Haematozoa

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Hematozoa is a subclass of blood parasites of the Apicomplexa clade. Well known examples include the Plasmodium spp. which cause malaria in humans and Theileria which causes theileriosis in cattle. A large number of species are known to infect birds and are transmitted by insect vectors. [1] The pattern in which Haematozoa infect a host cell depends on the genera of the blood parasite. Plasmodium and Leucozytozoon displace the nucleus of the host cell so that the parasite can take control of the cell where as Hemoproteus completely envelops the nucleus in a host cell. [2]

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Infections of haematozoa can have adverse fitness effects on certain species. Species that have been isolated or have not been exposed to the infection have been found to be especially vulnerable to pathogenic effects. The infection effects can persist in avian host species through long-distance migrations.

Blood parasites that have been studied were found to be transmitted by hematophagous (bloodsucking) dipteran (insect) vectors that have life stages in both aquatic and aerial environments. [3]

Plasmodium

Plasmodium in erythrocytic cycle Plasmodium in erythrocytic cycle.jpg
Plasmodium in erythrocytic cycle

Plasmodium , a genus consisting of over 170 species, infects mammals, reptiles, birds, and amphibians. Blood parasites of the Plasmodium genus cause malaria, which most commonly infect vertebrates with only four strains known to infect humans. [2] Species of blood parasites that infect humans include Plasmodium falciparum, Plasmodium vivax, Plasmodiun ovale, and Plasmodium malariae. The parasites are transmitted through malaria infected mosquitos which inject sporozoites, the parasite's infective cells, into human hosts. When injected, sporozoites migrate to the liver where they replicate and rupture to increase the spread of the parasitic infection inside the host. [2] The study of Plasmodium parasites has been significant in serving the role as a model organism for human malaria research. Similarities in pathological effects of parasites on avian hosts have been found in parasites infected with malaria in humans by transmission of mosquito bites. [2]

Theileria

Theileria is a haematozoan parasite, mainly found in coastal areas, that is transmitted by Haemaphysalis longicornis ticks that emerged from the Eastern hemisphere. [4] Cases of Theileria orientalis were recently found in the Eastern United States in 2017 where cattle in Virginia presented symptoms concurrent with the parasite. However, further investigation identified the tick to be prevalent in the United States as early as 2010, with eight other states along the coast detecting this parasite. The Theileria orientalis parasite, like other haematozoa, infect erythrocytes, causing chronic anemia resulting in illness and death of cattle. Infections by the tick parasite induce symptoms such as anemia, jaundice, and anorexia in cattle. [5] Cattle imported from prevalent Theileria orientalis areas are often quarantined from a naïve herd to prevent the spread of the parasite to susceptible cattle. Identification of Theileria orientalis is achieved by the sequencing of blood samples to identify two key features of the parasite, a small ribosomal subunit and a major piroplasm surface protein. [4]

Avian infections

Avian haemosporidians include the Plasmodium, Haemoproteus, and Leucocytozoon genera. Avian species can have mixed infections in which multiple genera of haemosporidians are involved, which provides additional challenges in identification of the haemosporidian. Avian haemosporidians are expressed globally with the exception of polar regions. They are mainly found in wet tropical climates, which provide easy transmission of haematozoan infections. Avian species serve adequate hosts that transmit haematozoa during migratory periods, which increases fitness of the parasite. [6] Avian species that exist in large flocks, such as Waterfowl, are adequate hosts and easily transmit the infection due to close proximity in flocks. Symptoms of avian haemosporidians include anemia, weight loss, and mortality. [7] Haemosporidian parasites are detected by highly sensitive and specific PCR techniques as well as microscopic examination. [7] The parasites are important to understand the infections and strategies to prevent further transmission of the parasite.

See also

Related Research Articles

<span class="mw-page-title-main">Apicomplexa</span> Phylum of parasitic alveolates

The Apicomplexa are a large phylum of mainly parasitic alveolates. Most of them possess a unique form of organelle that comprises a type of non-photosynthetic plastid called an apicoplast, and an apical complex structure. The organelle is an adaptation that the apicomplexan applies in penetration of a host cell.

<i>Plasmodium</i> Genus of parasitic protists that can cause malaria

Plasmodium is a genus of unicellular eukaryotes that are obligate parasites of vertebrates and insects. The life cycles of Plasmodium species involve development in a blood-feeding insect host which then injects parasites into a vertebrate host during a blood meal. Parasites grow within a vertebrate body tissue before entering the bloodstream to infect red blood cells. The ensuing destruction of host red blood cells can result in malaria. During this infection, some parasites are picked up by a blood-feeding insect, continuing the life cycle.

<span class="mw-page-title-main">Babesiosis</span> Malaria-like parasitic disease caused by infection with the alveoate Babesia or Theileria

Babesiosis or piroplasmosis is a malaria-like parasitic disease caused by infection with a eukaryotic parasite in the order Piroplasmida, typically a Babesia or Theileria, in the phylum Apicomplexa. Human babesiosis transmission via tick bite is most common in the Northeastern and Midwestern United States and parts of Europe, and sporadic throughout the rest of the world. It occurs in warm weather. People can get infected with Babesia parasites by the bite of an infected tick, by getting a blood transfusion from an infected donor of blood products, or by congenital transmission . Ticks transmit the human strain of babesiosis, so it often presents with other tick-borne illnesses such as Lyme disease. After trypanosomes, Babesia is thought to be the second-most common blood parasite of mammals. They can have major adverse effects on the health of domestic animals in areas without severe winters. In cattle the disease is known as Texas cattle fever or redwater.

<i>Plasmodium falciparum</i> Protozoan species of malaria parasite

Plasmodium falciparum is a unicellular protozoan parasite of humans, and the deadliest species of Plasmodium that causes malaria in humans. The parasite is transmitted through the bite of a female Anopheles mosquito and causes the disease's most dangerous form, falciparum malaria. It is responsible for around 50% of all malaria cases. P. falciparum is therefore regarded as the deadliest parasite in humans. It is also associated with the development of blood cancer and is classified as a Group 2A (probable) carcinogen.

<i>Plasmodium ovale</i> Species of single-celled organism

Plasmodium ovale is a species of parasitic protozoon that causes tertian malaria in humans. It is one of several species of Plasmodium parasites that infect humans, including Plasmodium falciparum and Plasmodium vivax which are responsible for most cases of malaria in the world. P. ovale is rare compared to these two parasites, and substantially less dangerous than P. falciparum.

<i>Plasmodium gallinaceum</i> Bird malaria, including chicken

Plasmodium gallinaceum is a species of the genus Plasmodium that causes malaria in poultry.

<i>Plasmodium knowlesi</i> Species of single-celled organism

Plasmodium knowlesi is a parasite that causes malaria in humans and other primates. It is found throughout Southeast Asia, and is the most common cause of human malaria in Malaysia. Like other Plasmodium species, P. knowlesi has a life cycle that requires infection of both a mosquito and a warm-blooded host. While the natural warm-blooded hosts of P. knowlesi are likely various Old World monkeys, humans can be infected by P. knowlesi if they are fed upon by infected mosquitoes. P. knowlesi is a eukaryote in the phylum Apicomplexa, genus Plasmodium, and subgenus Plasmodium. It is most closely related to the human parasite Plasmodium vivax as well as other Plasmodium species that infect non-human primates.

<i>Babesia</i> Genus of protozoan parasites

Babesia, also called Nuttallia, is an apicomplexan parasite that infects red blood cells and is transmitted by ticks. Originally discovered by the Romanian bacteriologist Victor Babeș in 1888, over 100 species of Babesia have since been identified.

Plasmodium yoelii is a parasite of the genus Plasmodium subgenus Vinckeia. As in all Plasmodium species, P. yoelii has both vertebrate and insect hosts. The vertebrate hosts for this parasite are mammals.

<i>Leucocytozoon</i> Genus of protists

Leucocytozoon is a genus of parasitic alveolates belonging to the phylum Apicomplexa.

<i>Theileria</i> Genus of single-celled organisms

Theileria is a genus of parasites that belongs to the phylum Apicomplexa, and is closely related to Plasmodium. Two Theileria species, T. annulata and T. parva, are important cattle parasites. T. annulata causes tropical theileriosis and T. parva causes East Coast fever. Theileria species are transmitted by ticks. The genomes of T. orientalis Shintoku, Theileria equi WA, Theileria annulata Ankara and Theileria parva Muguga have been sequenced and published.

<span class="mw-page-title-main">Avian malaria</span> Parasitic disease of birds

Avian malaria is a parasitic disease of birds, caused by parasite species belonging to the genera Plasmodium and Hemoproteus. The disease is transmitted by a dipteran vector including mosquitoes in the case of Plasmodium parasites and biting midges for Hemoproteus. The range of symptoms and effects of the parasite on its bird hosts is very wide, from asymptomatic cases to drastic population declines due to the disease, as is the case of the Hawaiian honeycreepers. The diversity of parasites is large, as it is estimated that there are approximately as many parasites as there are species of hosts. Co-speciation and host switching events have contributed to the broad range of hosts that these parasites can infect, causing avian malaria to be a widespread global disease, found everywhere except Antarctica.

<i>Babesia microti</i> Species of parasitic protist in the Apicomplexa phylum

Babesia microti is a parasitic blood-borne piroplasm transmitted by deer ticks. B. microti is responsible for the disease babesiosis, a malaria-like disease which also causes fever and hemolysis.

<i>Haemoproteus</i> Genus of single-celled organisms

Haemoproteus is a genus of alveolates that are parasitic in birds, reptiles and amphibians. Its name is derived from Greek: Haima, "blood", and Proteus, a sea god who had the power of assuming different shapes. The name Haemoproteus was first used in the description of H. columbae in the blood of the pigeon Columba livia by Kruse in 1890. This was also the first description of this genus. Two other genera — Halteridium and Simondia — are now considered to be synonyms of Haemoproteus.

<span class="mw-page-title-main">Apicomplexan life cycle</span> Apicomplexa life cycle

Apicomplexans, a group of intracellular parasites, have life cycle stages that allow them to survive the wide variety of environments they are exposed to during their complex life cycle. Each stage in the life cycle of an apicomplexan organism is typified by a cellular variety with a distinct morphology and biochemistry.

<i>Babesia bovis</i> Species of single-celled organism

Babesia bovis is an Apicomplexan single-celled parasite of cattle which occasionally infects humans. The disease it and other members of the genus Babesia cause is a hemolytic anemia known as babesiosis and colloquially called Texas cattle fever, redwater or piroplasmosis. It is transmitted by bites from infected larval ticks of the order Ixodida. It was eradicated from the United States by 1943, but is still present in Mexico and much of the world's tropics. The chief vector of Babesia species is the southern cattle fever tick Rhipicephalus microplus.

<i>Theileria parva</i> Species of single-celled organism

Theileria parva is a species of parasites, named in honour of Arnold Theiler, that causes East Coast fever (theileriosis) in cattle, a costly disease in Africa. The main vector for T. parva is the tick Rhipicephalus appendiculatus. Theiler found that East Coast fever was not the same as redwater, but caused by a different protozoan.

The genus Polychromophilus consists of obligate intracellular eukaryotic parasites that infect bats from every continent except Antarctica. They are transmitted by bat flies, which act as an insect vector as well as the parasite’s site of sporogeny. Polychromophilus follows a fairly typical Haemospororidian lifecycle, with gametocytes and gametes restricted to the bloodstream of the host and meronts infecting organs – most notably the lungs and the liver. The type species is Polychromophilus melanipherus, and was described by Dionisi in 1898.

<span class="mw-page-title-main">Ticks of domestic animals</span>

Ticks of domestic animals directly cause poor health and loss of production to their hosts. Ticks also transmit numerous kinds of viruses, bacteria, and protozoa between domestic animals. These microbes cause diseases which can be severely debilitating or fatal to domestic animals, and may also affect humans. Ticks are especially important to domestic animals in tropical and subtropical countries, where the warm climate enables many species to flourish. Also, the large populations of wild animals in warm countries provide a reservoir of ticks and infective microbes that spread to domestic animals. Farmers of livestock animals use many methods to control ticks, and related treatments are used to reduce infestation of companion animals.

<span class="mw-page-title-main">Quartan fever</span> Medical condition

Quartan fever is one of the four types of malaria which can be contracted by humans.

References

  1. Slapeta, Jan (1982). "Hematozoa". Tree of Life. Retrieved 9 April 2021.{{cite web}}: CS1 maint: url-status (link)
  2. 1 2 3 4 Redig, Patrick, T. (2018). "Haematozoa". Encyclopedia of Reproduction. 6 (Second Edition): 631–636.
  3. Smith, Matthew M.; Ramey, Andrew M. (2015). "Prevalence and genetic diversity of haematozoa in South American waterfowl and evidence for intercontinental redistribution of parasites by migratory birds". International Journal for Parasitology: Parasites and Wildlife. 4 (1): 22–8. doi:10.1016/j.ijppaw.2014.12.007. PMC   4356868 . PMID   25830104.
  4. 1 2 Oakes, Vanessa, J. (September 2019). "Theileria orientalis Ikeda Genotype in Cattle, Virginia, USA". Emerging Infectious Diseases. 25 (9): 1653–1659. doi: 10.3201/eid2509.190088 . PMC   6711211 . PMID   31237835.
  5. Park, Jingo (November 2016). "Genetic characterization of Theileria orientalis from cattle in the Republic of Korea". Parasitology Research. 116 (Springer Link): 449–454. doi:10.1007/s00436-016-5316-7. PMID   27817011. S2CID   253985053.
  6. Smith, Matthew, M.; Ramey, Andrew, M. (2015-04-01). "Prevalence and genetic diversity of haematozoa in South American waterfowl and evidence for intercontinental redistribution of parasites by migratory birds". International Journal for Parasitology: Parasites and Wildlife. 4 (1): 22–28. doi: 10.1016/j.ijppaw.2014.12.007 . ISSN   2213-2244. PMC   4356868 . PMID   25830104.
  7. 1 2 Ciloglu, Arif; Ellis, Vincenzo A.; Bernotienė, Rasa; Valkiūnas, Gediminas; Bensch, Staffan (2019-01-01). "A new one-step multiplex PCR assay for simultaneous detection and identification of avian haemosporidian parasites". Parasitology Research. 118 (1): 191–201. doi:10.1007/s00436-018-6153-7. ISSN   1432-1955. PMID   30536121. S2CID   253969176.