Trypanosomes
Kingdom II Euprotista
Phylum Euglenista
Order Kinetoplastida
Three families:
1 - Bodonidae - free living
2 - Cryptobiidae - parasites of fish and invertebrates
3 - Trypanosomatidae - some members important to humans and domestic animals
Heteroxenous (most) – require more than one host to complete life cycleHemoflagellates – dependence on blood
• Kinetoplast:
DNA containing organelle from which a mitochondrion arises; Mitochondrial compartment packed with minicircles and maxicircles of DNA; self-replicating.
• 1 flagella
• 1 nucleus
• 1 mitochondrion
• leaf-like or rounded body
• all parastitic
• change body form depending on host and tissue
• cyclic development (6 different stages)
Trypanosomatidae
Stages:
Trypanosomatidae
Trypomastigote: Epimastigote: Promastigote: Amastigote: blood stream form; replicative stage infective stage of non-motile; infective form in insect Leishmania spp. intracellular, replicative stage in vertebrate
• some of the most economically important human and animal parasites
• parasites of invertebrates and all classes of vertebrates
• blood or tissue fluids; intracellular
• mostly transmitted through invertebrate vectors
Genus Trypanosoma
Development:
Anterior station - Salivaria• division of trypomastigotes in midgut of vector• migration of parasite forward into the upper digestive tract (eg. salivary glands)• metacyclic trypomastigotes passed to vertebrate host when the vector feeds. • Salivarian (eg.T.brucei gambiense) by tse-tse fly.
Posterior station - Stercoraria• parasite in the hindgut transforms into epimastigotes and metacyclic trypomastigotes • move back through the digestive tract • metacyclic trypomastigotes are passed to the vertebrate host in the vector feces. • Stercocarian (eg. Trypanosoma cruzi) by kissing bugs.
Trypanosoma brucei
T. b. bruceigame animals/livestock(nagana)
T. b. rhodesiense E. African trypanosomiasis
T. b. gambienseW. and Central Africansleeping sickness
Organism and Disease Associations, Host Range
Vector: Tse tse
Geographic Distribution and Importance
Fly belt!
Slide: Trypanosoma brucei gambiense: blood smear
Slide: Trypanosoma lewisi: parasite of rats.Ingestion of fleas or flea feces containing trypomastigotes
Slide: Trypanosoma equiperdum: causes a venereal disease (dourine) in equinesTransmission through sexual intercourse
Trypanosoma
PathogenesisGeneral•Trypanosomes live in blood, lymph nodes, spleen – therefore not intracellular•Particularly abundant in intercellular spaces in brain
Humans•Local reaction: painful sore at site of bite, disappears after a couple of weeks•Trypanosomes reproduce rapidly once enter blood and lymph system – generalized invasion of all organs•Winterbottom’s sign – swollen nodes at base of skull•severe wasting•Somnolence•CNS signs – increased apathy, dullness, tremors, convulsions, coma, death
Trypanosoma cruzi
Impact: 18-25 million casesRisk: 100 million in 21 countries
4th leading cause of mortality in Latin America
45,000 deaths per year directly attributed to Chagas
leading cause of cardiac disease in S. and Central America
Slide: Trypansoma cruzi pseudocyst in rat cardia tissue.The pseudocyst is an enlarged cell containing amastigotes
Trypanosoma cruzi
PathogenesisGeneral•Trypomastigote enter blood; •Invade host cells of RES, skeletal and cardiac muscle•Cell breakdown, release of amastigotes; Infection of additonal cells •Production of neurotoxins affecting conducting systems•Muscles loose ability to contract, Megacolon, - esophagus, heart
• Leishmania spp. Cause complex of infections displaying a variety of disease manifestations
• Parasites of mammals, most commonly humans, dogs, rodents
• Vector: Sandflies (Phlebotomus, Lutzomyia)
Organism and Disease Associations
Leishmania tropica (oriental sore or cutaneous leishmaniasis)
Leishmania donovani (Kala-azar or visceral leishmaniasis)
Leishmania braziliensis (espundia or mucocutaneous leishmaniasis)
Geographic Distribution and Importance
Currently the leishmaniases, prevalent in four continents, are considered to be endemic in 88 countries, 72 of which are developing countries:
90% of all visceral leishmaniasis cases occur in Bangladesh, Brazil, India, Nepal and Sudan;90% of mucocutaneous leishmaniasis occurs in Bolivia, Brazil and Peru;90% of cutaneous leishmaniasis cases occur in Afghanistan, Brazil, Iran, Peru, Saudi Arabia and Syria.
Genus Leishmania
Slide: Leishmania donovani promastigote
Leishmania
Slide: Leismania donovani in tissue smear: study the tissue smears (liver and spleen) containing amastigotes of L. donovani using oil immersion. The amastigotes are very small (2.5-5.0 μm) and spheroid to ovoid in shape. Only the nucleus and a very large kinetoplast are visible with light microscopy. Some describe amastigotes as little snowmen
Slide: Leishmania tissue section replicates as intracellular amastigotes in macrophages. In fact, amastigotes will eventually kill a macrophage and go on to infect others.
PathogenesisVisceral (L.donovani)This visceral disease has a new and old world form: particularly Brazil, and Mediterranean Europe, North Africa, East Africa, India and China.
The amastigote forms are found within the reticulo-endothelial cells of the viscera, ie the spleen, lymph nodes, liver and intestine.
The incubation time of 10 days-a year. The symptoms are a slow developing low grade fever, and general malaise, a progressive wasting of the patient with anemia. Other classic symptoms as the disease progresses is the protrusion of the abdomen, hepatospenomgegaly. If untreated death will occur within 2-3 years of contracting the infection.
In acute forms, the disease can run its course within 6 - 12 months. Clinical signs include edema, particularly of the face, bleeding mucus membranes, breathing difficulties and diarrhea.
Cutaneous (L.tropica)
Usually localized to the site in which the sandfly bite occurs. The amastigotes multiply in the reticulo-endothelial system of the skin.
1. When macrophages first engullf a parasite such as Leishmania, macrophages undergo a respiratory burst. This respiratory burst involves enzymes such as superoxides which should effectively digest the parasite. Some Leishmania sp can produce an enzyme called superoxide dismutase which can neutralize the free radical damage. 2. Leishmania has evolved the ability to bind Compliment-like C3 protein, which can outright inhibits the respiratory burst. 3. Macrophages function by communication usually via lymphokines, with T-cells. Leishmania are able to “shut down” communication between these cells by interrupting the transcription of major histocompatibility genes (MHC) so that the macrophages they are infecting bare few if any MHC proteins on the surface for T-cells to recognize. 4. Leishmania has been reported to stimulate the bone marrow to produce more macrophages. However, the new macrophages being produced are immature; they can capture and engulf the parasite but are physiologically unable to kill them, even in the presence of stimulating cytokines.
Leishmania Strategies of survival
Learning Objectives
1. Order Kinetoplastida- Know general characteristics2. Family Trypanosomatidae- General characteristics (leaf-like, flagellum, parasites of vertebrates)- Undergo cyclic development as they pass from one host to the next- Know life cycle stages (purpose, morphology, differentiation)3. Genus Trypanosoma- General features- Anterior vs. posterior station- Visual ID T. lewisi, T. equiperdum, T. brucei gambiense, T. cruzi4. Trypanosoma lewisi- Host + vector transmission5. Trypanosoma equiperdum- Host + pathology + transmission6. Trypanosoma brucei gambiense-Distribution, pathology, vector- Life cycle (hosts, stages, transmission, tissue)- Vector + type of development in vector7. Trypanosoma cruzi- Pathology- Distribution, vector , life cycle, transmission- Visual ID pseudocyst in rat heart, what stage8. Genus Leishmania- Hosts, vectors, life cycle, transmission- Know 3 species of medical importance + disease associated with each- Visual ID promastigotes to genus for L. donovani- L. donovani amastigotes in liver tissue- What strategies does Leishmania use to overcome macrophage defenses
VocabularyKinetoplastAmastigotePromastigoteTrypomastigoteEpimastigoteAnterior stationPosterior stationNaganaDourineVectorReservoir hostDefinitve hostPseudocystMacrophageSuperoxidesRespiratory burstSuperoxide dismutaseMHC