Chilomastix
Chilomastix is a genus of pyriform excavates within the family Retortamonadidae[1] All species within this genus are flagellated, structured with three flagella pointing anteriorly and a fourth contained within the feeding groove.[1] Chilomastix also lacks Golgi apparatus and mitochondria but does possess a single nucleus.[1] The genus parasitizes a wide range of vertebrate hosts, but is known to be typically non-pathogenic, and is therefore classified as harmless.[2][3] The life cycle of Chilomastix lacks an intermediate host or vector.[4] Chilomastix has a resistant cyst stage responsible for transmission and a trophozoite stage, which is recognized as the feeding stage. Chilomastix mesnili is one of the more studied species in this genus due to the fact it is a human parasite. Therefore, much of the information on this genus is based on what is known about this one species.
Chilomastix | |
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Electron micrograph of Chilomastix cuspidata. The "9+2" axoneme and the enclosing membrane can be seen, the flagellum has two vanes. | |
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Class: | Retortamonadea |
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Genus: | Chilomastix Aléxéieff, 1910 |
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History of knowledge
The nomenclature of this genus has been under much dispute throughout history, switching between many different taxonomic names. The first known report of this genus was in 1854 when patients in Paris showed infection by a parasitic flagellate.[5] The human parasite was classified under the name of Cercomonas hominis var. 1 by Davaine (1854).[6] In 1910, it was reclassified as its own species and named Macrostoma mesnili by Charles Morley Wenyon, an English protozoologist.[5] It was again renamed to Chilomastix davainei (syn. Chilomastix mesnili) in 1920 by Kofoid.[5] The origin of the name Chilomastix however, was before 1920. The initial proposal of Chilomastix being its own genus was urged by Alexeieffe in 1912 who was the first to thoroughly describe a species belonging to this genus.[5] Although he initially called it Tetramitus caulleryi in 1910, he then referred it is as its own genus, Chilomastix in 1912.[5]
Habitat and ecology
Geographical distribution
Chilomastix has a worldwide distribution; Chilomastix mesnili is considered a cosmopolitan species, having been found in marine, freshwater and brackish waters.[7] This genus, however, is more prevalent in warmer climates.[3]
Life cycle
The life cycle is direct, requiring no intermediate host or vector.[4] Chilomastix exists as a cyst stage that is responsible for transmission and a trophozoite stage which is also known as the feeding stage. Transmission occurs via the fecal-oral route when water contaminated with feces that contain Chilomastix cysts is ingested.[4] The uptake of cysts by the host leads to the excystation of one trophozoite per cyst, which then multiply via binary fission and reside within the intestine of the host.[4] Trophozoites feed on the host’s intestinal contents such as bacteria through endocytosis.[11] Once the intestinal contents begin to dry out, the trophozoites then release a cyst wall through the process of encystation. Cysts are resistant and do not require feeding to survive, thus once the food source begins to run out, stimulation of encystation occurs. Both trophozoites and cysts are passed in the feces but only cysts can survive outside of the host and are therefore the stage of infection.[4] When exposed to the external environment, the trophozoites disintegrate while the cysts remain living in bodies of water until they are again taken up by the next host, continuing the cycle of transmission.[4]
Feeding Mechanisms
Within the intestine of the host, Chilomastix trophozoites feed via endocytosis.[12] This brings the particles into the cell and stimulates the formation of a food vacuole. Chilomastix often feeds on bacteria living inside the gut of the host.[1] The cytosomal flagellum aids in bringing intestinal bacteria closer towards the cell, allowing the membrane to wrap around the food particle and pinch off to form a food vacuole within the cell body.[1][12] The cyst stage is non-feeding.
Pathogenesis
Chilomastix species are generally regarded as harmless gut commensals and are non-pathogenic.[3] They are typically asymptomatic as severity of infection is usually no higher than seen in Chilomastix mesnili and C. gallinarum, known to cause watery diarrhea.[3][13]
Diagnosis
Chilomastix species are often transmitted along with other intestinal parasites, many of which are pathogenic and do cause diseases such as Giardia lamblia and Balantidium coli.[14] This commonly causes confusion during diagnosis. Diagnosis is made upon finding one or both cyst and trophozoite forms in feces samples of an infected patient.
Treatment
Due to the non-pathogenic nature of this taxon, no treatments are required except to relieve the discomfort of the diarrhea in extreme cases.[3] If the infected patient is showing other symptoms of disease, it is most likely due to the presence of another parasitic pathogen and further testing should be done.
Morphology and anatomy
Chilomastix cells are not bilaterally symmetrical and lack mitochondria, an axostyle, Golgi apparatus, and an undulating membrane.[15]
Trophozoites
Trophozoites of Chilomastix have been described as pyriform, lemon-shaped or pear-shaped in various species with a rounded anterior and an elongated posterior end that comes to a point.[1][2] Four flagella are present in all species; three flagella extend anteriorly and move freely, while the fourth flagellum is located within the feeding groove that acts as the cell mouth.[1] This fourth, posteriorly orientated flagellum is vaned, due to the presence of two wing-like structures that extend from it.[11] The feeding groove and fourth flagellum are positioned in the anterior region of the body and work together, involved in the function of endocytosis, enabling the movement of food particles towards the feeding groove.[1] The flagella possess the 9+2 structure, common in flagellated eukaryotes. A single distinct nucleus is in the very anterior region of the body near the cytoplasm.[2]
Cysts
Cysts are lemon or pear shaped, typically rounder and smaller than the trophozoite.[1][4] One end of the cyst cell is rounded while the other end has a slight, blunt protuberance.[1] The cyst wall is of even thickness except in the region of the protuberance where it is even thicker.[1] Organelles found in the trophozoite, including the nucleus and cytostome, remain in the cyst stage and are usually viewable when stained under the microscope.[15] While the vaned flagellum is present in the cyst stage, the three free anterior flagella are not, thus making the cyst non-motile.[4]
References
- Boeck, William C. (1 February 1921). "Chilomastix mesnili and a method for its culture". The Journal of Experimental Medicine. 33 (2): 147–175. doi:10.1084/jem.33.2.147. PMC 2128178. PMID 19868485.
- Adamson, Martin (September 8, 2004). "Unicellular Parasites" (PDF). Introductory Parasitology, Biol 328. pp. 1–2.
- Barnham, M. (November 1977). "Is Chilomastix harmless?". The Lancet. 310 (8047): 1077–1078. doi:10.1016/S0140-6736(77)91911-0.
- Brooke, Marion Murphy; Melvin, Dorothy M. (April 1964). Common intestinal protozoa of man: life cycle charts (Report).
- Leiva, Lamberto (December 1921). "Observations on Chilomastix intestinalis Kuczinski". The Journal of Parasitology. 8 (2): 49–57. doi:10.2307/3270749. JSTOR 3270749.
- Hegner, Robert W. (1924). "Giardia and Chilomastix from Monkeys, Giardia from the Wild Cat and Balantidium from the Sheep". The Journal of Parasitology. 11 (2): 75–78. doi:10.2307/3270864. JSTOR 3270864.
- Bernard, Catherine; Simpson, Alastair G.B.; Patterson, David J. (August 1997). "An ultrastructural study of a free-living retortamonad, Chilomastix cuspidata (Larsen & Patterson, 1990) n. comb. (Retortamonadida, Protista)". European Journal of Protistology. 33 (3): 254–265. doi:10.1016/S0932-4739(97)80003-X.
- Levecke, Bruno; Dorny, Pierre; Geurden, Thomas; Vercammen, Francis; Vercruysse, Jozef (September 2007). "Gastrointestinal protozoa in non-human primates of four zoological gardens in Belgium". Veterinary Parasitology. 148 (3–4): 236–246. doi:10.1016/j.vetpar.2007.06.020. hdl:1854/LU-381836.
- Ponce Gordo, F; Herrera, S; Castro, A.T; Garcı́a Durán, B; Martı́nez Dı́az, R.A (July 2002). "Parasites from farmed ostriches (Struthio camelus) and rheas (Rhea americana) in Europe". Veterinary Parasitology. 107 (1–2): 137–160. doi:10.1016/S0304-4017(02)00104-8. PMID 12072221.
- Hendarto, Joko; Mizuno, Tetsushi; Hidayati, Anggi P.N.; Rozi, Ismail E.; Asih, Puji B.S.; Syafruddin, Din; Yoshikawa, Hisao; Matsubayashi, Makoto; Tokoro, Masaharu (April 2019). "Three monophyletic clusters in Retortamonas species isolated from vertebrates". Parasitology International. 69: 93–98. doi:10.1016/j.parint.2018.12.004.
- Brugerolle, Guy (November 1973). "Etude Ultrastructurale du Trophozoite et du Kyste chez le Genre Chilomastix Alexeieff, 1910 (Zoomastigophorea, Retortamonadida Grassé, 1952)" [Ultrastructural study of the Trophozoite and the Cyst in the Genus Chilomastix Alexeieff, 1910 (Zoomastigophorea, Retortamonadida Grasse, 1952)]. The Journal of Protozoology (in French). 20 (5): 574–585. doi:10.1111/j.1550-7408.1973.tb03577.x.
- Martin, Elizabeth; Hine, Robert (2015). "Endocytosis". A Dictionary of Biology. Oxford University Press. ISBN 978-0-19-871437-8.
- Kulda, Jaroslav; Nohýnková, Eva; Čepička, Ivan (2017). "Retortamonadida (With Notes on Carpediemonas-Like Organisms and Caviomonadidae)". Handbook of the Protists. pp. 1247–1278. doi:10.1007/978-3-319-28149-0_3. ISBN 978-3-319-28147-6.
- Cancrini, G; Bartoloni, A; Nuñez, L; Paradisi, F (1988). "Intestinal parasites in the Camiri, Gutierrez and Boyuibe areas, Santa Cruz Department, Bolivia". Parassitologia. 30 (2–3): 263–9. PMID 3271990.
- Singleton, Paul; Sainsbury, Diana (2006). Dictionary of Microbiology and Molecular Biology. John Wiley & Sons, Ltd. ISBN 978-0-470-05698-1.
External links
- "Chilomastix mesnili". Fun With Microbiology (What's Buggin' You?). 18 April 2014.
- "Chilomastix mesnili". The Korean Society for Parasitology.