Your search keyword '"Ponce-Gordo, F."' showing total 92 results

1. Question of agent of camel balantidiosis solved: Molecular identity, taxonomic solution and epidemiological considerations

Author

Esteban-Sánchez, Lorena, Panayotova-Pencheva, Mariana, Qablan, Moneeb, Modrý, David, Hofmannová, Lada, and Ponce-Gordo, F.

Published

2023

2. Novel avian oropharyngeal trichomonads isolated from European turtle doves (Streptopelia turtur) and racing pigeons (Columba livia): genetic and morphometric characterisation of clonal cultures

Author

Martínez-Herrero, M.C., Garijo-Toledo, M.M., Liebhart, D., Ganas, P., Martínez-Díaz, R.A., Ponce-Gordo, F., Carrero-Ruiz, A., Hess, M., and Gómez-Muñoz, M.T.

Published

2017

3. Morphological and molecular identification of Tetratrichomonas flagellates from the giant anteater (Myrmecophaga tridactyla)

Author

Ibañez-Escribano, A., Nogal-Ruiz, J.J., Delclaux, M., Martinez-Nevado, E., and Ponce-Gordo, F.

Published

2013

4. Chromosome-scale Echinococcus granulosus (genotype G1) genome reveals the Eg95 gene family and conservation of the EG95-vaccine molecule

Author

Korhonen, PK, Kinkar, L, Young, ND, Cai, H, Lightowlers, MW, Gauci, C, Jabbar, A, Chang, BCH, Wang, T, Hofmann, A, Koehler, A, Li, J, Wang, D, Yin, J, Yang, H, Jenkins, DJ, Saarma, U, Laurimae, T, Rostami-Nejad, M, Irshadullah, M, Mirhendi, H, Sharbatkhori, M, Ponce-Gordo, F, Simsek, S, Casulli, A, Zait, H, Atoyan, H, de la Rue, ML, Romig, T, Wassermann, M, Aghayan, SA, Gevorgyan, H, Yang, B, Gasser, RB, Korhonen, PK, Kinkar, L, Young, ND, Cai, H, Lightowlers, MW, Gauci, C, Jabbar, A, Chang, BCH, Wang, T, Hofmann, A, Koehler, A, Li, J, Wang, D, Yin, J, Yang, H, Jenkins, DJ, Saarma, U, Laurimae, T, Rostami-Nejad, M, Irshadullah, M, Mirhendi, H, Sharbatkhori, M, Ponce-Gordo, F, Simsek, S, Casulli, A, Zait, H, Atoyan, H, de la Rue, ML, Romig, T, Wassermann, M, Aghayan, SA, Gevorgyan, H, Yang, B, and Gasser, RB

Abstract

Cystic echinococcosis is a socioeconomically important parasitic disease caused by the larval stage of the canid tapeworm Echinococcus granulosus, afflicting millions of humans and animals worldwide. The development of a vaccine (called EG95) has been the most notable translational advance in the fight against this disease in animals. However, almost nothing is known about the genomic organisation/location of the family of genes encoding EG95 and related molecules, the extent of their conservation or their functions. The lack of a complete reference genome for E. granulosus genotype G1 has been a major obstacle to addressing these areas. Here, we assembled a chromosomal-scale genome for this genotype by scaffolding to a high quality genome for the congener E. multilocularis, localised Eg95 gene family members in this genome, and evaluated the conservation of the EG95 vaccine molecule. These results have marked implications for future explorations of aspects such as developmentally-regulated gene transcription/expression (using replicate samples) for all E. granulosus stages; structural and functional roles of non-coding genome regions; molecular 'cross-talk' between oncosphere and the immune system; and defining the precise function(s) of EG95. Applied aspects should include developing improved tools for the diagnosis and chemotherapy of cystic echinococcosis of humans.

Published

2022

5. Tentative identification of the species of Balantidium from ostriches ( Struthio camelus) as Balantidium coli-like by analysis of polymorphic DNA

Author

Ponce-Gordo, F., Jimenez-Ruiz, E., and Martínez-Díaz, R.A.

Published

2008

6. Effect of two formulations of benzimidazole carbamates on the viability of cysts of Echinococcus granulosus in vivo

Author

Daniel-Mwuambete K., Ponce-Gordo F., Torrado J., Torrado S., and Cuesta-Bandera C.

Subjects

Echinococcus granulosus, hydatid cyst, albendazole, ricobendazole, mebendazole, efficacy, solid dispersion, in vivo, Infectious and parasitic diseases, RC109-216

Abstract

Two different preparations, solution and suspension, of three benzimidazole carbamate drugs, mebendazole, albendazole and ricobendazole, were compared by analyzing their in vivo activity against Echinococcus granulosus cysts in a mouse model. Polyvinylpyrrolidone was used for the elaboration of drug solutions and these formulations manifested better results in terms of reduction of number of viable hydatid cysts in mice than the reference drug suspensions. The effect was more prominent on mebendazole-treated mice, at doses of 25-50 mg/kg. There was a correlation between ED50 and pharmacokinetical parameters of AUC0∞ and Cmax , showing that a significant improvement on solubility affects the in vivo activity of these drugs.

Published

2003

7. Genetic identification and host range of the Spanish strains of Echinococcus granulosus

Author

Daniel Mwambete, K, Ponce-Gordo, F, and Cuesta-Bandera, C

Published

2004

8. The effect of solubilization on the oral bioavailability of three benzimidazole carbamate drugs

Author

Daniel-Mwambete, K, Torrado, Susana, Cuesta-Bandera, C, Ponce-Gordo, F, and Torrado, J J.

Published

2004

9. Parasites from farmed ostriches ( Struthio camelus) and rheas ( Rhea americana) in Europe

Author

Ponce Gordo, F, Herrera, S, Castro, A.T, Garcı́a Durán, B, and Martı́nez Dı́az, R.A

Published

2002

10. Are molecular tools clarifying or confusing our understanding of the public health threat from zoonotic enteric protozoa in wildlife?

Author

Robertson, L.J., Clark, C.G., Debenham, J.J., Dubey, J.P., Kváč, M., Li, J., Ponce-Gordo, F., Ryan, U., Schares, G., Su, C., Tsaousis, A.D., Robertson, L.J., Clark, C.G., Debenham, J.J., Dubey, J.P., Kváč, M., Li, J., Ponce-Gordo, F., Ryan, U., Schares, G., Su, C., and Tsaousis, A.D.

Abstract

Emerging infectious diseases are frequently zoonotic, often originating in wildlife, but enteric protozoa are considered relatively minor contributors. Opinions regarding whether pathogenic enteric protozoa may be transmitted between wildlife and humans have been shaped by our investigation tools, and has led to oscillations regarding whether particular species are zoonotic or have host-adapted life cycles. When the only approach for identifying enteric protozoa was morphology, it was assumed that many enteric protozoa colonized multiple hosts and were probably zoonotic. When molecular tools revealed genetic differences in morphologically identical species colonizing humans and other animals, host specificity seemed more likely. Parasites from animals found to be genetically identical - at the few genes investigated - to morphologically indistinguishable parasites from human hosts, were described as having zoonotic potential. More discriminatory molecular tools have now sub-divided some protozoa again. Meanwhile, some infection events indicate that, circumstances permitting, some “host-specific” protozoa, can actually infect various hosts. These repeated changes in our understanding are linked intrinsically to the investigative tools available. Here we review how molecular tools have assisted, or sometimes confused, our understanding of the public health threat from nine enteric protozoa and example wildlife hosts (Balantoides coli - wild boar; Blastocystis sp. - wild rodents; Cryptosporidium spp. - wild fish; Encephalitozoon spp. - wild birds; Entamoeba spp. - non-human primates; Enterocytozoon bieneusi - wild cervids; Giardia duodenalis - red foxes; Sarcocystis nesbitti - snakes; Toxoplasma gondii - bobcats). Molecular tools have provided evidence that some enteric protozoa in wildlife may infect humans, but due to limited discriminatory power, often only the zoonotic potential of the parasite is indicated. Molecular analyses, which should be as discriminatory as

Published

2019

11. Distinguishing Echinococcus granulosus sensu stricto genotypes G1 and G3 with confidence: A practical guide

Author

Kinkar, L, Laurimae, T, Acosta-Jamett, G, Andresiuk, V, Balkaya, I, Casulli, A, Gasser, RB, Miguel Gonzalez, L, Haag, KL, Zait, H, Irshadullah, M, Jabbar, A, Jenkins, DJ, Manfredi, MT, Mirhendi, H, M'rad, S, Rostami-Nejad, M, Oudni-M'rad, M, Beatriz Pierangeli, N, Ponce-Gordo, F, Rehbein, S, Sharbatkhori, M, Kia, EB, Simsek, S, Viviana Soriano, S, Sprong, H, Snabel, V, Umhang, G, Varcasia, A, Saarma, U, Kinkar, L, Laurimae, T, Acosta-Jamett, G, Andresiuk, V, Balkaya, I, Casulli, A, Gasser, RB, Miguel Gonzalez, L, Haag, KL, Zait, H, Irshadullah, M, Jabbar, A, Jenkins, DJ, Manfredi, MT, Mirhendi, H, M'rad, S, Rostami-Nejad, M, Oudni-M'rad, M, Beatriz Pierangeli, N, Ponce-Gordo, F, Rehbein, S, Sharbatkhori, M, Kia, EB, Simsek, S, Viviana Soriano, S, Sprong, H, Snabel, V, Umhang, G, Varcasia, A, and Saarma, U

Abstract

Cystic echinococcosis (CE), a zoonotic disease caused by tapeworms of the species complex Echinococcus granulosus sensu lato, represents a substantial global health and economic burden. Within this complex, E. granulosus sensu stricto (genotypes G1 and G3) is the most frequent causative agent of human CE. Currently, there is no fully reliable method for assigning samples to genotypes G1 and G3, as the commonly used mitochondrial cox1 and nad1 genes are not sufficiently consistent for the identification and differentiation of these genotypes. Thus, a new genetic assay is required for the accurate assignment of G1 and G3. Here we use a large dataset of near-complete mtDNA sequences (n = 303) to reveal the extent of genetic variation of G1 and G3 on a broad geographical scale and to identify reliable informative positions for G1 and G3. Based on extensive sampling and sequencing data, we developed a new method, that is simple and cost-effective, to designate samples to genotypes G1 and G3. We found that the nad5 is the best gene in mtDNA to differentiate between G1 and G3, and developed new primers for the analysis. Our results also highlight problems related to the commonly used cox1 and nad1. To guarantee consistent identification of G1 and G3, we suggest using the sequencing of the nad5 gene region (680 bp). This region contains six informative positions within a relatively short fragment of the mtDNA, allowing the differentiation of G1 and G3 with confidence. Our method offers clear advantages over the previous ones, providing a significantly more consistent means to distinguish G1 and G3 than the commonly used cox1 and nad1.

Published

2018

12. Global phylogeography and genetic diversity of the zoonotic tapeworm Echinococcus granulosus sensu stricto genotype G1

Author

Kinkar, L, Laurimae, T, Acosta-Jamett, G, Andresiuk, V, Balkaya, I, Casulli, A, Gasser, RB, van der Giessen, J, Miguel Gonzalez, L, Haag, KL, Zait, H, Irshadullah, M, Jabbar, A, Jenkins, DJ, Kia, EB, Manfredi, MT, Mirhendi, H, M'rad, S, Rostami-Nejad, M, Oudni-M'rad, M, Beatriz Pierangeli, N, Ponce-Gordo, F, Rehbein, S, Sharbatkhori, M, Simsek, S, Viviana Soriano, S, Sprong, H, Snabel, V, Umhang, G, Varcasia, A, Saarma, U, Kinkar, L, Laurimae, T, Acosta-Jamett, G, Andresiuk, V, Balkaya, I, Casulli, A, Gasser, RB, van der Giessen, J, Miguel Gonzalez, L, Haag, KL, Zait, H, Irshadullah, M, Jabbar, A, Jenkins, DJ, Kia, EB, Manfredi, MT, Mirhendi, H, M'rad, S, Rostami-Nejad, M, Oudni-M'rad, M, Beatriz Pierangeli, N, Ponce-Gordo, F, Rehbein, S, Sharbatkhori, M, Simsek, S, Viviana Soriano, S, Sprong, H, Snabel, V, Umhang, G, Varcasia, A, and Saarma, U

Abstract

Echinococcus granulosus sensu stricto (s.s.) is the major cause of human cystic echinococcosis worldwide and is listed among the most severe parasitic diseases of humans. To date, numerous studies have investigated the genetic diversity and population structure of E. granulosus s.s. in various geographic regions. However, there has been no global study. Recently, using mitochondrial DNA, it was shown that E. granulosus s.s. G1 and G3 are distinct genotypes, but a larger dataset is required to confirm the distinction of these genotypes. The objectives of this study were to: (i) investigate the distinction of genotypes G1 and G3 using a large global dataset; and (ii) analyse the genetic diversity and phylogeography of genotype G1 on a global scale using near-complete mitogenome sequences. For this study, 222 globally distributed E. granulosus s.s. samples were used, of which 212 belonged to genotype G1 and 10 to G3. Using a total sequence length of 11,682 bp, we inferred phylogenetic networks for three datasets: E. granulosus s.s. (n = 222), G1 (n = 212) and human G1 samples (n = 41). In addition, the Bayesian phylogenetic and phylogeographic analyses were performed. The latter yielded several strongly supported diffusion routes of genotype G1 originating from Turkey, Tunisia and Argentina. We conclude that: (i) using a considerably larger dataset than employed previously, E. granulosus s.s. G1 and G3 are indeed distinct mitochondrial genotypes; (ii) the genetic diversity of E. granulosus s.s. G1 is high globally, with lower values in South America; and (iii) the complex phylogeographic patterns emerging from the phylogenetic and geographic analyses suggest that the current distribution of genotype G1 has been shaped by intensive animal trade.

Published

2018

13. The benefits of analysing complete mitochondrial genomes: Deep insights into the phylogeny and population structure of Echinococcus granulosus sensu lato genotypes G6 and G7

Author

Laurimae, T, Kinkar, L, Romig, T, Omer, RA, Casulli, A, Umhang, G, Gasser, RB, Jabbar, A, Sharbatkhori, M, Mirhendi, H, Ponce-Gordo, F, Lazzarini, LE, Soriano, SV, Varcasia, A, Nejad, MR, Andresiuk, V, Maravilla, P, Miguel Gonzalez, L, Dybicz, M, Gawor, J, Sarkunas, M, Snabel, V, Kuzmina, T, Saarma, U, Laurimae, T, Kinkar, L, Romig, T, Omer, RA, Casulli, A, Umhang, G, Gasser, RB, Jabbar, A, Sharbatkhori, M, Mirhendi, H, Ponce-Gordo, F, Lazzarini, LE, Soriano, SV, Varcasia, A, Nejad, MR, Andresiuk, V, Maravilla, P, Miguel Gonzalez, L, Dybicz, M, Gawor, J, Sarkunas, M, Snabel, V, Kuzmina, T, and Saarma, U

Abstract

Cystic echinococcosis (CE) is a zoonotic disease caused by the larval stage of the species complex Echinococcus granulosus sensu lato. Within this complex, genotypes G6 and G7 have been frequently associated with human CE worldwide. Previous studies exploring the genetic variability and phylogeography of genotypes G6 and G7 have been based on relatively short mtDNA sequences, and the resolution of these studies has often been low. Moreover, using short sequences, the distinction between G6 and G7 has in some cases remained challenging. The aim here was to sequence complete mitochondrial genomes (mitogenomes) to obtain deeper insight into the genetic diversity, phylogeny and population structure of genotypes G6 and G7. We sequenced complete mitogenomes of 94 samples collected from 15 different countries worldwide. The results demonstrated that (i) genotypes G6 and G7 can be clearly distinguished when mitogenome sequences are used; (ii) G7 is represented by two major haplogroups, G7a and G7b, the latter being specific to islands of Corsica and Sardinia; (iii) intensive animal trade, but also geographical isolation, have likely had the largest impact on shaping the genetic structure and distribution of genotypes G6 and G7. In addition, we found phylogenetically highly divergent haplotype from Mongolia (Gmon), which had a higher affinity to G6.

Published

2018

14. On the identification of some Entamoeba species. Comments on a recent paper

Author

Ponce-Gordo, F., primary and Martínez-Díaz, R. A., additional

Published

2007

15. Entamoeba struthionis n.sp. (Sarcomastigophora: Endamoebidae) from ostriches (Struthio camelus)

Author

Ponce Gordo, F, primary

Published

2004

16. Effect of two formulations of benzimidazole carbamates on the viability of cysts ofEchinococcus granulosus in vivo

Author

Daniel-Mwuambete, K., primary, Ponce-Gordo, F., additional, Torrado, J., additional, Torrado, S., additional, and Cuesta-Bandera, C., additional

Published

2003

17. Observations on the Echinococcus granulosus horse strain in Spain

Author

Ponce Gordo, F, primary and Cuesta Bandera, C, additional

Published

1998

18. Echinococcus granulosus: Biological comparison of cattle isolates from endemic regions of Argentina and Spain

Author

Andresiuk, M. V., Ponce Gordo, F., Cuesta Bandera, C., María Elissondo, Dopchiz, M., and Denegri, G.

19. Wild Animals in Captivity: An Analysis of Parasite Biodiversity and Transmission among Animals at Two Zoological Institutions with Different Typologies.

Author

Esteban-Sánchez L, García-Rodríguez JJ, García-García J, Martínez-Nevado E, de la Riva-Fraga MA, and Ponce-Gordo F

Abstract

We have conducted a 10-year-long coprological study of the animals housed in two zoological institutions (ZooAquarium and Faunia, Madrid, Spain) to assess the parasite biodiversity, prevalence, and their relation with host class, diet, and enclosure type (soil type and level of isolation from wild fauna). A total of 4476 faecal samples from 132 mammal species and 951 samples from 86 avian species were examined. The results indicated that only 12.8% of avian species had parasites at least once during the study period, whereas 62.1% of mammal species tested positive. Predominantly, protists ( Entamoeba , flagellates, and ciliates) and nematodes (mainly Trichuris ) were identified in the findings. Carnivorous species were primarily infected by nematodes, while herbivorous and omnivorous species were mainly infected by protists. The number of infected herbivorous and omnivorous species was significantly greater than carnivorous species. Differences were observed based on soil type (artificial, natural, mixed) and isolation level (isolated/accessible), but these differences were not statistically significant. Several parasites ( Entamoeba spp., Giardia spp., Balantidoides coli , Trichuris spp.) could potentially be transmitted between humans and some mammals and birds. Regular animal analyses and a personnel health program in the institutions would minimise transmission risks between zoo animals, wildlife, and humans.

Published

2024

20. Prevalence of Toxoplasma gondii in Endangered Wild Felines ( Felis silvestris and Lynx pardinus ) in Spain.

Author

Matas Méndez P, Fuentes Corripio I, Montoya Matute A, Bailo Barroso B, Grande Gómez R, Apruzzese Rubio A, Ponce Gordo F, and Mateo Barrientos M

Abstract

The wildcat ( Felis silvestris ) and the Iberian lynx ( Lynx pardinus ) are important species in Spain, considered as near-threatened and endangered, respectively. Both can be infected by Toxoplasma gondii , a parasite that can cause morbidity and mortality in transplacentally-infected or immunocompromised mammals. The data on the prevalence of this parasite in wild populations of these species in Spain are outdated. The objective of this study was to update information and evaluate the role of these felines in parasite epidemiology and the potential impact of the parasite on their conservation. Blood and fecal samples were collected from captured animals, as well as the tongue, diaphragm, and spleen, from animals killed in road accidents in central Spain. An indirect fluorescent antibody test (IFAT) was used to detect parasite antibodies in serum, microscopy and molecular analysis were used to detect oocysts in feces, and molecular analysis was used to determine the existence of tissue cysts. Seroprevalence was 85% in wildcats and 45% in lynx, and parasite DNA was detected in the feces of one wildcat and in tissue samples from 10 wildcats and 11 Iberian lynxes. These results highlight the epidemiological importance and high risk of T. gondii infection in animals and humans in the studied areas. Considering feline susceptibility to infection, monitoring programs are needed to assess the health status of wild felines.

Published

2023

21. Human-Borne Pathogens: Are They Threatening Wild Great Ape Populations?

Author

Köster PC, Lapuente J, Cruz I, Carmena D, and Ponce-Gordo F

Abstract

Climate change and anthropic activities are the two main factors explaining wild great ape habitat reduction and population decline. The extent to which human-borne infectious diseases are contributing to this trend is still poorly understood. This is due to insufficient or fragmented knowledge on the abundance and distribution of current wild great ape populations, the difficulty obtaining optimal biological samples for diagnostic testing, and the scarcity of pathogen typing data of sufficient quality. This review summarises current information on the most clinically relevant pathogens of viral, bacterial, parasitic, and fungal nature for which transmission from humans to wild great apes is suspected. After appraising the robustness of available epidemiological and/or molecular typing evidence, we attempt to categorise each pathogen according to its likelihood of truly being of human origin. We further discuss those agents for which anthroponotic transmission is more likely. These include two viral (Human Metapneumovirus and Respiratory Syncytial Virus), one bacterial (diarrhoeagenic Escherichia coli ), and two parasitic ( Cryptosporidium spp. and Giardia duodenalis ) pathogens. Finally, we identify the main drawbacks impairing research on anthroponotic pathogen transmission in wild great apes and propose research lines that may contribute to bridging current knowledge gaps.

Published

2022

22. Chromosome-scale Echinococcus granulosus (genotype G1) genome reveals the Eg95 gene family and conservation of the EG95-vaccine molecule.

Author

Korhonen PK, Kinkar L, Young ND, Cai H, Lightowlers MW, Gauci C, Jabbar A, Chang BCH, Wang T, Hofmann A, Koehler AV, Li J, Li J, Wang D, Yin J, Yang H, Jenkins DJ, Saarma U, Laurimäe T, Rostami-Nejad M, Irshadullah M, Mirhendi H, Sharbatkhori M, Ponce-Gordo F, Simsek S, Casulli A, Zait H, Atoyan H, de la Rue ML, Romig T, Wassermann M, Aghayan SA, Gevorgyan H, Yang B, and Gasser RB

Subjects

Animals, Antigens, Helminth genetics, Chromosomes, Genotype, Helminth Proteins genetics, Echinococcosis genetics, Echinococcosis prevention & control, Echinococcus granulosus genetics, Vaccines genetics

Abstract

Cystic echinococcosis is a socioeconomically important parasitic disease caused by the larval stage of the canid tapeworm Echinococcus granulosus, afflicting millions of humans and animals worldwide. The development of a vaccine (called EG95) has been the most notable translational advance in the fight against this disease in animals. However, almost nothing is known about the genomic organisation/location of the family of genes encoding EG95 and related molecules, the extent of their conservation or their functions. The lack of a complete reference genome for E. granulosus genotype G1 has been a major obstacle to addressing these areas. Here, we assembled a chromosomal-scale genome for this genotype by scaffolding to a high quality genome for the congener E. multilocularis, localised Eg95 gene family members in this genome, and evaluated the conservation of the EG95 vaccine molecule. These results have marked implications for future explorations of aspects such as developmentally-regulated gene transcription/expression (using replicate samples) for all E. granulosus stages; structural and functional roles of non-coding genome regions; molecular 'cross-talk' between oncosphere and the immune system; and defining the precise function(s) of EG95. Applied aspects should include developing improved tools for the diagnosis and chemotherapy of cystic echinococcosis of humans., (© 2022. The Author(s).)

Published

2022

23. Cyst detection and viability assessment of Balantioides coli in environmental samples: Current status and future needs.

Author

García-Rodríguez JJ, Köster PC, and Ponce-Gordo F

Abstract

The ciliate Balantioides coli is a human enteric parasite that can cause life-threatening infections. It is a food- and waterborne parasite, with cysts being the infective stage. Despite its importance as a potential pathogen, few reports have investigated its presence in environmental samples, and some issues need attention including i) The accuracy of B. coli identification. In most cases, the protozoa is identified only by its morphological traits, which can be identical to those from other parasitic ciliates of animals. Genetic analysis of cysts recovered from environmental samples is necessary for species confirmation. In addition, genetic methods used with faecal samples need to be adequately validated with environmental matrices. ii) The methodology for searching this parasite in environmental samples. The protocols include an initial phase to isolate the cysts from the matrix followed by a second phase in which concentration procedures are usually applied. The methods may be valid but are not standardised and differences between studies could affect the results obtained. iii) The areas that needs further research. The development of genetic identification methods and standardised analytical protocols in environmental samples are required, as well as the assessment of viability and infectivity of B. coli cysts. The development of axenic culture systems will boost research on this parasite., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 Published by Elsevier Inc. on behalf of International Association of Food and Waterborne Parasitology.)

Published

2022

24. Intestinal Protists in Captive Non-human Primates and Their Handlers in Six European Zoological Gardens. Molecular Evidence of Zoonotic Transmission.

Author

Köster PC, Martínez-Nevado E, González A, Abelló-Poveda MT, Fernández-Bellon H, de la Riva-Fraga M, Marquet B, Guéry JP, Knauf-Witzens T, Weigold A, Dashti A, Bailo B, Imaña E, Muadica AS, González-Barrio D, Ponce-Gordo F, Calero-Bernal R, and Carmena D

Abstract

We assessed the occurrence, genetic diversity, and zoonotic potential of four protozoan ( Cryptosporidium spp., Entamoeba histolytica, Entamoeba dispar, Giardia duodenalis ), one stramenopile ( Blastocystis sp.), one microsporidia ( Enterocytozoon bieneusi ), and two ciliate ( Balantioides coli, Troglodytella abrassarti ) intestinal parasite or commensal protist species in captive non-human primates (NHP) and their zookeepers from six European zoological gardens in France ( n = 1), Germany ( n = 1), and Spain ( n = 4). Faecal samples from NHP ( n = 454) belonging to 63 species within 35 genera and humans ( n = 70) were collected at two sampling periods in each participating institution between October 2018-August 2021. Detection and species identification was accomplished by PCR and Sanger sequencing of the ssu rRNA and/or ITS genes. Sub-genotyping analyses using specific markers were conducted on isolates positive for G. duodenalis ( gdh, bg, tpi ) and Cryptosporidium spp. ( gp60 ). Overall, 41.0% (186/454) and 30.0% (21/70) of the faecal samples of NHP and human origin tested positive for at least one intestinal protist species, respectively. In NHP, Blastocystis sp. was the most prevalent protist species found (20.3%), followed by G. duodenalis (18.1%), E. dispar (7.9%), B. coli and T. abrassarti (1.5% each), and Cryptosporidium spp. and E. bieneusi (0.9% each). Occurrence rates varied largely among NHP host species, sampling periods, and zoological institutions. The predominant protist species found in humans was Blastocystis sp. (25.7%), followed by Cryptosporidium spp. (2.9%), E. dispar (1.4%), and G. duodenalis (1.4%). Sequencing of PCR-positive amplicons in human and/or NHP confirmed the presence of Cryptosporidium in six isolates ( C. hominis : 66.7%, C. parvum : 33.3%), G. duodenalis in 18 isolates (assemblage A: 16.7%, assemblage B: 83.3%), Blastocystis in 110 isolates (ST1:38.2%, ST2:11.8%, ST3: 18.2%, ST4: 9.1%, ST5: 17.3%, ST8: 2.7%, ST13: 0.9%), and E. bieneusi in four isolates (CM18: 75.0%, Type IV: 25.0%). Zoonotic transmission events involving Blastocystis ST1-ST4 were identified in four zoological institutions. Zoonotic transmission of C. hominis was highly suspected, but not fully demonstrated, in one of them. Monitoring of intestinal protist species might be useful for assessing health status of captive NHP and their zookeepers, and to identify transmission pathways of faecal-orally transmitted pathogens., 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 Köster, Martínez-Nevado, González, Abelló-Poveda, Fernández-Bellon, de la Riva-Fraga, Marquet, Guéry, Knauf-Witzens, Weigold, Dashti, Bailo, Imaña, Muadica, González-Barrio, Ponce-Gordo, Calero-Bernal and Carmena.)

Published

2022

25. Enteric protists in wild western chimpanzees (Pan troglodytes verus) and humans in Comoé National Park, Côte d'Ivoire.

Author

Köster PC, Lapuente J, Dashti A, Bailo B, Muadica AS, González-Barrio D, Calero-Bernal R, Ponce-Gordo F, and Carmena D

Subjects

Animals, Cote d'Ivoire epidemiology, Feces, Humans, Pan troglodytes, Parks, Recreational, Prospective Studies, Cryptosporidiosis, Cryptosporidium genetics

Abstract

The western chimpanzee (Pan troglodytes verus), a subspecies of the common chimpanzee, is currently listed as Critically Endangered. Human-driven habitat loss and infectious diseases are causing dramatic chimpanzee population declines and range contractions that are bringing these primates to the brink of extinction. Little information is currently available on the occurrence of diarrhoea-causing enteric protist species in chimpanzees in general, and in western chimpanzees in particular, or on the role of humans as a potential source of these infections. In this prospective molecular epidemiological study, we investigated the presence, genetic variability, and zoonotic potential of enteric protists in faecal samples from western chimpanzees (n = 124) and humans (n = 9) in Comoé National Park, Côte d'Ivoire. Parasite detection and genotyping were conducted by using polymerase chain reaction (PCR) and Sanger sequencing. The protist species found in the chimpanzee samples were Entamoeba dispar (14.5%), Blastocystis sp. (11.3%), Giardia duodenalis (5.8%), Troglodytella abrassarti (2.5%) and Cryptosporidium hominis (0.8%). The protist species found in the human samples were G. duodenalis (22.2%) and Blastocystis sp. (11.1%). Entamoeba histolytica, Enterocytozoon bieneusi, and Balantioides coli were undetected in both chimpanzee and human samples. Sequence analyses revealed the presence of Blastocystis subtype (ST) 1 (alleles 4 and 8) and ST3 (allele 24) in chimpanzees, and ST3 (allele 52) in humans. ST1 allele 8 represents a chimpanzee-adapted Blastocystis genetic variant. Cross-species transmission of pathogenic enteric protists between chimpanzees and humans might be possible in Comoé National Park, although the frequency and extent of zoonotic events remain to be fully elucidated., (© 2021. The Author(s), under exclusive licence to Japan Monkey Centre.)

Published

2022

26. Presence and genetic diversity of enteric protists in captive and semi-captive non-human primates in côte d'Ivoire, Sierra Leone, and Peru.

Author

Köster PC, Lapuente J, Pizarro A, Prieto-Pérez L, Pérez-Tanoira R, Dashti A, Bailo B, Muadica AS, González-Barrio D, Calero-Bernal R, Ponce-Gordo F, and Carmena D

Abstract

Little information is currently available on the occurrence and genetic diversity of pathogenic and commensal protist species in captive and semi-captive non-human primates (NHP) resident in zoological gardens or sanctuaries in low- and medium-income countries. In this molecular-based study, we prospectively collected individual faecal samples from apparently healthy NHP at the Abidjan Zoological Garden (AZG) in Côte d'Ivoire, the Tacugama Sanctuary (TS) in Sierra Leone, and the Quistococha Zoological Garden (QZG) in Peru between November 2018 and February 2020. We evaluated for the presence of pathogenic ( Cryptosporidium spp., Entamoeba histolytica , Giardia duodenalis , Blastocystis sp., Enterocytozoon bieneusi , Balantioides coli ) and commensal ( Entamoeba dispar , Troglodytella abrassarti ) protist species using PCR methods and Sanger sequencing. Giardia duodenalis was the most prevalent species found (25.9%, 30/116), followed by Blastocystis sp. (22.4%, 26/116), and E. dispar (18.1%, 21/116). We detected E. bieneusi (4.2%, 1/24) and T. abrassarti (12.5%, 3/24) only on NHP from AZG. Cryptosporidium spp., E. histolytica , and B. coli were undetected at the three sampling sites investigated here. Sequence analyses revealed the presence of zoonotic sub-assemblages BIII ( n  = 1) in AZG and BIV ( n  = 1) in TS within G. duodenalis . We identified Blastocystis subtype ST3 (100%, 6/6) in AZG, ST1 (80.0%, 12/15), ST2 (6.7%, 1/15), and ST3 (13.3%, 2/15) in TS, and ST2 (80.0%, 4/5) and ST3 (20.0%, 1/5) in QZG. The only E. bieneusi isolate detected here was identified as zoonotic genotype CAF4. Our PCR-based data indicate that potentially pathogenic protist species including G. duodenalis , Blastocystis sp., E. bieneusi , and B. coli are present at variable rates in the three NHP populations investigated here. The identification of zoonotic genotypes within these species indicates that human-NHP transmission is possible, although the extent and directionality of these events need to be elucidated in future molecular surveys., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors.)

Published

2021

27. Molecular Detection and Characterization of Intestinal and Blood Parasites in Wild Chimpanzees ( Pan troglodytes verus ) in Senegal.

Author

Köster PC, Renelies-Hamilton J, Dotras L, Llana M, Vinagre-Izquierdo C, Prakas P, Sneideris D, Dashti A, Bailo B, Lanza M, Jiménez-Mejías A, Muñoz-García C, Muadica AS, González-Barrio D, Rubio JM, Fuentes I, Ponce-Gordo F, Calero-Bernal R, and Carmena D

Abstract

Wild chimpanzee populations in West Africa ( Pan troglodytes verus ) have dramatically decreased as a direct consequence of anthropogenic activities and infectious diseases. Little information is currently available on the epidemiology, pathogenic significance, and zoonotic potential of protist species in wild chimpanzees. This study investigates the occurrence and genetic diversity of intestinal and blood protists as well as filariae in faecal samples ( n = 234) from wild chimpanzees in the Dindefelo Community Nature Reserve, Senegal. PCR-based results revealed the presence of intestinal potential pathogens ( Sarcocystis spp.: 11.5%; Giardia duodenalis : 2.1%; Cryptosporidium hominis : 0.9%), protist of uncertain pathogenicity ( Blastocystis sp.: 5.6%), and commensal species ( Entamoeba dispar : 18.4%; Troglodytella abrassarti : 5.6%). Entamoeba histolytica , Enterocytozoon bieneusi , and Balantioides coli were undetected. Blood protists including Plasmodium malariae (0.4%), Trypanosoma brucei (1.3%), and Mansonella perstans (9.8%) were also identified. Sanger sequencing analyses revealed host-adapted genetic variants within Blastocystis , but other parasitic pathogens ( C. hominis , P. malariae , T. brucei , M. perstans ) have zoonotic potential, suggesting that cross-species transmission between wild chimpanzees and humans is possible in areas where both species overlap. Additionally, we explored potential interactions between intestinal/blood protist species and seasonality and climate variables. Chimpanzees seem to play a more complex role on the epidemiology of pathogenic and commensal protist and nematode species than initially anticipated.

Published

2021

28. Long-Term Preservation and Storage of Faecal Samples in Whatman ® Cards for PCR Detection and Genotyping of Giardia duodenalis and Cryptosporidium hominis .

Author

Köster PC, Bailo B, Dashti A, Hernández-Castro C, Calero-Bernal R, Ponce-Gordo F, González-Barrio D, and Carmena D

Abstract

Preservation and conservation of biological specimens, including faecal samples, is a challenge in remote areas or poor-resource settings where the cold chain cannot be maintained. This study aims at evaluating the suitability of filter cards for long-term storage of faecal samples of animal and human origin positive to the diarrhoea-causing protozoan parasites, Giardia duodenalis and Cryptosporidium hominis . Three commercially available Whatman ® Filter Cards were comparatively assessed: the FTA ® Classic Card, the FTA ® Elute Micro Card, and the 903 Protein Saver Card. Human faecal samples positive to G. duodenalis ( n = 5) and C. hominis ( n = 5) were used to impregnate the selected cards at given storage (1 month, 3 months, and 6 months) periods and temperature (-20 °C, 4 °C, and room temperature) conditions. Parasite DNA was detected by PCR-based methods. Sensitivity assays and quality control procedures to assess suitability for genotyping purposes were conducted. Overall, all three Whatman ® cards were proven useful for the detection and molecular characterisation of G. duodenalis and C. hominis under the evaluated conditions. Whatman ® cards represent a simple, safe, and cost-effective option for the transportation, preservation, and storage of faecal samples without the need of the cold chain.

Published

2021

29. Occurrence and Genetic Diversity of Protist Parasites in Captive Non-Human Primates, Zookeepers, and Free-Living Sympatric Rats in the Córdoba Zoo Conservation Centre, Southern Spain.

Author

Köster PC, Dashti A, Bailo B, Muadica AS, Maloney JG, Santín M, Chicharro C, Migueláñez S, Nieto FJ, Cano-Terriza D, García-Bocanegra I, Guerra R, Ponce-Gordo F, Calero-Bernal R, González-Barrio D, and Carmena D

Abstract

Little information is currently available on the epidemiology of parasitic and commensal protist species in captive non-human primates (NHP) and their zoonotic potential. This study investigates the occurrence, molecular diversity, and potential transmission dynamics of parasitic and commensal protist species in a zoological garden in southern Spain. The prevalence and genotypes of the main enteric protist species were investigated in faecal samples from NHP ( n = 51), zookeepers ( n = 19) and free-living rats ( n = 64) by molecular (PCR and sequencing) methods between 2018 and 2019. The presence of Leishmania spp. was also investigated in tissues from sympatric rats using PCR. Blastocystis sp. (45.1%), Entamoeba dispar (27.5%), Giardia duodenalis (21.6%), Balantioides coli (3.9%), and Enterocytozoon bieneusi (2.0%) (but not Troglodytella spp.) were detected in NHP. Giardia duodenalis (10.5%) and Blastocystis sp. (10.5%) were identified in zookeepers, while Cryptosporidium spp. (45.3%), G. duodenalis (14.1%), and Blastocystis sp. (6.25%) (but not Leishmania spp.) were detected in rats. Blastocystis ST1, ST3, and ST8 and G. duodenalis sub-assemblage AII were identified in NHP, and Blastocystis ST1 in zookeepers. Giardia duodenalis isolates failed to be genotyped in human samples. In rats, four Cryptosporidium ( C. muris , C. ratti , and rat genotypes IV and V), one G. duodenalis (assemblage G), and three Blastocystis (ST4) genetic variants were detected. Our results indicate high exposure of NHP to zoonotic protist species. Zoonotic transmission of Blastocysts ST1 was highly suspected between captive NHP and zookeepers.

Published

2021

30. Balantioides coli.

Author

Ponce-Gordo F and García-Rodríguez JJ

Subjects

Animals, Cattle, Feces parasitology, Humans, Hygiene, Prevalence, Sheep, Swine, Balantidiasis diagnosis, Balantidiasis epidemiology, Balantidiasis therapy, Balantidiasis transmission, Balantidium physiology

Abstract

Balantioides coli (=Balantidium coli) is the only ciliate that parasitizes humans. Pigs are the main reservoir. Other species, as camels, cattle, donkey, sheep and goat have been also proposed as reservoirs for human infections. The parasite has a direct life cycle, being transmitted by the faecal-oral route. This type of cycle and the large number of host species imply an important potential for zoonotic transmission of the parasite. Infections are most commonly found in tropical and temperate regions, with prevalence up to 100% in pigs; high prevalence values have been also recorded in some non-human primates and camels. In humans, prevalence is usually under 10% in the population at risk. The main epidemiological factors involved in the transmission of this parasite include close contact with pigs, lack of basic sanitation infrastructures (water supply, wastewater disposal) and hygiene. Individual health status, intestinal microbiota and diet are also important for the onset of the infection. Outbreaks caused by this parasite are rare; those reported to date were related to poor hygienic conditions or to catastrophic natural disasters. Balantioides coli infections can be asymptomatic and symptomatic, which can be chronic (with intermittent diarrhoea), or acute (a dysenteric form which can be life-threatening). Efective treatments include tetracycline, iodoquinol and 5-nitroimidazole compounds (metronidazole, secnidazole). The main effective individual preventive measure is the use of disinfected water for drinking and other uses. Adequate water supply infrastructures, proper disposal of wastewater and animal faeces, and regular monitoring programs on farms will help limit transmission., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

31. Morphological and molecular characterization of a new ciliate Nyctotheroides grimi n. sp. (Armophorea, Clevelandellida) from Chinese frogs.

Author

Li M, Hu G, Li C, Zhao WS, Zou H, Li WX, Wu SG, Wang GT, and Ponce-Gordo F

Abstract

A new species of clevelandellid ciliate, Nyctotheroides grimi n. sp., is described from the frog Fejervarya limnocharis. Light and scanning electron microscopy were used for the morphological studies, and the DNA encoding the SSU rRNA gene (SSU rDNA) and the ITS1-5.8S subunit rRNA-ITS2 region (ITS) were sequenced for genetic comparisons and phylogenetic analysis. The main distinctive morphological feature is a knob-like projection in the left-posterior end; other differential characters are the cell size, the length of the oral groove and the shape of the infundibulum. Nyctotheroides grimi possess an apical suture line in the left and right side of the anterior end and in the left side of the caudal end. In the phylogenetic analyses, the new species engroups with other Nyctotheroides species forming a monophyletic group. The high similarity in the SSU rDNA and ITS sequences between Nyctotheroides species suggests a relative recent divergence. The genetic data and the different host range support the separation of Nyctotheroides and Nyctotherus; however the morphological criterion based on the presence (in Nyctotheroides)/absence (in Nyctothterus) of an apical kinetal suture line should be modified to consider the presence of kinetal suture lines in the apical and/or the caudal left side in Nyctotheroides., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

32. Morphological description of Opalina obtrigonoidea Metcalf, 1923 (Heterokonta, Opalinea) from Duttaphrynus melanostictus and evaluation of the ITS region as a suitable genetic marker for inter-species identification in Opalina.

Author

Zhao W, Hu G, Ponce-Gordo F, Zou H, Li W, Wu S, Li M, and Wang G

Subjects

Animals, China, DNA, Ribosomal Spacer analysis, Genetic Markers, Microscopy, Electron, Scanning veterinary, Phylogeny, Sequence Analysis, DNA veterinary, Stramenopiles cytology, Stramenopiles ultrastructure, Bufonidae parasitology, Stramenopiles classification

Abstract

The redescription of Opalina obtrigonoidea Metcalf, 1923, collected from the rectum of the toads Duttaphrynus melanostictus, is presented in this paper based on detailed morphological information and molecular data. Our results revealed that O. obtrigonoidea varies greatly in body dimensions. Its morphological characteristics allow its differentiation from Opalina undulata. Surprisingly, we sequenced its SSU rDNA-ITS1-5.8S rDNA-ITS2-LSU rDNA (5' end) and found the SSU rDNA of O. obtrigonoidea is nearly identical to that of O. undulata. However, there are differences in both the ITS1 and ITS2 regions that allow their distinction and confirm the morphological differences. Our results indicate that O. obtrigonoidea and O. undulata are closely related species in which morphological and genetic markers have evolved at different speeds. Due to this, the SSU rDNA gene may not be a valid marker for inter-species identification in Opalina, but the ITS is a valid marker for differentiating species in this genus., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

33. Genetic identification of the ciliates from greater rheas (Rhea americana) and lesser rheas (Rhea pennata) as Balantioides coli.

Author

García-Rodríguez JJ, Martínez-Díaz RA, Martella M, Navarro JL, and Ponce-Gordo F

Subjects

Animals, Animals, Wild, Birds, Ciliophora Infections epidemiology, Ciliophora Infections parasitology, Humans, South America epidemiology, Ciliophora genetics, Ciliophora isolation & purification, Ciliophora Infections veterinary, Rheiformes parasitology

Abstract

The ciliate species Balantioides coli can be cross-transmitted between humans and several animal species. Usually harmless, sometimes it can be pathogenic and cause the death of the host. In birds, B. coli has been confirmed in ostriches by genetic analysis, but the identification from South American greater rheas (Rhea americana) and lesser rheas (Rhea pennata pennata) is tentative. Since these species are reared for commercial purposes and for reintroduction into the wild, it is necessary to elucidate whether the ciliate from rheas is B. coli to minimize health risks for humans and for other domestic and wild animals. Individual parasite cells are collected from Argentinean isolates of reared greater rheas and of wild and reared lesser rheas, and their ITS region was PCR amplified; the cloning products were sequenced and compared with sequences available in public databases. The results have shown that several sequence types are expressed at the same time in the parasite cells, and all correspond to B. coli, confirming the possibility of cross-transmission of the parasite between wild and reared South American rheas and several mammal species and humans.

Published

2020

34. Endoparasitism of Greek ostriches: First report of Entamoeba struthionis and Balantioides coli.

Author

Symeonidou I, Diakou A, Papadopoulos E, and Ponce-Gordo F

Subjects

Animals, Balantidiasis epidemiology, Balantidiasis parasitology, Entamoebiasis epidemiology, Entamoebiasis parasitology, Female, Greece epidemiology, Male, Poultry Diseases parasitology, Prevalence, Balantidiasis veterinary, Balantidium isolation & purification, Entamoeba isolation & purification, Entamoebiasis veterinary, Poultry Diseases epidemiology, Struthioniformes

Abstract

Ostrich farming is a worldwide practice and an internationally developing industry. Among challenges in livestock production are the parasitic infections. The present study aimed to the investigation of the gastrointestinal parasites biota and prevalence in ostriches raised in different areas of Greece. A total of 141 clinically healthy ostriches originating from four different localities of Greece were coprologically examined for parasites of the gastrointestinal tract. Coprological examination revealed a considerably high rate of infection (65.9%) with protozoa; however, no helminths (trematodes, cestodes and nematodes) were detected. In detail, cysts of Entamoeba struthionis have been found in 57.4% of the examined birds. Moreover, 39.0% of sampled ostriches harboured cysts of Balantioides coli (syn. Balantidium coli), while oocysts of Cryptosporidium sp. were detected at a low percentage (2.1%). Partial sequences of the small subunit rRNA (16S rRNA) gene and the ITS region were amplified from pooled Entamoeba and Balantioides positive samples, respectively, confirming for the first time the presence of Entamoeba struthionis and Balantioides coli in ostriches in Greece. Some of these parasitoses require attention as they may affect productivity performance of the animals in commercial ostrich farming and possibly pose disease risk for livestock and humans., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

35. Analysis of nad2 and nad5 enables reliable identification of genotypes G6 and G7 within the species complex Echinococcus granulosus sensu lato.

Author

Laurimäe T, Kinkar L, Romig T, Umhang G, Casulli A, Omer RA, Sharbatkhori M, Mirhendi H, Ponce-Gordo F, Lazzarini LE, Soriano SV, Varcasia A, Rostami-Nejad M, Andresiuk V, Maravilla P, González LM, Dybicz M, Gawor J, Šarkūnas M, Šnábel V, Kuzmina T, Kia EB, and Saarma U

Subjects

Animals, Echinococcus granulosus genetics, Mitochondria genetics, Multilocus Sequence Typing, Phylogeny, Sequence Analysis, DNA, Echinococcus granulosus classification, Genotyping Techniques methods, Helminth Proteins genetics

Abstract

The larval stages of tapeworms in the species complex Echinococcus granulosus sensu lato cause a zoonotic disease known as cystic echinococcosis (CE). Within this species complex, genotypes G6 and G7 are among the most common genotypes associated with human CE cases worldwide. However, our understanding of ecology, biology and epidemiology of G6 and G7 is still limited. An essential first step towards this goal is correct genotype identification, but distinguishing genotypes G6 and G7 has been challenging. A recent analysis based on complete mitogenome data revealed that the conventional sequencing of the cox1 (366 bp) gene fragment mistakenly classified a subset of G7 samples as G6. On the other hand, sequencing complete mitogenomes is not practical if only genotype or haplogroup identification is needed. Therefore, a simpler and less costly method is required to distinguish genotypes G6 and G7. We compared 93 complete mitogenomes of G6 and G7 from a wide geographical range and demonstrate that a combination of nad2 (714 bp) and nad5 (680 bp) gene fragments would be the best option to distinguish G6 and G7. Moreover, this method allows assignment of G7 samples into haplogroups G7a and G7b. However, due to very high genetic variability of G6 and G7, we suggest to construct a phylogenetic network based on the nad2 and nad5 sequences in order to be absolutely sure in genotype assignment. For this we provide a reference dataset of 93 concatenated nad2 and nad5 sequences (1394 bp in total) containing representatives of G6 and G7 (and haplogroups G7a and G7b), which can be used for the reconstruction of phylogenetic networks., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

36. Redescription of Opalina triangulata (Heterokonta, Opalinea) from Fejervarya limnocharis based on morphological and molecular data.

Author

Wang RQ, Zhao WS, Hu GR, Ponce-Gordo F, Zou H, Li WX, Wu SG, Wang GT, and Li M

Subjects

Animals, DNA, Ribosomal genetics, Stramenopiles cytology, Stramenopiles genetics, Anura parasitology, Phylogeny, Stramenopiles classification

Abstract

Opalinids are a large group of anaerobic protists, mainly inhabiting the cloacae of amphibians (frogs and toads). The classification of this group has not been fully resolved, because of a lack of molecular information. Here, we give a redescription of Opalina triangulata Metcalf, 1923, collected from the rectum of the frog Fejervarya limnocharis, based on detailed morphological and molecular data. Our phylogenetic analyses confirmed the monophyly of Opalinata. Within it, Opalinea were monophyletic with O. triangulata and O. undulata as well as two Protoopalina species grouping together. Karotomorpha and Proteromonas did not group together confirming the paraphyly of Proteromonadea. Meanwhile, the ITS2 secondary structural similarities as well as G-C content revealed greater similitudes between Opalina species and P. lacertae than with Blastocystis hominis, which is in accordance with their position as sister clades in the SSU rDNA-based phylogenies., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

37. Are molecular tools clarifying or confusing our understanding of the public health threat from zoonotic enteric protozoa in wildlife?

Author

Robertson LJ, Clark CG, Debenham JJ, Dubey JP, Kváč M, Li J, Ponce-Gordo F, Ryan U, Schares G, Su C, and Tsaousis AD

Abstract

Emerging infectious diseases are frequently zoonotic, often originating in wildlife, but enteric protozoa are considered relatively minor contributors. Opinions regarding whether pathogenic enteric protozoa may be transmitted between wildlife and humans have been shaped by our investigation tools, and have led to oscillations regarding whether particular species are zoonotic or have host-adapted life cycles. When the only approach for identifying enteric protozoa was morphology, it was assumed that many enteric protozoa colonized multiple hosts and were probably zoonotic. When molecular tools revealed genetic differences in morphologically identical species colonizing humans and other animals, host specificity seemed more likely. Parasites from animals found to be genetically identical - at the few genes investigated - to morphologically indistinguishable parasites from human hosts, were described as having zoonotic potential. More discriminatory molecular tools have now sub-divided some protozoa again. Meanwhile, some infection events indicate that, circumstances permitting, some "host-specific" protozoa, can actually infect various hosts. These repeated changes in our understanding are linked intrinsically to the investigative tools available. Here we review how molecular tools have assisted, or sometimes confused, our understanding of the public health threat from nine enteric protozoa and example wildlife hosts ( Balantoides coli - wild boar; Blastocystis sp. - wild rodents; Cryptosporidium spp. - wild fish; Encephalitozoon spp. - wild birds; Entamoeba spp. - non-human primates; Enterocytozoon bieneusi - wild cervids; Giardia duodenalis - red foxes; Sarcocystis nesbitti - snakes; Toxoplasma gondii - bobcats). Molecular tools have provided evidence that some enteric protozoa in wildlife may infect humans, but due to limited discriminatory power, often only the zoonotic potential of the parasite is indicated. Molecular analyses, which should be as discriminatory as possible, are one, but not the only, component of the toolbox for investigating potential public health impacts from pathogenic enteric protozoa in wildlife.

Published

2019

38. Oropharyngeal Trichomonosis Due to Trichomonas gypaetinii in a Cinereous Vulture ( Aegypius monachus) Fledgling in Spain.

Author

Del Carmen Martínez-Herrero M, González-González F, López-Márquez I, García-Peña FJ, Sansano-Maestre J, Martínez-Díaz RA, Ponce-Gordo F, Garijo-Toledo MM, and Gómez-Muñoz MT

Subjects

Animals, Anti-Bacterial Agents therapeutic use, Anti-Infective Agents therapeutic use, Metronidazole therapeutic use, Mouth Diseases epidemiology, Mouth Diseases parasitology, Mouth Diseases pathology, Pharyngeal Diseases epidemiology, Pharyngeal Diseases parasitology, Pharyngeal Diseases pathology, Spain epidemiology, Trichomonas Infections epidemiology, Trichomonas Infections parasitology, Trimethoprim, Sulfamethoxazole Drug Combination therapeutic use, Falconiformes parasitology, Mouth Diseases veterinary, Pharyngeal Diseases veterinary, Trichomonas classification, Trichomonas Infections veterinary

Abstract

A juvenile Cinereous Vulture ( Aegypius monachus) fledgling was found disorientated on the roof of a building in Madrid City, Spain, in October 2016. A veterinary examination revealed multiple plaques distributed throughout the oropharyngeal cavity. Lesions were located under the tongue and at the choanal slit, hard palate, and esophagus opening and ranged from 2 to 7 mm, coalescing in areas up to 2 cm, with a yellowish color of the surface. Motile trichomonad trophozoites were detected in fresh wet mount smears from the lesions. Sequence analysis of the internal transcribed spacer (ITS)1/5.8S/ITS2 and small subunit ribosomal RNA confirmed that Trichomonas gypaetinii was the etiologic agent. Microbiologic cultures did not reveal any pathogenic bacteria or fungi. The animal recovered successfully after treatment with metronidazole and trimethoprim-sulfamethoxazole and was later released in a suitable habitat. Avian trichomonosis lesions caused by T. gypaetinii have not been reported.

Published

2019

39. Epidemiology and identification of two species of Chilodonella affecting farmed fishes in China.

Author

Li M, Wang R, Bastos Gomes G, Zou H, Li WX, Wu SG, Wang GT, and Ponce-Gordo F

Subjects

Animals, China epidemiology, Ciliophora Infections epidemiology, Ciliophora Infections parasitology, Ciliophora Infections pathology, Demography, Fish Diseases pathology, Fresh Water, Genes, Protozoan genetics, Hymenostomatida cytology, Hymenostomatida genetics, Species Specificity, Ciliophora Infections veterinary, Cyprinidae parasitology, Fish Diseases epidemiology, Fish Diseases parasitology, Hymenostomatida physiology

Abstract

The genus Chilodonella includes free-living ciliated protozoa as well as pathogenic species for freshwater fish, with Chilodonella hexasticha and Chilodonella piscicola being the most important ones. These parasites cause outbreaks with high mortalities among farmed freshwater fishes with great economic losses. There are few reports of these species in China, and their identification has been based mostly on their morphological characteristics. In the present work, the parasites causing five outbreaks occurring in China between 2014 and 2017 have been identified by morphological and genetic analysis. We provide the first records of Ctenopharingodon idella and Siniperca chuatsi as hosts of C. hexasticha, and of Procypris rabaudi and Schizothorax wangchiachii as hosts of C. piscicola. There are no differences in the gross pathological findings produced by C. hexasticha and C. piscicola, consisting in desquamation and necrosis of epithelial cells in the skin and gills and in severe fusion of gill lamellae. However, both species differ in their geographic distribution: C. piscicola was found in farms located at altitudes over 1500 m above sea level and with a water temperature ≤18 °C, while C. hexasticha was found in farms located at altitudes under 50 m above sea level and with a water temperature ≥21 °C. Present results confirm that C. hexasticha and C. piscicola are two different species that can be differenced by their morphology; however, their biological variability may lead to erroneous identifications and the diagnosis should be preferably based in genetic analysis including nuclear LSU rDNA and mitochondrial SSU rDNA sequences., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

40. Molecular phylogeny based on six nuclear genes suggests that Echinococcus granulosus sensu lato genotypes G6/G7 and G8/G10 can be regarded as two distinct species.

Author

Laurimäe T, Kinkar L, Moks E, Romig T, Omer RA, Casulli A, Umhang G, Bagrade G, Irshadullah M, Sharbatkhori M, Mirhendi H, Ponce-Gordo F, Soriano SV, Varcasia A, Rostami-Nejad M, Andresiuk V, and Saarma U

Subjects

Animals, Bayes Theorem, Echinococcosis, Evolution, Molecular, Gene Flow, Genetic Variation, Humans, Zoonoses parasitology, Echinococcus granulosus classification, Echinococcus granulosus genetics, Genes, Helminth, Genotype, Phylogeny

Abstract

Tapeworms of the species complex of Echinococcus granulosus sensu lato (s. l.) are the cause of a severe zoonotic disease - cystic echinococcosis, which is listed among the most severe parasitic diseases in humans and is prioritized by the World Health Organization. A stable taxonomy of E. granulosus s. l. is essential to the medical and veterinary communities for accurate and effective communication of the role of different species in this complex on human and animal health. E. granulosus s. l. displays high genetic diversity and has been divided into different species and genotypes. Despite several decades of research, the taxonomy of E. granulosus s. l. has remained controversial, especially the species status of genotypes G6-G10. Here the Bayesian phylogeny based on six nuclear loci (7387 bp in total) demonstrated, with very high support, the clustering of G6/G7 and G8/G10 into two separate clades. According to the evolutionary species concept, G6/G7 and G8/G10 can be regarded as two distinct species. Species differentiation can be attributed to the association with distinct host species, largely separate geographical distribution and low level of cross-fertilization. These factors have limited the gene flow between genotypic groups G6/G7 and G8/G10, resulting in the formation of distinct species. We discuss ecological and epidemiological differences that support the validity of these species.

Published

2018

41. Morphological Redescription of Opalina undulata Nie 1932 from Fejervarya limnocharis with Molecular Phylogenetic Study of Opalinids (Heterokonta, Opalinea).

Author

Li M, Ponce-Gordo F, Grim JN, Li C, Zou H, Li W, Wu S, and Wang G

Subjects

Animals, Base Sequence, China, DNA, Ribosomal chemistry, DNA, Ribosomal classification, DNA, Ribosomal genetics, Life Cycle Stages, Phylogeny, Ribosome Subunits chemistry, Ribosome Subunits classification, Ribosome Subunits genetics, Sequence Analysis, DNA, Anura parasitology, Stramenopiles classification, Stramenopiles cytology, Stramenopiles genetics

Abstract

The redescription of Opalina undulata Nie 1932, collected from the rectum of the frog Fejervarya limnocharis, is presented in this paper based on detailed morphological information and molecular data. Our results revealed that specimens collected from Diaocha Lake in late August were larger and had more nuclei than those collected from the same site in early May. We sequenced their SSU rDNA-ITS1-5.8S rDNA-ITS2-LSU rDNA (5' end) and found that they were completely identical, which means that the two populations belonged to the same species. These facts gave us a hint that body dimension and number of nuclei are not reliable taxonomic parameters for opalinids during their life cycle. Therefore, we recommended that the specific identification of opalinids based on morphological features should be carried out during seasons except spring. Meanwhile, our molecular phylogenetic analysis confirmed the monophyly of Opalinata. Within Opalinata, Opalinea were monophyletic with all opalinid species grouping together. Karotomorpha and Proteromonas did not group together confirming the paraphyly of Proteromonadea., (© 2018 The Author(s) Journal of Eukaryotic Microbiology © 2018 International Society of Protistologists.)

Published

2018

42. The benefits of analysing complete mitochondrial genomes: Deep insights into the phylogeny and population structure of Echinococcus granulosus sensu lato genotypes G6 and G7.

Author

Laurimäe T, Kinkar L, Romig T, Omer RA, Casulli A, Umhang G, Gasser RB, Jabbar A, Sharbatkhori M, Mirhendi H, Ponce-Gordo F, Lazzarini LE, Soriano SV, Varcasia A, Rostami Nejad M, Andresiuk V, Maravilla P, González LM, Dybicz M, Gawor J, Šarkūnas M, Šnábel V, Kuzmina T, and Saarma U

Subjects

Animals, Bayes Theorem, Genetic Variation, Genetics, Population, Geography, Haplotypes, Phylogeography, Echinococcus granulosus genetics, Genome, Mitochondrial, Genomics methods, Genotype, Phylogeny

Abstract

Cystic echinococcosis (CE) is a zoonotic disease caused by the larval stage of the species complex Echinococcus granulosus sensu lato. Within this complex, genotypes G6 and G7 have been frequently associated with human CE worldwide. Previous studies exploring the genetic variability and phylogeography of genotypes G6 and G7 have been based on relatively short mtDNA sequences, and the resolution of these studies has often been low. Moreover, using short sequences, the distinction between G6 and G7 has in some cases remained challenging. The aim here was to sequence complete mitochondrial genomes (mitogenomes) to obtain deeper insight into the genetic diversity, phylogeny and population structure of genotypes G6 and G7. We sequenced complete mitogenomes of 94 samples collected from 15 different countries worldwide. The results demonstrated that (i) genotypes G6 and G7 can be clearly distinguished when mitogenome sequences are used; (ii) G7 is represented by two major haplogroups, G7a and G7b, the latter being specific to islands of Corsica and Sardinia; (iii) intensive animal trade, but also geographical isolation, have likely had the largest impact on shaping the genetic structure and distribution of genotypes G6 and G7. In addition, we found phylogenetically highly divergent haplotype from Mongolia (Gmon), which had a higher affinity to G6., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

43. Genetic diversity and phylogeography of the elusive, but epidemiologically important Echinococcus granulosus sensu stricto genotype G3.

Author

Kinkar L, Laurimäe T, Balkaya I, Casulli A, Zait H, Irshadullah M, Sharbatkhori M, Mirhendi H, Rostami-Nejad M, Ponce-Gordo F, Rehbein S, Kia EB, Simsek S, Šnábel V, Umhang G, Varcasia A, and Saarma U

Subjects

Animals, Bayes Theorem, DNA, Helminth genetics, DNA, Mitochondrial genetics, Echinococcus granulosus isolation & purification, Genotype, Humans, Phylogeny, Phylogeography, Zoonoses, Echinococcosis parasitology, Echinococcus granulosus genetics, Genetic Variation, Genome, Mitochondrial genetics

Abstract

Cystic echinococcosis (CE) is a severe parasitic disease caused by the species complex Echinococcus granulosus sensu lato. Human infections are most commonly associated with E. granulosus sensu stricto (s.s.), comprising genotypes G1 and G3. The objective of the current study was to provide first insight into the genetic diversity and phylogeography of genotype G3. Despite the epidemiological importance of the genotype, it has remained poorly explored due to the ambiguity in the definition of the genotype. However, it was recently demonstrated that long sequences of mitochondrial DNA (mtDNA) provide a reliable method to discriminate G1 and G3 from each other. Therefore, we sequenced near-complete mtDNA of 39 G3 samples, covering most of the known distribution range and host spectra of the genotype. The phylogenetic network revealed high genetic variation within E. granulosus s.s. G3 and while G3 is significantly less prevalent worldwide than G1, the genetic diversity of both of the genotypes is equally high. We also present the results of the Bayesian phylogeographic analysis, which yielded several well-supported diffusion routes of genotype G3 originating from Turkey and Iran, suggesting the Middle East as the origin of the genotype.

Published

2018

44. Distinguishing Echinococcus granulosus sensu stricto genotypes G1 and G3 with confidence: A practical guide.

Author

Kinkar L, Laurimäe T, Acosta-Jamett G, Andresiuk V, Balkaya I, Casulli A, Gasser RB, González LM, Haag KL, Zait H, Irshadullah M, Jabbar A, Jenkins DJ, Manfredi MT, Mirhendi H, M'rad S, Rostami-Nejad M, Oudni-M'rad M, Pierangeli NB, Ponce-Gordo F, Rehbein S, Sharbatkhori M, Kia EB, Simsek S, Soriano SV, Sprong H, Šnábel V, Umhang G, Varcasia A, and Saarma U

Subjects

Animals, Echinococcosis epidemiology, Genes, Helminth, Genes, Mitochondrial, Genome, Mitochondrial, Genomics methods, Geography, Phylogeny, Phylogeography, Echinococcosis parasitology, Echinococcus granulosus classification, Echinococcus granulosus genetics, Genotype

Abstract

Cystic echinococcosis (CE), a zoonotic disease caused by tapeworms of the species complex Echinococcus granulosus sensu lato, represents a substantial global health and economic burden. Within this complex, E. granulosus sensu stricto (genotypes G1 and G3) is the most frequent causative agent of human CE. Currently, there is no fully reliable method for assigning samples to genotypes G1 and G3, as the commonly used mitochondrial cox1 and nad1 genes are not sufficiently consistent for the identification and differentiation of these genotypes. Thus, a new genetic assay is required for the accurate assignment of G1 and G3. Here we use a large dataset of near-complete mtDNA sequences (n = 303) to reveal the extent of genetic variation of G1 and G3 on a broad geographical scale and to identify reliable informative positions for G1 and G3. Based on extensive sampling and sequencing data, we developed a new method, that is simple and cost-effective, to designate samples to genotypes G1 and G3. We found that the nad5 is the best gene in mtDNA to differentiate between G1 and G3, and developed new primers for the analysis. Our results also highlight problems related to the commonly used cox1 and nad1. To guarantee consistent identification of G1 and G3, we suggest using the sequencing of the nad5 gene region (680 bp). This region contains six informative positions within a relatively short fragment of the mtDNA, allowing the differentiation of G1 and G3 with confidence. Our method offers clear advantages over the previous ones, providing a significantly more consistent means to distinguish G1 and G3 than the commonly used cox1 and nad1., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

45. Global phylogeography and genetic diversity of the zoonotic tapeworm Echinococcus granulosus sensu stricto genotype G1.

Author

Kinkar L, Laurimäe T, Acosta-Jamett G, Andresiuk V, Balkaya I, Casulli A, Gasser RB, van der Giessen J, González LM, Haag KL, Zait H, Irshadullah M, Jabbar A, Jenkins DJ, Kia EB, Manfredi MT, Mirhendi H, M'rad S, Rostami-Nejad M, Oudni-M'rad M, Pierangeli NB, Ponce-Gordo F, Rehbein S, Sharbatkhori M, Simsek S, Soriano SV, Sprong H, Šnábel V, Umhang G, Varcasia A, and Saarma U

Subjects

Animals, DNA, Helminth genetics, Echinococcosis parasitology, Humans, Phylogeography, Echinococcus granulosus genetics, Genetic Variation, Genotype, Zoonoses parasitology

Abstract

Echinococcus granulosus sensu stricto (s.s.) is the major cause of human cystic echinococcosis worldwide and is listed among the most severe parasitic diseases of humans. To date, numerous studies have investigated the genetic diversity and population structure of E. granulosus s.s. in various geographic regions. However, there has been no global study. Recently, using mitochondrial DNA, it was shown that E. granulosus s.s. G1 and G3 are distinct genotypes, but a larger dataset is required to confirm the distinction of these genotypes. The objectives of this study were to: (i) investigate the distinction of genotypes G1 and G3 using a large global dataset; and (ii) analyse the genetic diversity and phylogeography of genotype G1 on a global scale using near-complete mitogenome sequences. For this study, 222 globally distributed E. granulosus s.s. samples were used, of which 212 belonged to genotype G1 and 10 to G3. Using a total sequence length of 11,682 bp, we inferred phylogenetic networks for three datasets: E. granulosus s.s. (n = 222), G1 (n = 212) and human G1 samples (n = 41). In addition, the Bayesian phylogenetic and phylogeographic analyses were performed. The latter yielded several strongly supported diffusion routes of genotype G1 originating from Turkey, Tunisia and Argentina. We conclude that: (i) using a considerably larger dataset than employed previously, E. granulosus s.s. G1 and G3 are indeed distinct mitochondrial genotypes; (ii) the genetic diversity of E. granulosus s.s. G1 is high globally, with lower values in South America; and (iii) the complex phylogeographic patterns emerging from the phylogenetic and geographic analyses suggest that the current distribution of genotype G1 has been shaped by intensive animal trade., (Copyright © 2018 Australian Society for Parasitology. Published by Elsevier Ltd. All rights reserved.)

Published

2018

46. First molecular characterization of Balantioides coli (Malmsten, 1857) isolates maintained in vitro culture and from feces of captive animals, Rio de Janeiro, Brazil.

Author

da Silva Barbosa A, Ponce-Gordo F, Dib LV, Antunes Uchôa CM, Bastos OMP, Pissinatti A, and Amendoeira MRR

Subjects

Animals, Brazil, Ciliophora genetics, Monkey Diseases epidemiology, Phylogeny, Protozoan Infections, Animal epidemiology, Swine, Swine Diseases epidemiology, Ciliophora isolation & purification, Feces parasitology, Macaca fascicularis parasitology, Monkey Diseases parasitology, Protozoan Infections, Animal parasitology, Swine Diseases parasitology

Abstract

Ciliate protozoa of the genus Balantioides can parasitize a variety of animals. The morphology of the evolutionary forms of the parasite and the host species affected have long been the only characteristics used to taxonomically identify the species of these protozoa, but these variables are not very precise. To confirm species identity, molecular biology tools are currently used. In this context, this study aimed to analyze protozoan isolates maintained in culture medium and from fecal samples from captive animals in Rio de Janeiro, Brazil, by means of molecular tools. Forty isolates maintained in Pavlova modified medium (30 were isolated from feces of pigs and 10 from feces of cynomolgus macaques) were analyzed. In addition, 34 fecal samples (8 from pigs, 8 from cynomolgus macaques and 18 from rhesus macaques) containing Balantioides coli-like cysts were analyzed. All samples were subjected to DNA extraction and the polymerase chain reaction (PCR) to amplify the fragment ITS1 - 5.8s rRNA - ITS2, and the PCR products were purified and sequenced. All samples (100%) presented sequences that were grouped in the Balantioides coli cluster. The type A0 variant predominated. These sequences were 96% to 99% identical to those deposited in GenBank, including a B. coli sequence that had been obtained from human fecal material in Bolivia. It seems that the culturing system did not select variants, because this variant was also seen in the amplified sequences of fecal samples containing cysts. The isolate sequences in the cultures showed few ambiguities and substitutions, thus generating reliable chromatograms. This was the first study to identify B. coli in captive animals in Brazil, through molecular biology. In addition, it was the first to evaluate a large panel of isolates of the parasite through culturing., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

47. New mitogenome and nuclear evidence on the phylogeny and taxonomy of the highly zoonotic tapeworm Echinococcus granulosus sensu stricto.

Author

Kinkar L, Laurimäe T, Sharbatkhori M, Mirhendi H, Kia EB, Ponce-Gordo F, Andresiuk V, Simsek S, Lavikainen A, Irshadullah M, Umhang G, Oudni-M'rad M, Acosta-Jamett G, Rehbein S, and Saarma U

Subjects

Africa, Northern, Animals, Asia, Echinococcus granulosus genetics, Echinococcus granulosus isolation & purification, Echinococcus granulosus metabolism, Europe, Genome, Mitochondrial, Genotype, Humans, Phylogeny, Phylogeography, South America, Zoonoses parasitology, Cell Nucleus genetics, DNA, Helminth genetics, Echinococcus granulosus classification, Mitochondria genetics

Abstract

Cystic echinococcosis, a zoonotic disease caused by Echinococcus granulosus sensu lato (s. l.), is a significant global public health concern. Echinococcus granulosus s. l. is currently divided into numerous genotypes (G1-G8 and G10) of which G1-G3 are the most frequently implicated genotypes in human infections. Although it has been suggested that G1-G3 could be regarded as a distinct species E. granulosus sensu stricto (s. s.), the evidence to support this is inconclusive. Most importantly, data from nuclear DNA that provide means to investigate the exchange of genetic material between G1-G3 is lacking as none of the published nuclear DNA studies have explicitly included G2 or G3. Moreover, the commonly used relatively short mtDNA sequences, including the complete cox1 gene, have not allowed unequivocal differentiation of genotypes G1-G3. Therefore, significantly longer mtDNA sequences are required to distinguish these genotypes with confidence. The main aim of this study was to evaluate the phylogenetic relations and taxonomy of genotypes G1-G3 using sequences of nearly complete mitogenomes (11,443bp) and three nuclear loci (2984bp). A total of 23 G1-G3 samples were analysed, originating from 5 intermediate host species in 10 countries. The mtDNA data demonstrate that genotypes G1 and G3 are distinct mitochondrial genotypes (separated by 37 mutations), whereas G2 is not a separate genotype or even a monophyletic cluster, but belongs to G3. Nuclear data revealed no genetic separation of G1 and G3, suggesting that these genotypes form a single species due to ongoing gene flow. We conclude that: (a) in the taxonomic sense, genotypes G1 and G3 can be treated as a single species E. granulosus s. s.; (b) genotypes G1 and G3 should be regarded as distinct genotypes only in the context of mitochondrial data; (c) we recommend excluding G2 from the genotype list., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

48. Supplemental description of Nyctotheroides pyriformis n. comb. (=Macrocytopharynxa pyriformis (Nie, 1932) Li et al. 2002) from frog hosts with consideration of the validity of the genus Macrocytopharynxa (Armophorea, Clevelandellida).

Author

Li M, Li C, Grim JN, Ponce-Gordo F, Wang G, Zou H, Li W, and Wu S

Subjects

Animals, Ciliophora genetics, Ciliophora ultrastructure, DNA, Ribosomal genetics, Microscopy, Electron, Scanning, Phylogeny, Species Specificity, Anura parasitology, Ciliophora classification

Abstract

The morphological revisions of Macrocytopharynxa pyriformis (Nie, 1932) Li et al., 2002; collected from the rectum of Fejervarya limnocharis (=Rana limnocharis), are presented in this paper: (1) two surfaces of the organism are not identical - left side narrower and convex, right broader and flat or slightly concave; (2) infundibulum is large and well-developed with no "fold" or "plicature" present in the middle or posterior portion; (3) micronucleus is tiny and ovoid shaped and always embedded in the middle concavity of macronucleus, which can be well revealed by ammoniacal silver staining. Our phylogenetic analysis based on SSU-rDNA showed that M. pyriformis fell into the Nyctotheroides clade, within which four definite Nyctotheroides species were involved - N. cordiformis, N. deslierresae, N. parvus and N. hubeiensis. In combination with their morphological features, we discussed the reliability of using karyophore organelles or kinetal suture patterns as the generic taxonomic criteria. Besides, we considered that the genus Macrocytopharynxa is a junior synonym of Nyctotheroides and we transfer its type species to Nyctotheroides as Nyctotheroides pyriformis n. comb. The phylogenetic pattern of the family Nyctotheridae was also indicated in our work, but it will be necessary to analyze more species from fishes and reptiles before coming to a sound conclusion., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2017

49. High-resolution phylogeography of zoonotic tapeworm Echinococcus granulosus sensu stricto genotype G1 with an emphasis on its distribution in Turkey, Italy and Spain.

Author

Kinkar L, Laurimäe T, Simsek S, Balkaya I, Casulli A, Manfredi MT, Ponce-Gordo F, Varcasia A, Lavikainen A, González LM, Rehbein S, VAN DER Giessen J, Sprong H, and Saarma U

Subjects

Animals, Cluster Analysis, DNA, Helminth chemistry, DNA, Helminth genetics, DNA, Mitochondrial chemistry, DNA, Mitochondrial genetics, Echinococcosis parasitology, Echinococcosis veterinary, Echinococcus granulosus isolation & purification, Europe, Humans, Sequence Analysis, DNA, Echinococcus granulosus classification, Echinococcus granulosus genetics, Genotype, Phylogeography

Abstract

Echinococcus granulosus is the causative agent of cystic echinococcosis. The disease is a significant global public health concern and human infections are most commonly associated with E. granulosus sensu stricto (s. s.) genotype G1. The objectives of this study were to: (i) analyse the genetic variation and phylogeography of E. granulosus s. s. G1 in part of its main distribution range in Europe using 8274 bp of mtDNA; (ii) compare the results with those derived from previously used shorter mtDNA sequences and highlight the major differences. We sequenced a total of 91 E. granulosus s. s. G1 isolates from six different intermediate host species, including humans. The isolates originated from seven countries representing primarily Turkey, Italy and Spain. Few samples were also from Albania, Greece, Romania and from a patient originating from Algeria, but diagnosed in Finland. The analysed 91 sequences were divided into 83 haplotypes, revealing complex phylogeography and high genetic variation of E. granulosus s. s. G1 in Europe, particularly in the high-diversity domestication centre of western Asia. Comparisons with shorter mtDNA datasets revealed that 8274 bp sequences provided significantly higher phylogenetic resolution and thus more power to reveal the genetic relations between different haplotypes.

Published

2016

50. Genetic diversity and phylogeography of highly zoonotic Echinococcus granulosus genotype G1 in the Americas (Argentina, Brazil, Chile and Mexico) based on 8279bp of mtDNA.

Author

Laurimäe T, Kinkar L, Andresiuk V, Haag KL, Ponce-Gordo F, Acosta-Jamett G, Garate T, Gonzàlez LM, and Saarma U

Subjects

Animals, DNA, Helminth analysis, DNA, Mitochondrial analysis, Echinococcosis epidemiology, Genotype, Mexico epidemiology, Molecular Epidemiology, Phylogeography, South America epidemiology, DNA, Helminth genetics, DNA, Mitochondrial genetics, Echinococcosis parasitology, Echinococcus granulosus genetics

Abstract

Echinococcus granulosus is a taeniid cestode and the etiological agent of an infectious zoonotic disease known as cystic echinococcosis (CE) or hydatid disease. CE is a serious public health concern in many parts of the world, including the Americas, where it is highly endemic in many regions. Echinococcus granulosus displays high intraspecific genetic variability and is divided into multiple genotypes (G1-G8, G10) with differences in their biology and etiology. Of these, genotype G1 is responsible for the majority of human and livestock infections and has the broadest host spectrum. However, despite the high significance to the public and livestock health, the data on genetic variability and regional genetic differences of genotype G1 in America are scarce. The aim of this study was to evaluate the genetic variability and phylogeography of G1 in several countries in America by sequencing a large portion of the mitochondrial genome. We analysed 8279bp of mtDNA for 52 E. granulosus G1 samples from sheep, cattle and pigs collected in Argentina, Brazil, Chile and Mexico, covering majority of countries in the Americas where G1 has been reported. The phylogenetic network revealed 29 haplotypes and a high haplotype diversity (Hd=0.903). The absence of phylogeographic segregation between different regions in America suggests the importance of animal transportation in shaping the genetic structure of E. granulosus G1. In addition, our study revealed many highly divergent haplotypes, indicating a long and complex evolutionary history of E. granulosus G1 in the Americas., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016