Genome assembly of a symbiotic balantidia (Balantidium ctenopharyngodoni) in fish hindgut.

Balantidium ctenopharyngodoni is identified as the sole ciliate species that exclusively resides within the hindgut of grass carp with high prevalence and intensity. In this study, the successful cultivation of B. ctenopharyngodoni enabled us to collect enough cells for genome sequencing. Consequently, we acquired a high-quality genome assembly spanning 68.66 Mb, encompassing a total of 22,334 nanochromosomes. Furthermore, we predicted 29,348 protein-coding genes, and 95.5% of them was supported by the RNA-seq data. The trend of GC content in the subtelomeric regions of single-gene chromosomes was similar to other ciliates containing nanochromosomes. A large number of genes encoding carbohydrate-binding modules with affinities for starch and peptidoglycans was identified. The identification of mitochondrion-related organelles (MROs) within genome indicates its well-suited adaptation to the anaerobic conditions in the hindgut environment. In summary, our results will offer resources for understanding the genetic basis and molecular adaptations of balantidia to hindgut of herbivorous fish.

Neobalantidium coli: First molecular identification from the Eurasian wild boar, Sus Scrofa in Bushehr Province, Southwestern Iran.

Balantidium coli is a common parasite of pig and wild boars (Sus scrofa) which can infect humans and several species of mammals. This study aimed to determine the genotype of Balantidium isolated from Eurasian wild boars in Bushehr province, Southwestern Iran. Twenty-five faecal samples, originating from 25 wild boars captivated in our previous study, were processed. DNA was extracted from the faecal samples and PCR-amplified, targeting an ITS1-5.8s-rRNA-ITS2 region of Balantidium genome. PCR product was purified from the gel, and sequenced. BLAST analysis was performed in order to compare our isolates with other previously reported ones. A phylogenetic tree was constructed, using MegaX software, to find out the phylogenetic diversity of the isolates. With PCR it was possible to detect Balantidium DNA in the faecal samples of 13 out of 25 (52%) of the wild boars. BLAST analysis of seven isolates revealed that the isolates belong to the newly introduced genus Neobalantidium coli. Sequences of three isolates were deposited in the GenBank. Moreover, molecular analysis revealed six areas of nucleotide differences within the isolates and nine areas of difference between the sequences obtained in this study and those available in the GenBank. Phylogenetic analysis revealed that the sequences of isolates of this study have up to 2.2% dissimilarity from those published in the GenBank. The findings of this study, for the first time, revealed that some of the isolates of Balantidium originating from wild boars in Southwestern Iran belonged to the N. coli.

Balantidium grimi n. sp. (Ciliophora, Litostomatea), a new species inhabiting the rectum of the frog Quasipaa spinosa from Lishui, China.

Balantidium grimi n. sp. is described from the rectum of the frog Quasipaa spinosa (Amphibia, Dicroglossidae) from Lishui, Zhejiang Province, China. The new species is described by both light microscopy (LM) and scanning electron microscopy (SEM), and a molecular phylogenetic analysis is also presented. This species has unique morphological features in that the body shape is somewhat flattened and the vestibulum is "V"-shaped, occupying nearly 3/8 to 4/7 of the body length. Only one contractile vacuole, situated at the posterior body, was observed. The phylogenetic analysis based on SSU-rDNA indicates that B. grimi groups together with B. duodeni and B. entozoon. In addition, the genus Balantidium is clearly polyphyletic.

The First Case of Diarrhoea in Tibetan Sheep, Ovis aries, Caused by Balantidium coli in the Qinghai Tibetan Plateau Area, China.

This study was carried out to determine the pathogen-causing diarrhoea in sheep Ovis aries in the Qinghai Tibetan Plateau Area, China. A trophozoite was identified as species of ciliate alveolates infecting the sheep based on morphological characteristics examined by microscope. It was mostly spherical, colourless and transparent, with many vesicles. Macronucleus and contractile vacuoles could not be distinguished. Size of the trophozoite was 80-180 × 70-150 µm and its surface was covered with cilia. Molecular analysis based on sequences of 18S rRNA and ITS genes confirmed the ciliate species as Balantidium coli. According to the literature, there have been many epidemiological investigations of B. coli infection in pigs, monkeys and humans. To our knowledge, this was the first report of B. coli infections in sheep in the Qinghai Tibetan Plateau Area of China, or eleswhere around the world. Importantly, the sheep case was rare but raised our concern that B. coli may spread across species and expand its host range.

Phylogenomic analysis of Balantidium ctenopharyngodoni (Ciliophora, Litostomatea) based on single-cell transcriptome sequencing.

In this paper, we present transcriptome data for Balantidium ctenopharyngodoni Chen, 1955 collected from the hindgut of grass carp (Ctenopharyngodon idella). We evaluated sequence quality and de novo assembled a preliminary transcriptome, including 43.3 megabits and 119,141 transcripts. Then we obtained a final transcriptome, including 17.7 megabits and 35,560 transcripts, by removing contaminative and redundant sequences. Phylogenomic analysis based on a supermatrix with 132 genes comprising 53,873 amino acid residues and phylogenetic analysis based on SSU rDNA of 27 species were carried out herein to reveal the evolutionary relationships among six ciliate groups: Colpodea, Oligohymenophorea, Litostomatea, Spirotrichea, Heterotrichea and Protocruziida. The topologies of both phylogenomic and phylogenetic trees are discussed in this paper. In addition, our results suggest that single-cell sequencing is a sound method of obtaining sufficient omics data for phylogenomic analysis, which is a good choice for uncultivable ciliates. The transcriptome data for Balantidium ctenopharyngodoni are the first omics data within the subclass Trichostomatia, and provide a good basis for ciliate phylogenomic analysis, as well as related omics analysis.

Molecular genetic investigations on Balantidium ctenopharyngodoni Chen, 1955, a parasite of the grass carp (Ctenopharyngodon idella).

Balantidium ctenopharyngodoni is a common ciliate in Hungary, infecting the hindgut of grass carp (Ctenopharyngodon idella), a cyprinid fish of Chinese origin. Although data have already been presented on its occasional pathogenic effect on the endothelium of the host, generally it is a harmless inhabitant of the gut. Phylogenetic analysis of the 18S rDNA and ITS fragments of this protozoan proved that it is in the closest phylogenetic relationship with endocommensalist and symbiont ciliates of mammals feeding on large volumes of green forage, in a similar way as Balantidium spp. known from algae-eating marine fishes.

[Advances in researches of balantidiosis].

Balantidiosis is a disease infected with Balantidium coli, and swine is the main infection source. The infection of B. coli may cause diarrhea, extra intestinal infection and co-infection with other pathogens and even intestinal necrosis. Strengthening the manure management of both human and livestock, paying attention to personal hygiene and labor protection, and timely treatment of the patients are the main measures to control balantidiosis.

New insights into the molecular phylogeny of Balantidium (Ciliophora, Vetibuliferida) based on the analysis of new sequences of species from fish hosts.

We obtained sequences of the small subunit ribosomal RNA (rRNA) for two new isolates of Balantidium from fishes, Balantidium polyvacuolum and Balantidium ctenopharingodoni. This is the first introduction of molecular data of Balantidium species from fish hosts in the phylogenetic analyses of the ciliate subclass Trichostomatia. Despite the fact that these species share morphological characteristics common to other species of Balantidium, the phylogenetic analysis of their sequences has shown that they are to be placed in a different branch closely related to the so-called Australian clade. Thus, our results indicate that the genus Balantidium is polyphyletic and possibly should be represented by two different genera; however, the analysis of more species from other poikilothermic hosts (amphibians, reptiles) should be made before a revised taxonomical proposal could be made.

Dysenteric syndrome due to Balantidium coli: a case report.

A 28-year-old man was hospitalized for a dysenteric syndrome that had developed during the previous days. Physical examination revealed abdominal pains, fever, vomiting and more than ten liquid stools per day. Fresh stool examination showed numerous mobile ciliated trophozoites of Balantidium coli. The patient reported having been on a hike the previous weekend during which he had drunk water through a hydration pouch bladder. Complete resolution was observed after intravenous rehydration and ten days of oral treatment with metronidazole (Flagyl®). Balantidium coli is the largest ciliate protozoan able to infect humans. This parasite is common in pigs and has a worldwide distribution. Human infections, a rare event in industrialised countries, are usually acquired by ingestion of food or water contaminated by mammal faeces. Human B. coli infections are easily treated but may be severe and even fatal if neglected.

Novel insights into the genetic diversity of Balantidium and Balantidium-like cyst-forming ciliates.

Balantidiasis is considered a neglected zoonotic disease with pigs serving as reservoir hosts. However, Balantidium coli has been recorded in many other mammalian species, including primates. Here, we evaluated the genetic diversity of B. coli in non-human primates using two gene markers (SSrDNA and ITS1-5.8SDNA-ITS2). We analyzed 49 isolates of ciliates from fecal samples originating from 11 species of captive and wild primates, domestic pigs and wild boar. The phylogenetic trees were computed using Bayesian inference and Maximum likelihood. Balantidium entozoon from edible frog and Buxtonella sulcata from cattle were included in the analyses as the closest relatives of B. coli, as well as reference sequences of vestibuliferids. The SSrDNA tree showed the same phylogenetic diversification of B. coli at genus level as the tree constructed based on the ITS region. Based on the polymorphism of SSrDNA sequences, the type species of the genus, namely B. entozoon, appeared to be phylogenetically distinct from B. coli. Thus, we propose a new genus Neobalantidium for the homeothermic clade. Moreover, several isolates from both captive and wild primates (excluding great apes) clustered with B. sulcata with high support, suggesting the existence of a new species within this genus. The cysts of Buxtonella and Neobalantidium are morphologically indistinguishable and the presence of Buxtonella-like ciliates in primates opens the question about possible occurrence of these pathogens in humans.

[Population characterization of Balantidium coli from pigs using ITS1-5.8S rRNA-ITS2 sequence].

OBJECTIVE: To determine the species and genotypes of Balantidium isolated from pigs in Henan province, China. METHODS: Scatoscopy and the modified DMEM media were used to isolate trophozoites of Balantidium from pig feces. The ITS1-5.8S rRNA-ITS2-based molecular marker method, Acridine orange staining ( AO) and microscopic observation were used to determine the population characteristics among different isolates of B. coli from various pigs farms. RESULTS: We isolated 15 isolates from the pigs at diagnosis in the Animal Hospital of Henan University of Science and Technology from the pig farms of the 8 counties or cities of the west of Henan province in total, and all of them belong to the same species B. coli. MJ-2 and SX-1 isolates were genotype A of B. coli, and the remaining 13 isolates were genotype B. Trophozoites of MJ-2 and SX-1 were bigger, moved more slowly and lower density in feces and in vitro culture than other 13 isolates, while structures of their nuclei were not different. CONCLUSION: Both genotype A and B of B. coli are present in the pig farms of the west of Henan province, China, and genotype B is the determinant population in pigs farms. These findings could provide an important implication for the effective control of balantidiosis of human and other hosts.

Ultrastructural and molecular characterization of Balantidium coli isolated in the Philippines.

Balantidium coli is a ciliated protozoon inhabiting the colon of swine, rodents, horses, nonhuman primates and humans. In association with disease triggered by other infectious agents, B. coli may become a pathogenic opportunist. This study describes the isolation, cultivation, morphological as well as molecular characterization of B. coli isolated from the large intestine of a pig in the Philippines. Based on scanning and transmission electron microscopy, this protozoon presents a dense ciliation in the oral structure and somatic cilia that are arranged in a more transverse field. Oral and somatic monokinetids were identified in the cortex of the organism. The presence of heterokaryotic nuclear condition is evident, and the cell body of the ciliate shows numerous mucocysts, several food vacuoles, mitochondria, endoplasmic reticulum, and contractile vacuoles. Polymerase chain reaction and phylogenetic analysis based on the small subunit ribosomal RNA gene were performed in order to compare our isolate with other previously reported B. coli isolates. The full-length sequence of the SSU rRNA gene of the isolate showed 99% similarity to other B. coli isolates reported in the GenBank. Phylogenetic analysis revealed that the isolate clustered with previously reported B. coli isolates from gorillas, pig, and ostrich. To date, no studies on the ultrastructure and phylogeny of B. coli isolated in the Philippines have been reported. Results from this study may serve as a baseline data for further ultrastructural and phylogenetic studies on this organism. This study also suggests that morphological characteristics along with molecular identification are essential for validating and identifying species of Balantidium.

A re-description of the ciliate genus and type species, Balantidium entozoon.

Members of the ciliate genus Balantidium possess a specialized "Villeneuve-Brachon's" field of somatic cilia to the right of the vestibule, or in a dextroral location. Specimens of the type species were collected in Italy and fixed for study by light microscopy, and scanning and transmission electron microscopy. The presence of the field in the type species and several other species of the genus indicates a need to re-describe the genus by including details of the ultrastructure of that field. Scanning electron microscopy shows that the field consists of one row of relatively short cilia of uniform length flanked on each side by 2-3 rows, or more, of very short cilia. Their kinetids have typical litostome structure in transmission electron micrographs. We speculate on a possible function for the Villeneuve-Brachon's field and also present morphometric data on the type species. The base sequence of the small subunit ribosomal RNA gene of Balantidium entozoon has been determined and found to differ by 5% from that of B. coli. Based on the location and ultrastructure, organelles found around the somatic kinetosomes and within inter-kinetal ridges of B. entozoon were identified as hydrogenosomes.

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

The characteristics of Balantidium from ostriches (Struthio camelus) are similar to those of Balantidium coli; however, the species Balantidium struthionis was proposed on the basis of the host species (ostriches) and the shape of the macronucleus (with a deep depression in one side). In the present work, we have performed morphological and genetic comparisons between isolates of Balantidium from ostriches and B. coli from pigs to determine the specific status of B. struthionis. The morphological characteristics of the trophozoites of Balantidium from ostriches were reviewed in 100 trophozoites from two isolates. The macronucleus' shape of the ostrich Balantidium was highly variable, thus the use of this criterion for diagnostic purposes is not reliable. Besides, very few trophozoites showed a deep depression in their macronucleus and almost all the trophozoites conform to the description of B. coli. The complete sequence of the DNA coding for the 18s-rRNA-ITS1-5.8s-rRNA-ITS2 regions were obtained by PCR from five pig and five ostrich isolates. The sequences corresponding to the 18s and 5.8s-rRNA genes were identical for the ostrich and pig isolates. Two clearly different genotypes were found in the analysis of the ITS1 and ITS2 regions of the pig isolates; the genotype A was identified in all isolates, while the genotype B was found in only two of them. Their sequences show clear differences from that published corresponding to a B. coli gorilla isolate, which we will consider as a different genotype, C. In our opinion, these different B. coli genotypes reflect the genetic variability of this organism, but further studies would be necessary to determine if it could have practical importance. The polymorphism of the ITS regions have been also found in the ostrich isolates. The same genotypes A and B have been identified, although not as mixed infections. The morphological characteristics and the genetic results suggest that the species name B. struthionis is a synonym of B. coli; however, until experimental infections are carried out to determine if the parasite is transmissible between pigs and ostriches, it would be preferable to tentatively designate it as B. coli-like.