Giardia

Giardia
Giardia trophozoite, SEM
Scientific classification Edit this classification
Domain: Eukaryota
Phylum: Metamonada
Order: Diplomonadida
Family: Hexamitidae
Subfamily: Giardiinae
Genus: Giardia
Künstler, 1882[1]
Species
Synonyms
  • Lamblia R. Blanchard, 1888[2]

Giardia (/ˈɑːrdiə/ or /ˈɑːrdiə/) is a genus of anaerobic flagellated protozoan parasites of the phylum Metamonada that colonise and reproduce in the small intestines of several vertebrates, causing the disease giardiasis. Their life cycle alternates between a swimming trophozoite and an infective, resistant cyst. Giardia were first seen by the Dutch microscopist Antonie van Leeuwenhoek in 1681.[3] The genus is named after French zoologist Alfred Mathieu Giard.[4]

Characteristics

[edit]

Like other diplomonads, Giardia have two nuclei, each with four associated flagella, and were thought to lack both mitochondria and Golgi apparatuses. However, they are now known to possess a complex endomembrane system as well as mitochondrial remnants, called mitosomes, through mitochondrial reduction.[5][6][7][8] The mitosomes are not used in ATP synthesis the way mitochondria are, but are involved in the maturation of iron-sulfur proteins.[9] The synapomorphies of genus Giardia include cells with duplicate organelles, absence of cytostomes, and ventral adhesive disc.[10]

Systematics

[edit]

About 40 species have been described, but most of them are probably synonyms.[11] Currently, five to six morphologically distinct species are recognised.[12] Giardia duodenalis (=G. intestinalis, =G. lamblia) infect humans and other mammals, G. microti infects voles, G. muris is found in other mammals, G. ardeae and G. psittaci in birds, and G. agilis in amphibians.[4] Other described (but not certainly valid), species include:[13]

Real-time polymerase chain reaction (PCR) tests have been developed to detect specific species of Giardia. Gene probe can also used to differentiate between species of Giardia. A more common and less time-consuming means of identifying different species of Giardia includes microscopy and immunofluorescence techniques.[14]

Genetic and biochemical studies have revealed the heterogeneity of Giardia duodenalis, which contains probably at least eight lineages or cryptic species.[15]

Phylogeny

[edit]

The phylogeny of Giardia is unclear, but two main theories exist. Firstly, Giardia may be extremely primitive eukaryotes that branched off early from other members of their group. This theory is supported by several features: their lack of complete mitochondria (see Characteristics) and other organelles, their primitive metabolic pathways, and their position on a phylogenetic tree.[16] However, many of these differences have been refuted in recent years, and many researchers are supporting a second theory: that Giardia are highly evolved parasites, which have lost ancestral characteristics.[17]

Genome

[edit]

A Giardia isolate (WB) was the first diplomonad to have its genome sequenced. Its 11.7 million basepair genome is compact in structure and content with simplified basic cellular machineries and metabolism. Currently the genomes of several other Giardia isolates and diplomonads (the fish pathogens Spironucleus vortens and S. salmonicida) are being sequenced.[18]

A second isolate (the B assemblage) from humans has been sequenced along with a species from a pig (the E assemblage).[19] There are ~5000 genes in the genome. The E assemblage is more closely related to the A assemblage than is the B. A number of chromosomal rearrangements are present.

Infection

[edit]
An SEM micrograph of the small intestine of a gerbil infested with Giardia reveals a mucosa surface almost entirely obscured by attached trophozoites

Giardia lives in the intestines of infected humans or other animals, individuals of which become infected by ingesting or coming into contact with contaminated foods, soil, or water tainted by the feces of an infected carrier.[20]

The symptoms of Giardia, which may begin to appear 2 days after infection, can include mild to violent diarrhoea, excess gas, stomach or abdominal cramps, upset stomach, and nausea. Resulting dehydration and nutritional loss may need immediate treatment. A typical infection can be slight, resolve without treatment, and last between 2 and 6 weeks, although it can sometimes last longer and/or be more severe. Coexistence with the parasite is possible (symptoms fade), but an infected individual can remain a carrier and transmit it to others. Medication containing tinidazole or metronidazole decreases symptoms and time to resolution. Albendazole is also used, and has an anthelmintic (anti-worm) property as well, ideal for certain compounded issues when a general vermicidal agent is preferred. Giardia causes a disease called giardiasis, which causes the villi of the small intestine to atrophy and flatten, resulting in malabsorption in the intestine. Lactose intolerance can persist after the eradication of Giardia from the digestive tract.[21]

Prevalence

[edit]

The prevalence of the infection depends on different factors; while the prevalence is estimated around 2% in some developed countries, in other countries from Asia, Africa or Latin America, the prevalence can be estimated between 20% and 40%. In some patients, giardiasis can be completely asymptomatic, so many more cases are estimated.[22] The diagnostic method used can also infer in the identification and thus the count of cases. Due to their lack of knowledge and overall behavioral patterns, children aged under 5 years, are the population with the most reported infections.[23]

See also

[edit]

References

[edit]
  1. ^ Künstler, J. (1882). "Sur cinq protozoaires parasites nouveaux". C. R. Acad. Sci. Paris. 95: 347–349.
  2. ^ Blanchard, R. (1888). "Remarques sur le megastome intestinal". Bull. Soc. Zool. Fr. 30: 18–19.
  3. ^ Stanley L. Erlandsen, Ernest A. Meyer (1 March 1984). Giardia and Giardiasis: Biology, Pathogenesis, and Epidemiology. Springer. pp. 131–. ISBN 978-0-306-41539-5.
  4. ^ a b Adam RD (July 2001). "Biology of Giardia lamblia". Clin. Microbiol. Rev. 14 (3): 447–75. doi:10.1128/CMR.14.3.447-475.2001. PMC 88984. PMID 11432808.
  5. ^ Tovar J, León-Avila G, Sánchez L, Sutak R, Tachezy J, van der Giezen M, Hernández M, Müller M, Lucocq J (2003). "Mitochondrial remnant organelles of Giardia function in iron-sulphur protein maturation". Nature. 426 (6963): 172–176. Bibcode:2003Natur.426..172T. doi:10.1038/nature01945. PMID 14614504. S2CID 4402808.
  6. ^ Anna Karnkowska, et al. (May 2016). "A Eukaryote without a Mitochondrial Organelle". Current Biology. 26 (10): 1274–1284. Bibcode:2016CBio...26.1274K. doi:10.1016/j.cub.2016.03.053. PMID 27185558.
  7. ^ Soltys BJ, Falah M, Gupta RS (July 1996). "Identification of endoplasmic reticulum in the primitive eukaryote Giardia lamblia using cryoelectron microscopy and antibody to Bip". J. Cell Sci. 109 (Pt 7): 1909–17. doi:10.1242/jcs.109.7.1909. PMID 8832413.
  8. ^ Dolezal P, Smíd O, Rada P, et al. (August 2005). "Giardia mitosomes and trichomonad hydrogenosomes share a common mode of protein targeting". Proc. Natl. Acad. Sci. U.S.A. 102 (31): 10924–9. Bibcode:2005PNAS..10210924D. doi:10.1073/pnas.0500349102. PMC 1182405. PMID 16040811.
  9. ^ Tovar J, et al. (2003). "Mitochondrial remnant organelles of Giardia function in iron-sulphur protein maturation". Nature. 426 (6963): 172–6. Bibcode:2003Natur.426..172T. doi:10.1038/nature01945. PMID 14614504. S2CID 4402808.
  10. ^ Cepicka I (September 2008). "Fornicata". Tree of Life Web Project.
  11. ^ Meyer E.A., Radulescu S. (1979). "Giardia and Giardiasis". Advances in Parasitology. 17: 1–47. doi:10.1016/S0065-308X(08)60548-5. ISBN 978-0-12-031717-2. PMID 395833.
  12. ^ Brusca R, Brusca G (2003). Invertebrates (2 ed.). Sinauer Associates. ISBN 0-87893-097-3.
  13. ^ "Giardia Kunstler". Tree of Life Web Project. September 2008.
  14. ^ Mahbubani 1992
  15. ^ Thompson RC, Monis PT (2004). "Variation in Giardia: implications for taxonomy and epidemiology". Advances in Parasitology. 58: 69–137. doi:10.1016/S0065-308X(04)58002-8. ISBN 978-0-12-031758-5. PMID 15603762.
  16. ^ Ye Q, Tian H, Chen B, Shao J, Qin Y, Wen J (25 August 2017). "Giardia's primitive GPL biosynthesis pathways with parasitic adaptation 'patches': implications for Giardia's evolutionary history and for finding targets against Giardiasis". Scientific Reports. 7 (1): 9507. Bibcode:2017NatSR...7.9507Y. doi:10.1038/s41598-017-10054-1. ISSN 2045-2322. PMC 5573378. PMID 28842650.
  17. ^ Lloyd D, Harris JC (1 March 2002). "Giardia: highly evolved parasite or early branching eukaryote?". Trends in Microbiology. 10 (3): 122–127. doi:10.1016/S0966-842X(02)02306-5. ISSN 0966-842X. PMID 11864821.
  18. ^ Andersson, JO, et al. (2010). "The Genome of Giardia and Other Diplomonads". Anaerobic Parasitic Protozoa: Genomics and Molecular Biology. Caister Academic Press. ISBN 978-1-904455-61-5.
  19. ^ Jerlström-Hultqvist J, Ankarklev J, Svärd SG (2010). "Is human giardiasis caused by two different Giardia species?". Gut Microbes. 1 (6): 379–82. doi:10.4161/gmic.1.6.13608. PMC 3056102. PMID 21468219.
  20. ^ Filice, F.P. (1952). "Studies on the cytology and life history of a Giardia from the laboratory rat". U. C. Publications in Zoology. 5sex7 (2). Berkeley CA: University of California Press.
  21. ^ LaCour 2003
  22. ^ Hörman A, Korpela H, Wedel H, Sutinen J, Hanninen M (2004). "Meta-analysis in assessment of the prevalence and annual incidence of Giardia spp. and Cryptosporidium spp. infections in humnas in the Nordic countries". Int J Parasitol. 34 (12): 1337–1346. doi:10.1016/j.ijpara.2004.08.009. PMID 15542094.
  23. ^ Savioli L, Smith H, Thompson A (2006). "Giardia and Cryptosporidium join the "Neglected Diseases Initiative"". Trends Parasitol. 22 (5): 160–167. doi:10.1016/j.pt.2006.02.015. PMID 16545611.
[edit]