Leukocytozoon

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Leukocytozoon is a genus of parasitic protozoa belonging to the phylum Apicomplexia. The parasites were first seen by Danilewsky in 1884. The genus was created by Ziemann in 1898. This taxon was revised by Berestneff in 1904 and then by Sambon in 1908.

The species of this genus use blackflies (Simulium species) as their definitive host and birds as their intermediate host. There are over 100 species in this genus. Over 100 species of birds have been recorded as hosts to these parasites.


Leukocytozoon
Leukocytozoon smithi in a stained blood smear from a turkey
Leukocytozoon smithi in a stained blood smear from a turkey
Scientific classification
Domain: Eukaryota
(unranked) Alveolata
Phylum: Apicomplexa
Class: Aconoidasida
Order: Haemosporida
Family: Plasmodiidae
Genus: Leukocytozoon
Species

Leukocytozoon acridotheris
Leukocytozoon alcedinis
Leukocytozoon alcedis
Leukocytozoon anatis
Leukocytozoon andrewsi
Leukocytozoon anellobiae
Leukocytozoon apiaster
Leukocytozoon ardeolae
Leucocytozoon artamidis
Leucocytozoon anseris
Leukocytozoon atkinsoni
Leukocytozoon balmorali
Leukocytozoon beaurepairei
Leukocytozoon bennetti
Leukocytozoon berestneffi
Leukocytozoon bishopae
Leukocytozoon bishopi
Leukocytozoon bisi
Leukocytozoon bonasae
Leukocytozoon bouffardi
Leucocytozoon brimonti
Leukocytozoon bucerotis
Leukocytozoon cambournaci
Leukocytozoon capitonis
Leukocytozoon caprimulgi
Leukocytozoon caulleryi
Leukocytozoon centropi
Leukocytozoon chloropsidis
Leukocytozoon coccyzus
Leukocytozoon colius
Leukocytozoon communis
Leukocytozoon coraciae
Leukocytozoon costai
Leukocytozoon dacelo
Leukocytozoon danewskyi
Leukocytozoon debreuili
Leukocytozoon deswardti
Leukocytozoon dinizi
Leukocytozoon dubreuili
Leukocytozoon dubreuili
Leukocytozoon dutoiti
Leukocytozoon enriquesi
Leukocytozoon eurystomi
Leukocytozoon francae
Leukocytozoon francai
Leukocytozoon francolini
Leukocytozoon frascai
Leukocytozoon fringillinarum
Leukocytozoon galli
Leukocytozoon gallinarum
Leukocytozoon gentili
Leukocytozoon giovannolai
Leukocytozoon greineri
Leukocytozoon grusi
Leukocytozoon hamiltoni
Leukocytozoon huchzermeyeri
Leukocytozoon ibisi
Leukocytozoon icteris
Leukocytozoon iowense
Leukocytozoon irenae
Leukocytozoon jakamowi
Leukocytozoon kerandeli
Leukocytozoon lairdi
Leukocytozoon lanium
Leukocytozoon laverani
Leukocytozoon leboeufi
Leukocytozoon leitaoi
Leukocytozoon liothricis
Leukocytozoon lovati
Leukocytozoon maccluri
Leukocytozoon macleani
Leukocytozoon major
Leukocytozoon majoris
Leukocytozoon mansoni
Leukocytozoon marchouxi
Leukocytozoon martini
Leukocytozoon mathisi
Leukocytozoon mcclurei
Leukocytozoon melloi
Leukocytozoon mesnili
Leukocytozoon molpastis
Leukocytozoon muscicapa
Leukocytozoon mutus
Leukocytozoon neavei
Leukocytozoon nectariniae
Leukocytozoon numidae
Leukocytozoon oriolis
Leukocytozoon otidis
Leukocytozoon pittae
Leukocytozoon pogoniuli
Leukocytozoon rimondi
Leucocytozoon roubaudi
Leukocytozoon sabrezi
Leukocytozoon sakharoffi
Leukocytozoon schoutedeni
Leukocytozoon schuffneri
Leukocytozoon simondi
Leukocytozoon struthionis
Leukocytozoon smithi
Leukocytozoon squamatus
Leukocytozoon sunibdu
Leukocytozoon tawaki
Leukocytozoon timaliae
Leukocytozoon toddi
Leucocytozoon trachyphoni
Leukocytozoon whitworthi
Leukocytozoon ziemanni

Contents

[edit] Life cycle

Sporozoites are found in the salivary glands of an infected Simulium fly and are transmitted to the bird when the fly bites the bird to feed on its blood. The injected sporozoites find their way to the liver where they infect hepatocytes and develop initially into trophozoites and subsequently into schizonts. These schizonts divide into merozoites after 4-6 days. The duration of this stage depends in part upon the species.

The newly released merozoites infect either erythrocytes, leukocytes, macrophages or endothelial cells. Those infecting the macrophages or endothelial cells develop into megaloschizonts. The megaloschizonts divide into primary cytomeres, which in turn multiply into smaller cytomeres, which mature into schizonts, which in turn divide into merozoites.

In erythrocytes or leukocytes, merozoites develop into gametocytes.

If a non-infected fly feeds on an infected bird at this point they will ingest the gametocytes.

The gametocytes mature in the insect midgut into macrogametocytes (female) and microgametocytes (male) which fuse to form an ookinete.

The ookinete penetrates an intestinal cell of the fly and matures into an oocyst. After several days the oocyst produces sporozoites that leave and migrate to the salivary glands of the fly.

[edit] Diagnostic criteria

Form gamonts in white blood cells and/or erythrocytes. No merogony occurs in either leucocytes or erythrocytes.

Merogony occurs in the parenchyma of liver, heart, kidney, or other organs. Meronts may form large bodies divided into cytomeres.

Hemozoin deposits are not formed.

Oocysts develop rapidly in 3 - 5 days. The oocysts are small and nonexpanding, reaching 13 micrometres in diameter and typically have less than 100 short, thick sporozoites.

The vectors are Simulium or Culicoides species.

The vertebrate hosts are birds.

Type species: Leucocytozoon ziemanni

[edit] Pathology

The typical pathology of infection with these parasites includes anaemia and enlargement of the liver and spleen. Gross lesions also include pulmonary congestion and pericardial effusion.

Megaloschizonts appear as grey-white nodules found in the heart, liver, lung or spleen. Microscopically there is ischemic necrosis and associated inflammation in the heart, brain, spleen and liver due to occulsion of blood vessels by megaloschizonts in endothelial cells. Ruptured schizonts may induce granulomatous reactions in the surrounding tissues.

Clinically the majority of birds affected with leucocytozoonosis exhibit no signs. Among those that do the signs include mild to severe signs of anorexia, ataxia, weakness, anemia, emaciation and difficulty breathing.

The excess mortality due to Leukocytozoon in adult birds seems to occur as a result of debilitation and increased susceptibility to secondary infection.

[edit] Host range

Bird hosts

Simulium hosts

  • L. bonasae - Simulium aureum and Simulium latipes
  • L. simondi - Simulium rugglesi

[edit] Notes

Like many protist species and genera this genus is subject to ongoing revision especially in the light of DNA based taxonomy. Described species may be subject to revision.

L. caulleryi is spread by biting midges of the genus Ceratopogonidae and is now (2007) considered to belong not to this genus but to the genus Akiba.

The species L. galli is open to some doubt.

L. andrewsi and L. schoutedeni are considered to be synonyms.

L. francolini, L. kerandeli, L. martini, L. mesnili, L. sabrazesi and L. schuffneri are considered to be synonyms of L. macleani.

L. costai and L. numidae are considered to be synonyms of L. neavei.

L. bonasae, L. jakamowi and L. mansoni are considered to be synonyms of L. lovati.

L. toddi seems likely to be a cryptic species complex.

L. brimonti is considered to be a synonym of L. fringillinarum.

[edit] External links

  • Vetinary notes [1]
  • Illustrated life cycle [2]
  • Black fly image [3]
  • Leukocyozoon in thrombocyte [4]
  • Leukocyotozoon image [5]
  • Leukoctozoon image [6]
  • Leukoctyozoon - elongate forms [7]
  • Megaloschizont in lung [8]
  • Gametocyte images [9]

[edit] References