Rhodnius prolixus

Rhodnius prolixus is the principal triatomine vector of the Chagas parasite due to both its sylvatic and domestic populations in northern South America as well as to its exclusively domestic populations in Central America. It has a wide range of ecotopes, mainly savanna and foothills with an altitude of between 500 and 1,500 metres (1,640 and 4,921 ft) above sea level and temperatures of 16 to 28 °C (61 to 82 °F). Sylvatic R. prolixus, as virtually all Rhodnius spp., is primarily associated with palm tree habitats and has a wide range of hosts including birds, rodents, marsupials, sloths, and reptiles.

Rhodnius prolixus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hemiptera
Suborder: Heteroptera
Family: Reduviidae
Genus: Rhodnius
Species:
R. prolixus
Binomial name
Rhodnius prolixus
Stål, 1859

The insect was used by Sir Vincent Wigglesworth for the detection of insect hormones. It has been implicated in the transmission of transposons between it and some of its vertebrate hosts, squirrel monkeys and opossums.[1]

Rhodnius prolixus is also known as the kissing bug (like other triatomine bugs) because it tends to feed on the area around victims' mouths.[2]

History

Rhodnius prolixus established itself throughout Central America after specimens that originated in Venezuela accidentally escaped from a San Salvadoran research laboratory in 1915. It colonized houses and invaded neighboring countries, probably through accidental carriage by travelers.[3]

Life cycle

The insect has five larval stages, with a moult between each. Each larval stage consumes a single large meal of blood, which triggers the moulting process, 12–15 days later. Wigglesworth demonstrated that the moult is started by prothoracicotropic hormone (PTTH) secreted into the blood in response to hormone release by neurosecretory cells in the brain.[4] Further it was demonstrated that the corpora allata secrete the juvenile hormone which prevents the premature development into an adult. The removal of the head during any larval stage causes early development into an adult, whereas the implantation of a juvenile head during the fifth larval stage results in a giant sixth stage larva.[5]

The adult secretes compounds into the wound during feeding, including lipocalins. These lipocalins were demonstrated to serve various functions including sequestering amines – especially serotonin – to prevent vasoconstriction (and possibly coagulation) in the host by Andersen et al 2003.[6] The male reproductive system of R. prolixus contains four accessory glands, three which are responsible for producing the spermathecae and one which is responsible for the movement of spermatozoa from the spermatophore into the female. Once mating occurs, the sperm move through the reproductive system of the female through peristatic waves. The female then stores the sperm until fertilization.[7]

As disease vector

Chagas disease is caused by the parasitic protozoan Trypanosoma cruzi. Infection with Chagas disease occurs after Rhodnius releases protozoans in its feces immediately following a blood meal. The parasite enters the victim through the bite wound after the human host scratches the bite. Infection may also occur via blood transfusion and ingestion of food contaminated with kissing bug feces.

Rhodnius prolixus – range of nymph stages through to adult

See also

References

  1. Clément, Gilbert; Schaack, Sarah; Pace II, John K.; Brindley, Paul J.; Feschotte, Cédric (2010). "A role for host-parasite interactions in the horizontal transfer of DNA transposons across animal phyla". Nature. 464 (7293): 1347–50. doi:10.1038/nature08939. PMC 3004126. PMID 20428170.
  2. "Basic Kissing Bugs Facts | Department of Neuroscience". Archived from the original on 2015-07-12. Retrieved 2015-07-12.
  3. C. J .Schofield (2000). "Challenges of Chagas disease vector control in Central America: position paper". World Health Organization.
  4. Wigglesworth, V.B. (1934). "The physiology of ecdysis in Rhodnius prolixus (Hemiptera). II Factors controlling moulting and metamorphosis". Q. J. Microsc. Sci. 77: 191–223.
  5. J. A. V. Butler (1959). Inside the Living Cell. George Allen and Unwin. p. 79.
  6. Fry, Bryan G.; Roelants, Kim; Champagne, Donald E.; Scheib, Holger; Tyndall, Joel D.A.; King, Glenn F.; Nevalainen, Timo J.; Norman, Janette A.; Lewis, Richard J.; Norton, Raymond S.; Renjifo, Camila; de la Vega, Ricardo C. Rodríguez (2009). "The Toxicogenomic Multiverse: Convergent Recruitment of Proteins Into Animal Venoms". Annual Review of Genomics and Human Genetics. Annual Reviews. 10 (1): 483–511. doi:10.1146/annurev.genom.9.081307.164356. ISSN 1527-8204. PMID 19640225.
  7. DAVEY, K. G. (1 September 1958). "The Migration of Spermatozoa in the Female of Rhodnius Prolixus Stal". Journal of Experimental Biology. 35 (3): 694–701. doi:10.1242/jeb.35.3.694. ISSN 0022-0949. Retrieved 26 March 2022.

Further reading

  • William C Marquardt et al (2004), Chapter 5: Kissing Bugs and Bedbugs the Heteroptera, Biology of Disease Vectors (2nd edition), Academic Press, ISBN 978-0-12-473276-6
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