infection and gluten exposure were associated with an increased abundance of species within the Bacteroides phylum, as well as increases in the richness and diversity of the tissue-resident microbiota within the intestine, results that are consistent with previous reports using other helminth species in humans and animal models. Hence, this may represent a mechanism by which parasitic helminths may restore intestinal immune homeostasis and exert a therapeutic benefit in CeD, and potentially other inflammatory disorders.

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