Abstract
INTRODUCTION
Blastocystis is an intestinal protozoan that may play a role in the pathogenicity of humans. This study aimed to (i) genetically characterize Blastocystis isolates obtained from human fecal samples and the water supply of the city of Uberaba, Minas Gerais, Brazil, and (ii) to verify the phylogenetic relationship between these isolates.
METHODS
Blastocystis species present in 26 fecal samples obtained from humans and animals from Uberaba were genetically characterized by polymerase chain reaction-restriction fragment length polymorphism and polymerase chain reaction-sequence-tagged sites. All amplicons were partially sequenced and/or defined according to the GenBank classification.
RESULTS
Polymerase chain reaction amplicons were generated from 21 human isolates and 18 water samples. The subtypes defined were ST1 (53.3%), ST3 (40.0%), and ST2 (6.7%) for human isolates; ST10 (100%) for bovine isolates; and ST5 (50.0%), ST1 (25%), and ST3 (25%) for pigs. Sequencing of polymerase chain reaction products showed a 98%-99% identity for the Blastocystis sequences deposited in GenBank, except for sequences from water samples that showed the identity of algae sequences. Phylogenetic analysis of Blastocystis sequences showed two distinct groups, one of which was principally formed by ST1, ST5, and ST10, and the other by isolates characterized as ST3 and ST7. Both clades showed human and animal sequences, reinforcing the notion that Blastocystis subtypes are not host-specific.
CONCLUSIONS
The data showed that Blastocystis subtypes circulating in Uberaba are ST1-ST3, ST5, and ST10, present in both humans and animals, demonstrating that the Blastocystis subtypes are not host-specific; that is, zoonotic transmission is possible.
Keywords:
Blastocystis species; Subtype; Genetic characterization; Brazil
INTRODUCTION
Blastocystis is a Stramenopile of the Blastocystidae family with a cosmopolitan distribution; they are the most prevalent parasites found in human feces worldwide despite the distinction between their colonization and infection not being well distinguished thus far11. Tan KS. New insights on classification, identification, and clinical relevance of Blastocystis spp. Clin Microbiol Rev. 2008;21(4):639-65. Available from: https:/doi.org/10.1128/CMR.00022-08.
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. Literature suggests that the parasite can interact with the host's microbial flora; however, the consequences of this interaction are not yet well known44. Stensvold CR, Clark CG. Molecular identification and subtype analysis of Blastocystis. Curr Protoc Microbiol. 2016;43(1):20A.2.1-20A.2.10. Available from: https://doi.org/10.1002/cpmc.17.
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.
Although underestimated, the prevalence of Blastocystis spp. in human hosts ranges from 17.8% to 86.63% in Brazil, as estimated by the diagnostic methods employed and the technical ability of laboratory technicians for its recognition11. Tan KS. New insights on classification, identification, and clinical relevance of Blastocystis spp. Clin Microbiol Rev. 2008;21(4):639-65. Available from: https:/doi.org/10.1128/CMR.00022-08.
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,66. Cabrine-Santos M, Cintra EN, Carmo RA, Nascentes GAN, Pedrosa AL, Correia D, et al. Occurrence of Blastocystis spp. in Uberaba, Minas Gerais, Brazil. Rev Inst Med Trop São Paulo. 2015;57(3):211-5. Available from: https:/doi.org/10.1590/S0036-46652015000300005.
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.
The molecular characterization of Blastocystis isolates has been carried out using different techniques; however, the analysis of the small ribosomal subunit gene (SSU-rDNA) is the most commonly used method77. Yoshikawa H, Nagano I, Wu Z, Yap EH, Singh M, Takahashi Y. Genomic polymorphism among Blastocystis hominis strains and development of subtype-specific diagnostic primers. Mol Cell Probes. 1988;12(3):153-9. Available from: https://doi.org/10.1006/mcpr.1998.0161.
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-1111. Piubelli C, Soleymanpoor H, Giorli G, Formenti F, Buonfrate D, Bisoffi Z, et al. Blastocystis prevalence and subtypes in autochthonous and immigrant patients in a referral centre for parasitic infections in Italy. PLoS One. 2019;14(1):e0210171. Available from: https://doi.org/10.1371/journal.pone.0210171.
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. These studies showed that Blastocystis has broad genetic diversity and is classified into 17 subtypes (ST1-ST171212. Stensvold CR, Suresh GK, Tan KS, Thompson RC, Traub RJ, Viscogliosi E, et al. Terminology for Blastocystis subtypes - a consensus. Trends Parasitol. 2007;23(3):93-6. Available from: https://doi.org/10.1016/j.pt.2007.01.004.
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). Ten Blastocystis subtypes have been described in humans: ST1-ST9 and ST1244. Stensvold CR, Clark CG. Molecular identification and subtype analysis of Blastocystis. Curr Protoc Microbiol. 2016;43(1):20A.2.1-20A.2.10. Available from: https://doi.org/10.1002/cpmc.17.
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,1010. Ramirez JD, Sanchez A, Hernandez C, Florez C, Bernal M C, Giraldo JC, et al. Geographical distribuition of human Blastocystis subtypes in South America. Infect Genet Evol. 2016;41:32-5. Available from: https:/doi.org/10.1016/j.meegid.2016.03.017.
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,1212. Stensvold CR, Suresh GK, Tan KS, Thompson RC, Traub RJ, Viscogliosi E, et al. Terminology for Blastocystis subtypes - a consensus. Trends Parasitol. 2007;23(3):93-6. Available from: https://doi.org/10.1016/j.pt.2007.01.004.
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. Other subtypes have been found in pets, livestock, and zoo animals1212. Stensvold CR, Suresh GK, Tan KS, Thompson RC, Traub RJ, Viscogliosi E, et al. Terminology for Blastocystis subtypes - a consensus. Trends Parasitol. 2007;23(3):93-6. Available from: https://doi.org/10.1016/j.pt.2007.01.004.
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.
Several studies have attempted to establish a relationship between Blastocystis subtype and clinical symptoms in patients; however, this relationship remains inconclusive1313. Melony D, Sanciu G, Poirier P, El Alaoui H, Chabé M, Delhaes L. Molecular subtyping of Blastocystis sp. isolates from symptomatic patients in Italy. Parasitol Res. 2011;109(3):613-9. Available from: https://doi.org/10.1007/s00436-011-2294-7.
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,1414. Bart A, Wentink-Bonnema EM, Gilis H, Verhaar N, Wassenaar CJ, Van Vugt M, et al. Diagnosis and subtype analysis of Blastocystis sp. in 442 patients in a hospital setting in the Netherlands. BMC Infect Dis. 2013;13:389. Available from: https://doi.org/10.1186/1471-2334-13-389.
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. Humans are mainly infected by ST1-ST4 and rarely by ST5-ST944. Stensvold CR, Clark CG. Molecular identification and subtype analysis of Blastocystis. Curr Protoc Microbiol. 2016;43(1):20A.2.1-20A.2.10. Available from: https://doi.org/10.1002/cpmc.17.
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,1212. Stensvold CR, Suresh GK, Tan KS, Thompson RC, Traub RJ, Viscogliosi E, et al. Terminology for Blastocystis subtypes - a consensus. Trends Parasitol. 2007;23(3):93-6. Available from: https://doi.org/10.1016/j.pt.2007.01.004.
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,1515. Stensvold CR, Alfellani MA, Nørskov-Lauritsen S, Prip K, Victory EM, Maddox C, et al. Subtype distribution of Blastocystis isolates from synanthropic and zoo animals and identification of a new subtype. Int J Parasitol. 2009b;39:473-9. Available from: https://doi.org/10.1016/j.ijpara.2008.07.006.
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16. Leelayoova S, Siripattanapipong S, Thathaisong U, Naaglor T, Taamasri P, Piyaraj P, et al. Drinking Water: A possible source of Blastocystis spp. subtype 1 infection in schoolchildren of a rural community in Central Thailand. Am J Trop Med Hyg. 2008;79(3):401-6.
17. Parkar U, Traub RJ, Vitali S, Elliot A, Levecke B, Robertson I, et al. Molecular characterization of Blastocystis isolates from zoo animals and their animal-keepers . Vet Parasitol. 2010;169(1-2):8-17. Available from: https:/doi.org/10.1016/j.vetpar.2009.12.032.
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18. Santín M, Gómez-Muñoz MT, Solano-Aguilar G, Fayer R. Development of a new PCR protocol to detect and subtype Blastocystis spp. from humans and animals. Parasitol Res . 2011;109(1):205-12. Available from: https:/doi.org/10.1007/s00436-010-2244-9.
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-1919. Alfellani MA, Stensvold CR, Vidal-Lapiedra A, Fagbenro-Beyioku AF, Clark CG. Variable geographic distribution of Blastocystis subtypes and its potential implications. Acta Trop. 2013;126(1):11-8. Available from: https:/doi.org/10.1016/j.actatropica.2012.12.011.
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,2020. Lepczynska M, Bialkowska J, Dzika E, Piskorz-Ogorek K, Korycinska J. Blastocystis: how do specific diets and human gut microbiota affect its development and pathogenicity? Eur J Clin Microbiol Infect Dis. 2017;36(9):1531-40. Available from: htpps://doi.org/10.1007/s10096-017-2965-0.
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.
In distinct regions of Brazil, different authors have demonstrated the presence of ST1-ST4 and ST6-ST8 subtypes. The ST1-ST3 and the ST2 subtype are the most prevalent2121. Malheiros AF, Stensvold CR, Clark CG, Braga GB, Shaw JJ. Short report: Molecular characterization of Blastocystis obtained from members of the indigenous Tapirapé ethnic group from the Brazilian Amazon region, Brazil. Am J Trop Med Hyg 2011;85(6):1050-3. Available from: https://doi.org/10.4269/ajtmh.2011.11-0481.
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22. Barbosa CV, Batista RJ, Igreja RP, Levy CMA, Macedo HW, Santos HLC. Distribution of Blastocystis subtypes isolated from humans from an urban community in Rio de Janeiro, Brazil. Parasit Vectors. 2017;10(1):518. Available from: https://doi.org/10.1186/s13071-017-2458-0.
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23. Seguí R, Muñoz-Antoli C, Klisiowicz DR, Oishi CY, Köster PC, Lucio A, et al. Prevalence of intestinal parasites, with emphasis on the molecular epidemiology of Giardia duodenalis and Blastocystis sp., in the Paranaguá Bay, Brazil: a community survey. Parasit Vectors. 2018;11(1):490. Available from: https://doi.org/10.1186/s13071-018-3054-7.
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24. Barbosa CV, Barreto MM, Andrade RJ, Sodré F, D'Avila-Levy CM, Peralta JM, et al. Intestinal parasite infections in a rural community of Rio de Janeiro (Brazil): prevalence and genetic diversity of Blastocystis subtypes. PLoS One . 2018;13(3):e0193860. Available from: https://doi.org/10.1371/journal.pone.0193860.
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-2525. Oliveira-Arbex AP, David ÉB, Guimarães S. Blastocystis genetic diversity among children of low-income daycare center in Southeastern Brazil. Infect Genet Evol. 2018;57:59-63. Available from: https://doi.org/10.1016/j.meegid.2017.11.005.
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. In the city of Uberaba, Minas Gerais (MG), an area of the Brazilian savannah, the parasite has been observed in humans (~17%), pigs (72.2%), sheep (33.3%), cattle (21.4%), and dogs (2,3%)66. Cabrine-Santos M, Cintra EN, Carmo RA, Nascentes GAN, Pedrosa AL, Correia D, et al. Occurrence of Blastocystis spp. in Uberaba, Minas Gerais, Brazil. Rev Inst Med Trop São Paulo. 2015;57(3):211-5. Available from: https:/doi.org/10.1590/S0036-46652015000300005.
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,2626. Moura RGF, Oliveira-Silva MB, Pedrosa AL, Nascentes GAN, Cabrine-Santos M. Occurrence of Blastocystis spp. in domestic animals in na area Brazil. Rev Soc Bras Med Trop. 2018;51(2):240-3. Available from: https:/doi.org/10.1590/0037-8682-0484-2016.
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. However, the molecular epidemiological profile of Blastocystis isolated in this region remains unknown.
This study aimed to: (i) genetically characterize the isolates of Blastocystis species obtained from human fecal samples and water supply in the city of Uberaba, MG, Brazil, and (ii) verify the phylogenetic relationship between Blastocystis isolates from humans, pigs, cattle, and water, to define the epidemiological profile of the parasite in this region.
METHODS
Blastocystis samples
In this study, Blastocystis species present in 26 fecal samples obtained from Uberaba, MG, Brazil, were genetically characterized. Of these, 21 samples were of human origin66. Cabrine-Santos M, Cintra EN, Carmo RA, Nascentes GAN, Pedrosa AL, Correia D, et al. Occurrence of Blastocystis spp. in Uberaba, Minas Gerais, Brazil. Rev Inst Med Trop São Paulo. 2015;57(3):211-5. Available from: https:/doi.org/10.1590/S0036-46652015000300005.
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, four pig feces, and one bovine2626. Moura RGF, Oliveira-Silva MB, Pedrosa AL, Nascentes GAN, Cabrine-Santos M. Occurrence of Blastocystis spp. in domestic animals in na area Brazil. Rev Soc Bras Med Trop. 2018;51(2):240-3. Available from: https:/doi.org/10.1590/0037-8682-0484-2016.
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. In addition, the presence of Blastocystis DNA was tested in 18 water supply samples2727. Moreira NC, Cabrine-Santos M, Oliveira-Silva MB. Evaluation of different oocyst DNA extraction methods for Cryptosporidium spp. research in environmental samples. Acta Parasit. 2020;65(4):995-8. Available from: https://doi.org/10.1007/s11686-020-00235-w.
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in the same area.
DNA extraction and PCR
Total DNA was extracted from the fecal samples using the immunomagnetic Magnex DNA Kit (Labtest Diagnóstica S.A., Minas Gerais, Brazil) according to the manufacturer’s instructions and protocol described by Moreira et al.2727. Moreira NC, Cabrine-Santos M, Oliveira-Silva MB. Evaluation of different oocyst DNA extraction methods for Cryptosporidium spp. research in environmental samples. Acta Parasit. 2020;65(4):995-8. Available from: https://doi.org/10.1007/s11686-020-00235-w.
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. Samples were screened for Blastocystis by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP), as previously described2828. Yoshikawa H, Dogruman-Al F, Turk S, Kustimur S, Balaban N, Sultan N. Evaluation of DNA extraction kits for molecular diagnosis of human Blastocystis subtypes from fecal samples. Parasitol Res . 2011;109(4):1045-50. Available from: https://doi.org/10.1007/s00436-011-2342-3.
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. Briefly, the SSU rDNA gene fragment amplified by PCR with primers 1FB and 1RB (Table 1) was SpeI-digested to infer parasite classification2828. Yoshikawa H, Dogruman-Al F, Turk S, Kustimur S, Balaban N, Sultan N. Evaluation of DNA extraction kits for molecular diagnosis of human Blastocystis subtypes from fecal samples. Parasitol Res . 2011;109(4):1045-50. Available from: https://doi.org/10.1007/s00436-011-2342-3.
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. PCR-sequence-tagged site (PCR-STS) analysis was performed, and the subtypes were determined77. Yoshikawa H, Nagano I, Wu Z, Yap EH, Singh M, Takahashi Y. Genomic polymorphism among Blastocystis hominis strains and development of subtype-specific diagnostic primers. Mol Cell Probes. 1988;12(3):153-9. Available from: https://doi.org/10.1006/mcpr.1998.0161.
https://doi.org/https://doi.org/10.1006/...
,2929. Yoshikawa H, Abe N, Iwasawa M, Kitano S, Nagano I, Wu Z, et al. Genomic analysis of Blastocystis hominis strains isolated from two long-term health care facilities. J Clin Microbiol. 2000;38(4):1324-30. Available from: https:/doi.org/10.1128/JCM.38.4.1324-1330.2000.
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.
Bovine and pig samples were obtained from another study by our team2626. Moura RGF, Oliveira-Silva MB, Pedrosa AL, Nascentes GAN, Cabrine-Santos M. Occurrence of Blastocystis spp. in domestic animals in na area Brazil. Rev Soc Bras Med Trop. 2018;51(2):240-3. Available from: https:/doi.org/10.1590/0037-8682-0484-2016.
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. The authors classified the S03 pig sample as ST1 using the same methods used in the present study. However, the authors could not determine the subtypes of the pig samples S01, S02, and S06, or bovine sample B01; nonetheless, they were sequenced.
Primers used to amplify the Small Subunit rDNA gene of Blastocystis isolates of humans, animals, and the water supply from the state of MG Brazil.
DNA sequencing and analysis
All amplicons from human and supply water samples were partially sequenced. To obtain the sequence of the entire SSU rDNA gene fragment, two pairs of internal primers (Table 1) were designed, and two additional PCRs were performed, namely PCR-INT 1 and PCR-INT 2, amplifying 907 bp and 850 bp fragments of the SSU rDNA gene, respectively; the amplified products were sequenced. All sequencing reactions were performed using the ABI Prism BigDye Terminator version 3.1, Cycle Sequencing Kits® (Applied Biosystems, Inc., Grand Island, USA) and analyzed using the ABI Prism 3500 Genetic Analyzer (Applied Biosystems). The nucleotide sequences were curated, and the consensus sequence of each sample was generated using the ChromasPro® version 1.7.6.
SSU-rDNA PCR fragments of some Blastocystis isolates from humans (n=7), pigs (n=3), and bovines (n=1)2626. Moura RGF, Oliveira-Silva MB, Pedrosa AL, Nascentes GAN, Cabrine-Santos M. Occurrence of Blastocystis spp. in domestic animals in na area Brazil. Rev Soc Bras Med Trop. 2018;51(2):240-3. Available from: https:/doi.org/10.1590/0037-8682-0484-2016.
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were not classified by PCR-RFLP and PCR-STS; however, they were sequenced. To mitigate this problem, these sequences were aligned using data regarding Blastocystis present in the GenBank database. With sequence alignment greater than 95% and an error less than 5%, the subtypes were defined according to the Genbank classification based on the Stensvold and Clark (2016) statement44. Stensvold CR, Clark CG. Molecular identification and subtype analysis of Blastocystis. Curr Protoc Microbiol. 2016;43(1):20A.2.1-20A.2.10. Available from: https://doi.org/10.1002/cpmc.17.
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.
The similarity analysis of the sequence generated with GenBank data was verified, and phylogenetic analysis was performed using the Mega® version 6 software3030. Tamura K, Stecher G, Peterson D, Filipski A, Kumar S. MEGA6: Molecular Evolutionary Genetics Analysis version 6.0. Mol Biol Evol. 2013;30(12):2725-9. Available from: https:/doi.org/10.1093/molbev/mst197.
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, based on the SSU rRNA dataset of Blastocystis by the 95 Maximum Likelihood method (ML) with 1000 bootstrap replicates. Reference sequences obtained from Blastocystis isolates ST1 (MK801358), ST3 (MK801403), ST5 (MK801414), ST7 (AF408427), and ST10 (MH507326) were used to make comparisons in dendrogram analysis; thus, an outgroup represented for Thecamonas trahens (XR_001290156).
Ethical approval
The project was approved by the Universidade Federal do Triângulo Mineiro’s Research Ethics Committee, Avenida Getúlio Guaritá, 159, Casa da Comissões, Bairro Abadia, Uberaba/MG, CEP: 38.025-440, phone +55 (34) 3700-6803, e-mail: cep@uftm.edu.br, under protocol number 1804.
RESULTS
PCR amplicons of 21 isolates from human fecal samples and 18 isolates from water samples were generated; however, these had different sizes (0.9 to 1.3 kb) than expected (1.1 kb) in 18/21 isolates from humans and 17/18 water isolates.
PCR-RFLP showed the restriction profiles of 14 human isolates (Table 2). After performing the PCR-STS following the generated profile, eight subtypes of Blastocystis were defined: five as ST1, two as ST3, and one as ST2 (Table 2). Three samples did not have sufficient DNA for PCR-STS analysis, and three were not amplified.
Seven Blastocystis isolates from humans did not show a restriction profile after performing PCR-RFLP, probably because of the small amount of amplified DNA. In this case, PCR-STS was performed with all primer pairs to define each subtype of Blastocystis (ST1-ST7); however, no sample was amplified, and the parasite subtype could not be defined.
Amplicons obtained from Blastocystis isolates from water samples did not show any restriction profile after PCR-RFLP, and the DNA was not amplified by PCR-STS.
In this study, high-quality sequences of 13 isolates from human fecal samples, 1 of an isolate from a bovine sample, 4 of isolates from pig samples (Table 2), and 4 of isolates from water samples were generated. However, analysis of the water sequences showed that the products amplified by PCR corresponded to the DNA of the algae, Eustigmatophyceae, and not to Blastocystis, thus showing that this PCR is not suitable for environmental samples.
Sequences obtained from human fecal samples (KX257271 to KX257283) and animals (KX257266-KX257270) were deposited in GenBank. Comparison of these sequences with GenBank data showed polymorphism of the SSU rDNA gene, showing substitutions in some regions and insertions or deletions (indel events) in others ( >Figure S1). Additionally, this analysis allowed the inference of the subtypes of three isolates of Blastocystis from pigs (2 ST5, 1 ST3), one from bovine (ST10), and seven from humans (3 ST1, 4 ST3) not classified by PCR-STS as described in the Methods section (Table 2, Figure 1).
Dendrogram obtained by multiple alignments of DNA sequences generated from Blastocystis species from humans and animals in the Uberaba city, MG, Brazil. A segment of the 18S rDNA gene of Thecamonas trahens (ATCC 50062, accession number XR_001290156) was used as an outgroup. Phylogenetic analysis was realized by Mega® version 6 software30, based on the SSU rRNA dataset of Blastocystis by the 95 ML method with 1000 replicates bootstrap values. Ref: reference strain; Bsp: Blastocystis spp.
In summary, in this study, the subtypes defined for human isolates were ST1 (8/15, 53.3%), ST3 (6/15, 40.0%), and ST2 (1/15, 6.7%); ST10 for the bovine isolate; ST5 (2/4, 50.0%), ST1 (1/4, 25%), and ST3 (1/4, 25%) for the pig isolates.
Phylogenetic analysis of Blastocystis sequences showed two distinct groups, one of which was principally formed by the isolates characterized as ST1, ST5 (S01, S02) and ST10 (B01). Another group was formed with isolates characterized as ST3 and ST7 (Figure 1).
DISCUSSION
In the present study, we confirmed that the SSU rDNA gene is polymorphic, as DNA products of different sizes from the described 1.1 kb fragment2929. Yoshikawa H, Abe N, Iwasawa M, Kitano S, Nagano I, Wu Z, et al. Genomic analysis of Blastocystis hominis strains isolated from two long-term health care facilities. J Clin Microbiol. 2000;38(4):1324-30. Available from: https:/doi.org/10.1128/JCM.38.4.1324-1330.2000.
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were amplified in human feces, indicating a similarity of approximately 99% with the Blastocystis sequences deposited in GenBank. Several indel events were observed in the generated sequences.
These results showed ST1-ST3, ST5, and ST10 in the city of Uberaba, with ST5 and ST10 present only in pigs and cattle, respectively. ST1 and ST3 were isolated from both humans and pigs, demonstrating the zoonotic potential of transmission of Blastocystis species, as reported by other authors3131. Arisue N, Hashimoto T, Yoshikawa H. Sequence heterogeneity of the small subunit ribosomal RNA genes among Blastocystis isolates. Parasitology 2003;126(1):1-9. Available from: https:/doi.org/10.1017/s0031182002002640.
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33. Noël C, Peyronnet C, Gerbod D, Edgcomb VP, Delgado-Viscogliosi P, Sogin ML, et al. Phylogenetic analysis of Blastocystis isolates from different hosts based on the comparison of small-subunit rRNA gene sequences. Mol Biochem Parasitol. 2003;126(1):119-23. Available from: https:/doi.org/10.1016/s0166-6851(02)00246-3.
https://doi.org/https:/doi.org/10.1016/s...
-3434. Yoshikawa H, Abe N, Wu Z. PCR-based identification of zoonotic isolates of Blastocystis from mammals and birds. Microbiol. 2004a;150(Pt 5):1147-51. Available from: https:/doi.org/10.1099/mic.0.26899-0.
https://doi.org/https:/doi.org/10.1099/m...
.
Few studies have been carried out in Brazil regarding the geographic distribution of Blastocystis subtypes and their hosts3535. Zanetti AS, Malheiros AF, Matos TA, Longhi FG, Moreira LM, Silva SL, et al. Prevalence of Blastocystis sp. infection in several hosts in Brazil: a systematic review and meta-analysis. Parasit Vectors 2020;13(1):30. https://doi.org/10.1186/s13071-020-3900-2.
https://doi.org/https://doi.org/10.1186/...
. ST1-ST4 have been reported to date, with a predominance of ST1 and ST32121. Malheiros AF, Stensvold CR, Clark CG, Braga GB, Shaw JJ. Short report: Molecular characterization of Blastocystis obtained from members of the indigenous Tapirapé ethnic group from the Brazilian Amazon region, Brazil. Am J Trop Med Hyg 2011;85(6):1050-3. Available from: https://doi.org/10.4269/ajtmh.2011.11-0481.
https://doi.org/https://doi.org/10.4269/...
,2626. Moura RGF, Oliveira-Silva MB, Pedrosa AL, Nascentes GAN, Cabrine-Santos M. Occurrence of Blastocystis spp. in domestic animals in na area Brazil. Rev Soc Bras Med Trop. 2018;51(2):240-3. Available from: https:/doi.org/10.1590/0037-8682-0484-2016.
https://doi.org/https:/doi.org/10.1590/0...
,3535. Zanetti AS, Malheiros AF, Matos TA, Longhi FG, Moreira LM, Silva SL, et al. Prevalence of Blastocystis sp. infection in several hosts in Brazil: a systematic review and meta-analysis. Parasit Vectors 2020;13(1):30. https://doi.org/10.1186/s13071-020-3900-2.
https://doi.org/https://doi.org/10.1186/...
-3636. David EB, Guimarães S, Oliveira AP, Oliveira-Sequeira TCG, Bittencourt GN, Nardi ARM, et al. Molecular characterization of intestinal protozoa in two poor communities in the State of São Paulo, Brazil. Parasit Vectors . 2015;8:1-12. Available from: https:/doi.org/10.1186/s13071-015-0714-8.
https://doi.org/https:/doi.org/10.1186/s...
. In the world panorama, the most prevalent subtypes of Blastocystis spp. are ST1-ST4, but ST5-ST9 and ST12 have also been described and have different regional prevalence3737. Yoshikawa H, Wu Z, Kimata I, Iseki M, Karim I, Ali MD, et al. Polymerase chain reaction-based genotype classification among human Blastocystis hominis populations isolated from different countries. Parasitol Res . 2004;92(1):22-9. Available from: https://doi.org/10.1007/s00436-003-0995-2.
https://doi.org/https://doi.org/10.1007/...
38. Khoshnood S, Rafie A, Saki J, Alizadeh K. Prevalence and genotype characterization of Blastocystis hominis among the Baghmalek people in Southwestern Iran in 2013-2014. Jundishapur J Microbiol. 2015;8(10):1-5. Available from: https:/doi.org/10.5812/jjm.23930.
https://doi.org/https:/doi.org/10.5812/j...
-3939. Malttiucci S, Crisafi B, Gabrielli S, Paoletti M, Cancrini G. Molecular epidemiology and genetic diversity of Blastocystis infection in humans in Italy. Epidemiol Infect. 2016;144(3):635-46. Available from: https://doi.org/10.1017/S0950268815001697.
https://doi.org/https://doi.org/10.1017/...
. Mixed infections have also been reported1111. Piubelli C, Soleymanpoor H, Giorli G, Formenti F, Buonfrate D, Bisoffi Z, et al. Blastocystis prevalence and subtypes in autochthonous and immigrant patients in a referral centre for parasitic infections in Italy. PLoS One. 2019;14(1):e0210171. Available from: https://doi.org/10.1371/journal.pone.0210171.
https://doi.org/https://doi.org/10.1371/...
, showing that complex genotypes may occur in various regions of the world.
Phylogenetic analysis showed that sequences originating from humans formed two distinct groups, one of which contained the sequences of the isolates characterized as ST1 and the other with the isolates characterized as ST3. In recent studies2222. Barbosa CV, Batista RJ, Igreja RP, Levy CMA, Macedo HW, Santos HLC. Distribution of Blastocystis subtypes isolated from humans from an urban community in Rio de Janeiro, Brazil. Parasit Vectors. 2017;10(1):518. Available from: https://doi.org/10.1186/s13071-017-2458-0.
https://doi.org/https://doi.org/10.1186/...
,3535. Zanetti AS, Malheiros AF, Matos TA, Longhi FG, Moreira LM, Silva SL, et al. Prevalence of Blastocystis sp. infection in several hosts in Brazil: a systematic review and meta-analysis. Parasit Vectors 2020;13(1):30. https://doi.org/10.1186/s13071-020-3900-2.
https://doi.org/https://doi.org/10.1186/...
, the grouping of subtypes into separate clades was shown by phylogenetic analysis of the different Blastocystis subtypes observed in Brazil in the South, Southeast, and Midwest regions. Pig isolates, although more similar to each other than human isolates, were divided into clades of the dendrogram, either isolated or belonging to one of the groups of human isolates. These data reinforce the potential for zoonotic transmission2222. Barbosa CV, Batista RJ, Igreja RP, Levy CMA, Macedo HW, Santos HLC. Distribution of Blastocystis subtypes isolated from humans from an urban community in Rio de Janeiro, Brazil. Parasit Vectors. 2017;10(1):518. Available from: https://doi.org/10.1186/s13071-017-2458-0.
https://doi.org/https://doi.org/10.1186/...
,3535. Zanetti AS, Malheiros AF, Matos TA, Longhi FG, Moreira LM, Silva SL, et al. Prevalence of Blastocystis sp. infection in several hosts in Brazil: a systematic review and meta-analysis. Parasit Vectors 2020;13(1):30. https://doi.org/10.1186/s13071-020-3900-2.
https://doi.org/https://doi.org/10.1186/...
,4040. Stensvold CR, Lewis HC, Hammerum AM, Porsbo LJ, Nielsen SS, Olsen KEP, et al. Blastocystis: unravelling potential risk factors and clinical significance of a common but neglected parasite. Epidemiol Infect . 2009;137(11):1655-63. Available from: https://doi.org/10.1017/S0950268809002672.
https://doi.org/https://doi.org/10.1017/...
.
In our study, 4 of the 18 water samples amplified with Blastocystis-specific primers followed by sequencing did not correspond to sequences of this parasite. Other studies in Brazil using PCR with primers other than those we used showed that amplified DNA fragments of water samples from the Tietê River, State of São Paulo, also did not correspond to the Blastocystis sequences deposited in GenBank3535. Zanetti AS, Malheiros AF, Matos TA, Longhi FG, Moreira LM, Silva SL, et al. Prevalence of Blastocystis sp. infection in several hosts in Brazil: a systematic review and meta-analysis. Parasit Vectors 2020;13(1):30. https://doi.org/10.1186/s13071-020-3900-2.
https://doi.org/https://doi.org/10.1186/...
. These results show that the primers directed to rDNA targets, which are highly conserved regions among eukaryotes, are inadequate for investigating Blastocystis in environmental samples. Consequently, the use of primers directed to these regions is a limitation for investigating Blastocystis in environmental samples; their use in PCR tests may contribute to false-positive results if other techniques, such as DNA sequencing, are not employed. These observations point to the need for developing new specific primers and/or new techniques to investigate the presence of Blastocystis in environmental samples.
Based on our study, we concluded that the SSU rDNA gene is polymorphic and may define intraspecific variations leading to the grouping of the isolates according to their genetic characteristics. In addition, it was verified that in the studied region, the subtypes of Blastocystis were ST1, ST3, and ST2, and zoonotic transmission is possible, as ST1 was found in both humans and pigs in the region. Finally, it was observed that the PCR of the SSU rDNA gene was not useful for the detection of Blastocystis in environmental samples, as it amplified the non-specific DNA of algae.
ACKNOWLEDGMENTS
We offer our deepest thanks to the institutions that provided technical support for the development and implementation of this study.
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» https://doi.org/https:/doi.org/10.1099/mic.0.26899-0 -
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» https://doi.org/https://doi.org/10.1186/s13071-020-3900-2 -
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» https://doi.org/https:/doi.org/10.1186/s13071-015-0714-8 -
37Yoshikawa H, Wu Z, Kimata I, Iseki M, Karim I, Ali MD, et al. Polymerase chain reaction-based genotype classification among human Blastocystis hominis populations isolated from different countries. Parasitol Res . 2004;92(1):22-9. Available from: https://doi.org/10.1007/s00436-003-0995-2.
» https://doi.org/https://doi.org/10.1007/s00436-003-0995-2 -
38Khoshnood S, Rafie A, Saki J, Alizadeh K. Prevalence and genotype characterization of Blastocystis hominis among the Baghmalek people in Southwestern Iran in 2013-2014. Jundishapur J Microbiol. 2015;8(10):1-5. Available from: https:/doi.org/10.5812/jjm.23930.
» https://doi.org/https:/doi.org/10.5812/jjm.23930 -
39Malttiucci S, Crisafi B, Gabrielli S, Paoletti M, Cancrini G. Molecular epidemiology and genetic diversity of Blastocystis infection in humans in Italy. Epidemiol Infect. 2016;144(3):635-46. Available from: https://doi.org/10.1017/S0950268815001697.
» https://doi.org/https://doi.org/10.1017/S0950268815001697 -
40Stensvold CR, Lewis HC, Hammerum AM, Porsbo LJ, Nielsen SS, Olsen KEP, et al. Blastocystis: unravelling potential risk factors and clinical significance of a common but neglected parasite. Epidemiol Infect . 2009;137(11):1655-63. Available from: https://doi.org/10.1017/S0950268809002672.
» https://doi.org/https://doi.org/10.1017/S0950268809002672
-
Financial Support: This work was supported by the Fundação de Amparo À Pesquisa do Estado de Minas Gerais, FAPEMIG (Grant number APQ04094/10).
Publication Dates
-
Publication in this collection
18 Aug 2021 -
Date of issue
2021
History
-
Received
13 May 2021 -
Accepted
09 July 2021