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Zoonotic Giardia duodenalis assemblage A in northern sloth from Brazilian Amazon

Abstract

BACKGROUND

The parasite Giardia duodenalis infects a wide range of vertebrate hosts, including domestic and wild animals as well as humans. Giardia is genotyped into eight assemblages (A-H). Zoonotic assemblages A and B have already been identified in humans and wild and domestic animals (non-human primates and cats) from Brazilian Amazon and in the world. Due to its zoonotic/zooanthroponotic nature, surveillance initiatives and the definition of Giardia assemblages are important in order to characterise the epidemiological scenario and to implement further control measures.

OBJECTIVES

Determine assemblages of G. duodenalis in sloths from the Brazilian Amazon Region.

METHODS

Faecal parasitological examination of sloths from Amazonas State. Polymerase chain reaction (PCR) targeting the beta giardin (BG), and genes from multilocus sequence typing (MLST) scheme, amplicon sequencing and phylogenetic analysis.

FINDINGS

Here, we identified, by microscopy, Giardia in two northern sloths (Bradypus tridactylus). These two samples were submitted to molecular assays and it was revealed that both were infected by G. duodenalis assemblage A. Phylogenetic analysis showed that they belong to assemblage A within sequences from humans and wild and domestic animals.

CONCLUSION

Therefore, besides showing, by the first time, the current presence of this parasite in sloths, our findings reveals that this wild animal species would be part of the zoonotic/zooanthroponotic scenario of this parasite in the Brazilian Amazon.

Key words:
Giardia duodenalis; assemblage; genotyping; sloth; Amazon; Bradypus tridactylus


Giardia duodenalis (syn. G. intestinalis, G. lamblia) is the flagellated protozoan that infects the small intestine of humans and others mammals in worldwide.11. Adam RD. Giardia duodenalis: biology and pathogenesis. Clin Microbiol Rev. 2021; 34(4): 1-35.

Giardiasis is a disease associate with this parasitic infection in human, with symptoms such as acute diarrhoea which may progress to a chronic stage, but most infections remain asymptomatic.22. Certad G, Viscogliosi E, Chabé M, Cacciò SM. Pathogenic mechanisms of Cryptosporidium and Giardia. Trends Parasitol. 2017; 33(7): 561-76. In children, giardiasis has a negative impact on their growth and cognitive development.33. Rogawski ET, Liu J, Platts-Mills JA, Kabir F, Lertsethtakarn P, Siguas M, et al. Use of quantitative molecular diagnostic methods to investigate the effect of enteropathogen infections on linear growth in children in low-resource settings: longitudinal analysis of results from the MAL-ED cohort study. Lancet Glob Health. 2018; 6(12): e1319-28. In animals, cats and dogs, G. duodenalis infection can be associated with a spectrum of signs ranging from subclinical forms to acute or chronic diarrhoea.44. Epe C, Rehkter G, Schnieder T, Lorentzen L, Kreienbrock L. Giardia in symptomatic dogs and cats in Europe-results of a European study. Vet Parasitol. 2010; 173(1-2): 32-8.,55. Tangtrongsup S, Scorza V. Update on the diagnosis and management of Giardia spp. infections in dogs and cats. Top Companion Anim Med. 2010; 25(3): 155-62. Overall, this waterborne and foodborne parasite is a major problem in one health, particularly, in areas with poor sanitary conditions.

Currently, G. duodenalis is classified into eight distinct assemblages or genotypes (A to H), where A and B infect humans and animals worldwide. While assemblages C-H show specificity to particular animal hosts: assemblages C and D occur in canines, assemblage E in ungulates including livestock, assemblage F in cats, assemblage G in rodents, and assemblage H is found in marine mammals, such as pinnipeds family.66. Cacciò SM, Lalle M, Svärd SG. Host specificity in the Giardia duodenalis species complex. Infect Genet Evol. 2018; 66: 335-45. However, recently, changes were observed in this scenario since assemblages C, D, E, F and G were characterised in human infections.(77. Buret AG, Cacciò SM, Favennec L, Svärd S. Update on Giardia: highlights from the Seventh International Giardia and Cryptosporidium Conference. Parasite. 2020; 27(49): 2020.,88. Fantinatti M, Bello AR, Fernandes O, Da-Cruz AM. Identification of Giardia lamblia assemblage E in humans points to a new anthropozoonotic cycle. J Infect Dis. 2016; 214(8): 1-26.,99. Garcia-R JC, Ogbuigwe P, Pita AB, Velathanthiri N, Knox MA, Biggs PJ, et al. First report of novel assemblages and mixed infections of Giardia duodenalis in human isolates from New Zealand. Acta Trop. 2021; 220: 105969.,1010. Higuera A, Villamizar X, Herrera G, Giraldo JC, Vasquez-A LR, Urbano P, et al. Molecular detection and genotyping of intestinal protozoa from different biogeographical regions of Colombia. PeerJ. 2020; 2020(3): 1-26.)

The Amazon Region is hot spot of biodiversity in the world and, so far, in the Brazilian Amazon, only assemblages A and B were identified in humans, non-human primates and cats, and assemblage C in dogs.1111. Dos Reis LL, Da Silva TRR, Braga FCO, Do Nascimento NM, De Menezes KML, Nava AFD, et al. Giardiasis in urban and rural Amazonas, Brazil is driven by zoonotic and cosmopolitan A and B assemblages. Mem Inst Oswaldo Cruz. 2021; 116: 1-8.,1212. Dos Reis LL, Lima DCS, Da Silva TRR, Braga FCO, Nava AFD, Vicente ACP. Circulation of Giardia duodenalis in domestic and wild animals from Amazon region: a systematic review. Acta Trop. 2023; 237: 106708. Therefore, we have maintained a surveillance program of Giardia parasite identification particularly, considering wild animals from Brazilian Amazon Region. In this context, we reported the identification and characterisation of G. duodenalis assemblage A in two northern sloths (Bradypus tridactylus) by means of the beta giardin (BG), the caffeine-induced death protein-1 like protein (CID1) and mitotic control protein Dis3 (DIS3) genes analysis.

MATERIALS AND METHODS

We performed parasitological examination by spontaneous sedimentation1313. Hoffman WA, Pons JA, Janer JL. The sedimentation-concentration method in Schistosomiasis mansoni. Puerto Rico J Public Health. 1934; 9: 281-98. in single faecal specimens of the 27 sloths of the species B. tridactylus (12/27), and Choloepus didactylus (15/27) from Wild Animal Rehabilitation Centre (Cetas)/Ibama located in Manaus municipality (3º4’25”S, 60º0’20”W), in Amazonas State, Brazil, between January and May 2022. The presence of Giardia was confirmed by microscope observation. The sloths did not have gastrointestinal symptoms.

DNA was extracted from Giardia positive samples using QIAamp DNA Stool Mini Kit with minor modifications: lysis buffer temperature to 95ºC for 15 min, and 200 uL of elution buffer for 10 min at room temperature. Polymerase chain reaction (PCR) was carried out targeting the genes encoding BG,1414. Cacciò SM, Giacomo M, Pozio E. Sequence analysis of the b-giardin gene and development of a polymerase chain reaction - restriction fragment length polymorphism assay to genotype Giardia duodenalis cysts from human faecal samples. Int J Parasitol. 2002; 32: 1023-30. and from MLST scheme.1515. Ankarklev J, Lebbad M, Einarsson E, Franzén O, Ahola H, Troell K, et al. A novel high-resolution multilocus sequence typing of Giardia intestinalis Assemblage A isolates reveals zoonotic transmission, clonal outbreaks and recombination. Infect Genet Evol. 2018; 60: 7-16. We were successfully in the amplification the BG, CID1 and DIS3 genes. The amplicons were purified using PureLink Quick PCR Purification Kit (Invitrogen, Lithuania), according to the manufacturer’s instructions. The fragments were Sanger sequenced using BigDye Terminator Cycle Sequencing Ready Reaction Kit.

The nucleotide sequence was edited in BioEdit software and consensus sequence was aligned in MAFFT1616. Katoh K, Standley DM. MAFFT Multiple Sequence Alignment Software Version 7: improvements in performance and usability. Mol Biol Evol. 2013; 30(4): 772-80. and alignment corrected in MEGAX software.

Phylogenetic analyses were conducted using the program implemented in Phylosuite:(1717. Xiang C, Gao F, Jakovlic I, Lei H, Hu Y, Zhang H, et al. Using PhyloSuite for molecular phylogeny and tree-based analyses. iMeta. 2023; 98: 113-32.,1818. Zhang D, Gao F, Jakovlic I, Zou H, Zhang J, Li WX, et al. PhyloSuite: an integrated and scalable desktop platform for streamlined molecular sequence data management and evolutionary phylogenetics studies. Mol Ecol Resour. 2020; 20(1): 348-55.) IQ-Tree v1.6.81919. Nguyen L-T, Schmidt HA, von Haeseler A, Minh BQ. IQ-TREE: a fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies. Mol Biol Evol. 2015; 32(1): 268-74. was used for the Maximum likelihood (ML) analysis. The best-fit substitution models were selected with ModelFinder according to the corrected Akaike information criterion (AICc). The ML analysis was conducted with the TN+F+G4 model for the BG tree, and, for the concatenated tree with BG, CID1 and DIS3 alignments, the partition models selected were GTR+F+I (BG gene) and K2P+I (CID1 and DIS3 genes). The sequences used in the concatenated tree are in the Supplementary data (Table). The clade support was estimated using 5,000 replicates for both ultrafast bootstrap (UFBoot) and Shimodaira-Hasegawa approximate likelihood ratio test (SH-aLRT). Finally, two trees were built and visualised by Figtree v1.4.0 and further edited in Inkscape. The phylogenetic analyses were performed with sequences from humans and animals belonging to G. duodenalis assemblages A-F from worldwide and G. muris species.

This study was approved by the local SISBIO n.º 67153-3 (general license for animal collection), and by UFAM CEUA n.º 017/2020 (Federal University of Amazonas State Ethics Committee for Animal Use).

RESULTS AND DISCUSSION

This study identified firstly, by microscopy observation, that 2/27 sloths of the species B. tridactylus were positive for Giardia (low parasitaemia). Both were baby sloths rescued in urban area of the Manaus municipality, Amazonas State, Brazil and delivered to Cetas/Ibama (Fig. 1). Curiously, studies around the world enrolling young animals demonstrate higher Giardia prevalence rates in the young than in adults.2020. Santin M. Cryptosporidium and Giardia in Ruminants. Vet Clin North Am Food Anim. 2020; 36(1): 223-38. The BG, CID1 and DIS3 genes were successfully amplified in these two samples and their sequences confirm G. duodenalis. In addition, they were used to perform a phylogenetic analysis (Accession numbers: OQ971403, OQ971404, OR453867, OR453868, OR453869, OR453870). Based on the available BG sequences of the assemblages A, B, C, D and F from animals and humans from Amazon Region and worldwide, besides the sequence of G. muris species, a genetic tree was built up. This tree showed several clusters corresponding to G. duodenalis assemblages A-F and the BG gene sequences from both sloths clustered into two distinct sub-clusters of assemblage A (Fig. 2) within G. duodenalis from humans, wild and domestic animals around the world. Another tree was built using BG, CID1 and DIS3 sequences concatenated since the CID1 and DIS3 sequences available in Gen Bank are from assemblage A and, therefore, this tree represents only this assemblage (Fig. 3).

Fig. 1:
northern sloth (Bradyprus tridactylus) positive to Giardia duodenalis assemblage A.

Fig. 2:
maximum-likelihood phylogenetic tree based on Giardia duodenalis beta giardin (BG) (466 bp). Support values for the clades UFBoot and Shimodaira-Hasegawa approximate likelihood ratio test (SH-aLRT) are presented at the left of the nodes. Both BG sloth sequences are in bold. Hs: Homo sapiens.

Fig. 3:
maximum-likelihood phylogenetic tree based on concatenated Giardia duodenalis beta giardin (BG), CID1 and DIS3 sequences (1750 bp). Support values for the clades UFBoot and Shimodaira-Hasegawa approximate likelihood ratio test (SH-aLRT) are presented at the left of the nodes. Both sloth sequences are label.

Assemblage A was recently identified in humans, cats and non-human primates from Manaus, Amazonas State,1111. Dos Reis LL, Da Silva TRR, Braga FCO, Do Nascimento NM, De Menezes KML, Nava AFD, et al. Giardiasis in urban and rural Amazonas, Brazil is driven by zoonotic and cosmopolitan A and B assemblages. Mem Inst Oswaldo Cruz. 2021; 116: 1-8. the same area were both sloths were found. Moreover, this genotype has been found in humans, domestic and wild animals from the Amazon Region,(1212. Dos Reis LL, Lima DCS, Da Silva TRR, Braga FCO, Nava AFD, Vicente ACP. Circulation of Giardia duodenalis in domestic and wild animals from Amazon region: a systematic review. Acta Trop. 2023; 237: 106708.,2121. Nunes BC, Pavan MG, Jaeger LH, Monteiro KJL, Xavier SCC, Monteiro FA, et al. Spatial and molecular epidemiology of Giardia intestinalis deep in the Amazon, Brazil. PLoS One. 2016; 11(7): 1-8.) as well as in cosmopolitan regions around the world.(77. Buret AG, Cacciò SM, Favennec L, Svärd S. Update on Giardia: highlights from the Seventh International Giardia and Cryptosporidium Conference. Parasite. 2020; 27(49): 2020.,2222. Dixon BR. Giardia duodenalis in humans and animals - Transmission and disease. Res Vet Sci. 2021; 135: 283-9.)

Six species of sloths exist today: C. hoffmanni and C. didactylus are two-toed sloth, two of the most commonly kept species in zoologic societies; and the three-toed sloth, B. torquatus, B. variegatus (brown throated three-toed sloth), and B. tridactylus (pale-throated three-toed sloth). The latter species also called northern sloth, is restricted to the Guyana shield, and in Brazil it is only found north of the Amazon River and east of Negro River.2323. Moraes-Barros N, Giorgi AP, Silva S, Morgante JS. Reevaluation of the geographical distribution of Bradypus tridactylus Linnaeus, 1758 and B. variegatus Schinz, 1825. Edentata. 2010; 11(1): 53-61. This species has no endangered status, and its having been recorded as locally relatively abundant, although this species is threatened by the loss of forests and illegal pet trade.2424. Superina M, Plese T, Moraes-Barros N, Abba AM. The 2010 sloth red list assessment. Edentata. 2010; 12(2): 115-34.

In 1928, Giardia spp. was identified in B. variegatus sloth captured in Panama and maintained in a zoo (USA), showing no clinical signs.2525. Smith LH, Ruple A. Idly infected: a review of infectious agents in populations of two-and three-toed sloths (Choloepus species and Bradypus species). J Zoo Wildl Med. 2021; 51(4): 789-98. Since then, there is no literature record about species and genotypes of Giardia in sloths in the world. Here, we identified, for the first time, the zoonotic assemblage A in sloths (B. tridactylus) from Manaus, Amazon State, Brazil.

Interestingly, G. duodenalis was identified, by immunodiagnosisin, in Nothrotherium maquinense (ground sloth) coprolites from the northeastern Brazilian Megafauna corresponding the late Pleistocene period, correlated to human occupation.2626. Leles D, Cascardo P, Pucu E, Brener B, Sudré A, Alves E, et al. Methodological innovations for the study of irreplaceable samples reveal giardiasis in extinct animals (Nothrotherium maquinense and Palaeolama maior). Parasitol Int. 2018; 67(6): 776-80. The authors speculated that Giardia could be circulating among humans and megafauna and, since them, it has been adapted to several other species.

Therefore, our findings as well the previous evidences of Giardia in sloth species show that this wild mammal is part of the zoonotic/zooanthponotic scenario of this parasite in Brazilian Amazon.

REFERENCES

  • 1
    Adam RD. Giardia duodenalis: biology and pathogenesis. Clin Microbiol Rev. 2021; 34(4): 1-35.
  • 2
    Certad G, Viscogliosi E, Chabé M, Cacciò SM. Pathogenic mechanisms of Cryptosporidium and Giardia. Trends Parasitol. 2017; 33(7): 561-76.
  • 3
    Rogawski ET, Liu J, Platts-Mills JA, Kabir F, Lertsethtakarn P, Siguas M, et al. Use of quantitative molecular diagnostic methods to investigate the effect of enteropathogen infections on linear growth in children in low-resource settings: longitudinal analysis of results from the MAL-ED cohort study. Lancet Glob Health. 2018; 6(12): e1319-28.
  • 4
    Epe C, Rehkter G, Schnieder T, Lorentzen L, Kreienbrock L. Giardia in symptomatic dogs and cats in Europe-results of a European study. Vet Parasitol. 2010; 173(1-2): 32-8.
  • 5
    Tangtrongsup S, Scorza V. Update on the diagnosis and management of Giardia spp. infections in dogs and cats. Top Companion Anim Med. 2010; 25(3): 155-62.
  • 6
    Cacciò SM, Lalle M, Svärd SG. Host specificity in the Giardia duodenalis species complex. Infect Genet Evol. 2018; 66: 335-45.
  • 7
    Buret AG, Cacciò SM, Favennec L, Svärd S. Update on Giardia: highlights from the Seventh International Giardia and Cryptosporidium Conference. Parasite. 2020; 27(49): 2020.
  • 8
    Fantinatti M, Bello AR, Fernandes O, Da-Cruz AM. Identification of Giardia lamblia assemblage E in humans points to a new anthropozoonotic cycle. J Infect Dis. 2016; 214(8): 1-26.
  • 9
    Garcia-R JC, Ogbuigwe P, Pita AB, Velathanthiri N, Knox MA, Biggs PJ, et al. First report of novel assemblages and mixed infections of Giardia duodenalis in human isolates from New Zealand. Acta Trop. 2021; 220: 105969.
  • 10
    Higuera A, Villamizar X, Herrera G, Giraldo JC, Vasquez-A LR, Urbano P, et al. Molecular detection and genotyping of intestinal protozoa from different biogeographical regions of Colombia. PeerJ. 2020; 2020(3): 1-26.
  • 11
    Dos Reis LL, Da Silva TRR, Braga FCO, Do Nascimento NM, De Menezes KML, Nava AFD, et al. Giardiasis in urban and rural Amazonas, Brazil is driven by zoonotic and cosmopolitan A and B assemblages. Mem Inst Oswaldo Cruz. 2021; 116: 1-8.
  • 12
    Dos Reis LL, Lima DCS, Da Silva TRR, Braga FCO, Nava AFD, Vicente ACP. Circulation of Giardia duodenalis in domestic and wild animals from Amazon region: a systematic review. Acta Trop. 2023; 237: 106708.
  • 13
    Hoffman WA, Pons JA, Janer JL. The sedimentation-concentration method in Schistosomiasis mansoni. Puerto Rico J Public Health. 1934; 9: 281-98.
  • 14
    Cacciò SM, Giacomo M, Pozio E. Sequence analysis of the b-giardin gene and development of a polymerase chain reaction - restriction fragment length polymorphism assay to genotype Giardia duodenalis cysts from human faecal samples. Int J Parasitol. 2002; 32: 1023-30.
  • 15
    Ankarklev J, Lebbad M, Einarsson E, Franzén O, Ahola H, Troell K, et al. A novel high-resolution multilocus sequence typing of Giardia intestinalis Assemblage A isolates reveals zoonotic transmission, clonal outbreaks and recombination. Infect Genet Evol. 2018; 60: 7-16.
  • 16
    Katoh K, Standley DM. MAFFT Multiple Sequence Alignment Software Version 7: improvements in performance and usability. Mol Biol Evol. 2013; 30(4): 772-80.
  • 17
    Xiang C, Gao F, Jakovlic I, Lei H, Hu Y, Zhang H, et al. Using PhyloSuite for molecular phylogeny and tree-based analyses. iMeta. 2023; 98: 113-32.
  • 18
    Zhang D, Gao F, Jakovlic I, Zou H, Zhang J, Li WX, et al. PhyloSuite: an integrated and scalable desktop platform for streamlined molecular sequence data management and evolutionary phylogenetics studies. Mol Ecol Resour. 2020; 20(1): 348-55.
  • 19
    Nguyen L-T, Schmidt HA, von Haeseler A, Minh BQ. IQ-TREE: a fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies. Mol Biol Evol. 2015; 32(1): 268-74.
  • 20
    Santin M. Cryptosporidium and Giardia in Ruminants. Vet Clin North Am Food Anim. 2020; 36(1): 223-38.
  • 21
    Nunes BC, Pavan MG, Jaeger LH, Monteiro KJL, Xavier SCC, Monteiro FA, et al. Spatial and molecular epidemiology of Giardia intestinalis deep in the Amazon, Brazil. PLoS One. 2016; 11(7): 1-8.
  • 22
    Dixon BR. Giardia duodenalis in humans and animals - Transmission and disease. Res Vet Sci. 2021; 135: 283-9.
  • 23
    Moraes-Barros N, Giorgi AP, Silva S, Morgante JS. Reevaluation of the geographical distribution of Bradypus tridactylus Linnaeus, 1758 and B. variegatus Schinz, 1825. Edentata. 2010; 11(1): 53-61.
  • 24
    Superina M, Plese T, Moraes-Barros N, Abba AM. The 2010 sloth red list assessment. Edentata. 2010; 12(2): 115-34.
  • 25
    Smith LH, Ruple A. Idly infected: a review of infectious agents in populations of two-and three-toed sloths (Choloepus species and Bradypus species). J Zoo Wildl Med. 2021; 51(4): 789-98.
  • 26
    Leles D, Cascardo P, Pucu E, Brener B, Sudré A, Alves E, et al. Methodological innovations for the study of irreplaceable samples reveal giardiasis in extinct animals (Nothrotherium maquinense and Palaeolama maior). Parasitol Int. 2018; 67(6): 776-80.

Publication Dates

  • Publication in this collection
    13 Nov 2023
  • Date of issue
    2023

History

  • Received
    18 May 2023
  • Accepted
    20 Oct 2023
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