Title: Trypanosomes
1Trypanosomes
- We will discuss two groups.
- African group (transmitted by tsetse flies
belonging to the genus Glossina) - New World (transmitted by bugs)
2African Sleeping Sickness
- The Trypanosoma brucei group.
- T. brucei brucei
- T. brucei gambiense
- T. brucei rhodesiense
3T. b. brucei
- Occurs in the circulatory system of most native
antelopes, ruminants, and other wildlife in
Africa.
4T. b. brucei
- Occurs in the circulatory system of most native
antelopes, ruminants, and other wildlife in
Africa. - Non-pathogenic to these animals (does not kill
them!).
5T. b. brucei
- Occurs in the circulatory system of most native
antelopes, ruminants, and other wildlife in
Africa. - Non-pathogenic to these animals (does not kill
them!). - However it is fatal to introduced livestock like
cattle, causing a wasting disease called Nagana.
6Nagana caused by T. b. brucei
7Resistant Breeds of Cattle
8T. b. gambiense Chronic or Gambian Sleeping
Sickness
9T. b. gambiense Chronic or Gambian Sleeping
Sickness
- Occurs in people.
- Fatal if not treated.
10T. b. gambiense Chronic or Gambian Sleeping
Sickness
- Occurs in people.
- Fatal if not treated.
- Chronic infections (low-level infection that last
a long time).
11T. b. gambiense Chronic or Gambian Sleeping
Sickness
- Occurs in people.
- Fatal if not treated.
- Chronic infections (low-level infection that last
a long time). - Does not occur in either native animals or
livestock.
12T. b. gambiense Chronic or Gambian Sleeping
Sickness
- Occurs in people.
- Fatal if not treated.
- Chronic infections (low-level infection that last
a long time). - Does not occur in either native animals or
livestock. - It is transmitted from person to person by the
Tsetse fly.
13T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- Causes acute infections in people.
14T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- Causes acute infections in people.
- Usually fatal within a year.
15T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- Causes acute infections in people.
- Usually fatal within a year.
- Occurs in native animals but it is not fatal in
these animals.
16T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- Causes acute infections in people.
- Usually fatal within a year.
- Occurs in native animals but it is not fatal in
these animals. - Transmission by Tsetse fly.
17T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- A more recent colonizer of people and therefore
does not do well in people and kills them.
18T. b. rhodesiense Acute or Rhodesian Sleeping
Sickness
- A more recent colonizer of people and therefore
does not do well in people and kills them. - It has not been around long enough to have
adapted to its host (humans).
19The Vector Glossina
20The Vector Glossina
Biology of Glossina spp.
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22The Vector Glossina
- Host seeking behavior
- Visual sense used to search for animal or human
to feed on. - Spend most of their time resting on vegetation
waiting in ambush for their prey to come into
range.
23Stimulate feeding by uric acid, leucine, valine
and lactic acid (Human Sweat).
24The Vector Glossina
- The genus is divided into 23 species (three
species groups).
25The Vector Glossina
- The genus is divided into 23 species (three
species groups). - Most of these can transmit Trypanosomes.
26The Vector Glossina
- The genus is divided into 23 species (three
species groups). - Most of these can transmit Trypanosomes.
- However two species are important in the
transmission to people, Glossina palpalis (T. b.
gambiense) and Glossina morsitans (T. b.
rhodesiense).
27Glossina spp. have different host preference!
28The G. morsitans group tends to feed on suids
(mainly warthogs), and bovids (buffalo), less so
on people.
29The G. palpalis group tends to feed on reptiles,
and loves to feed on people.
30G. morsitans is a savanna species.
G. palpalis is associated with rivers and lakes.
31Life Cycle
- Only 2 stages in life cycle Epimastigote and
Trypomastigote.
32Trypanosoma brucei life cycle
1. Uninfected tsetse fly (Glossina) bites an
infected vertebrate host and ingests
trypomastigote circulating in the bloodstream.
33Trypanosoma brucei life cycle
1. Uninfected tsetse fly (Glossina) bites an
infected vertebrate host and ingests
trypomastigote circulating in the
bloodstream. 2. Trypomastigotes multiply by
longitudinal binary fission in fly gut.
34Trypanosoma brucei life cycle
3. Trypomastigotes migrate to the salivary
glands and transform into epimastigotes and
multiply for several generation.
35Trypanosoma brucei life cycle
3. Trypomastigotes migrate to the salivary
glands and transform into epimastigotes and
multiply for several generation. 4.
Epimastigotes transform back into Metacyclic
Trypomastigotes (short stumpy forms) in the
salivary glands. These form the infective
stage.
36Trypanosoma brucei life cycle
3. Trypomastigotes migrate to the salivary
glands and transform into epimastigotes and
multiply for several generation. 4.
Epimastigotes transform back into Metacyclic
Trypomastigotes (short stumpy forms) in the
salivary glands. These form the infective
stage. 5. Tsetse fly bites a human or ruminant
host and inoculates metacyclic trypomastigotes
into bloodstream.
37Trypanosoma brucei life cycle
3. Trypomastigotes migrate to the salivary
glands and transform into epimastigotes and
multiply for several generation. 4.
Epimastigotes transform back into Metacyclic
Trypomastigotes (short stumpy forms) in the
salivary glands. These form the infective
stage. 5. Tsetse fly bites a human or ruminant
host and inoculates metacyclic trypomastigotes
into bloodstream. 6. Trypomastigotes live and
multiply in the blood and lymph. In some cases,
trypomastigotes migrate to the central nervous
system.
38Trypanosoma brucei life cycle
- For our purposes we will consider only two life
cycle stages trypomastigotes in vertebrate host
and epimastigote in Glossina which will be
transmitted anterior station or salivarian
transmission to the vertebrate host.
39African Trypanosomiasis Course of Infection
- There are four phases.
- The first two phases of trypanosomiasis only show
up in people of non-African decent (Europeans).
40African Trypanosomiasis Course of Infection
- Phase I Incubation Period.
- Trypomastigote in skin.
- Red lesion and chancre at site of bite, painful.
- Itching and inflammation of skin.
- Duration one to two weeks.
41African Trypanosomiasis Course of Infection
- Phase II Trypomastigotes enter circulation.
- Fever
- Headache
- Skin rash
- Duration is variable
42African Trypanosomiasis Course of Infection
- Phase III Trypomastigotes collect in lymph nodes
and channels. - Cells not invaded but there is proliferation of
endothelial cells - Infiltration of leukocytes
- Enlargement of lymph nodes
43Phase III
Enlargement of lymph nodes in cervical triangle
(on back of neck) Winterbottoms Sign one of the
cardinal signs of African Trypanosomiasis.
44African Trypanosomiasis Course of Infection
- Phase III Trypomastigotes collect in lymph nodes
and channels. - Fever, headache, and delayed sensation to pain
- General weakness
- Duration many years with T. b. gambiense less
than 1 year and usually less than 4 mo for T. b.
rhodesiense
45African Trypanosomiasis Course of Infection
- Phase IV Invasion of Central Nervous
System-African Sleeping Sickness.
46African Trypanosomiasis Course of Infection
- Phase IV Invasion of Central Nervous
System-African Sleeping Sickness. - Headaches are severe
- Emaciation
- Mental dullness
- Apathy disinclination to work
- Drowsiness and coma
- Death from asthenia, heart failure, meningitis,
severe fall, etc.
47African Trypanosomiasis Course of Infection
- Phase IV Invasion of Central Nervous
System-African Sleeping Sickness. - Duration variable with T. b. gambiense usually
does not occur with T. b. rhodesiense.
48Pathology
- 1) Parasites themselves are toxic.
- -Their byproducts are toxic and end up
circulating in the blood steam.
49Pathology
- 1) Parasites themselves are toxic.
- -Their byproducts are toxic and end up
circulating in the blood steam. - 2) Hyper stimulated immune system.
- -Parasite has variable antigenic types (VATs)
which are constantly changing. - -This compromises our immune system, and those
infected can be susceptible to other bacteria
and virus infections.
50Pathology
- 3) Host lyses its own erythrocytes (RBCs).
- -This is why anemia is a symptom of this
disease. - So why does this happen?
-
51Diagnosis
- Can find Trypanosomes in plasma.
- Concentrated in lymph nodes.
- Treatment differs if there has been invasion of
CNS - If questionable do a lumbar puncture.
52Treatment
- Drug of choice ? Suramin (Bayer 205)
- Not affected against CNS forms!
53Treatment
- Drug of choice ? Suramin (Bayer 205)
- Not affected against CNS forms!
- Melarsoprol (and arsenical toxic) is used with
Bayer 205 to treat CNS forms. - Vomiting, and kidney damage.
- 10 of patients will die from treatment.
54Treatment
- Drug of choice ? Suramin (Bayer 205)
- Not affected against CNS forms!
- Melarsoprol (and arsenical toxic) is used with
Bayer 205 to treat CNS forms. - Vomiting, and kidney damage.
- 10 of patients will die from treatment.
- Ornidyl (DFMO)? Current drug of choice.
- Tolerated well effective against CNS, but 2 week
treatment is 150!
55Distribution
- T. b. rhodesiense ? occurs in E. Africa.
56Distribution
- T. b. rhodesiense ? occurs in E. Africa.
- T. b. gambiense ? occurs in costal W. Africa and
in drainages of Congo and Niger Rivers.
57So What is the Big Deal!
- No Leishmaniasis in the US!
- No African Trypanosomiasis in the US!
58The Big 3 Tropical Fevers To Be Feared!
- (3) Kala-azar
- (2) African Trypanosomiasis
- (1) Malaria
59Negative Effects of African Trypanosomiasis
- (1) Depopulation
- Uganda 1901-1905.
- 30,000 ? 100,000 due to T. b. rhodesiense
epidemic. - Equality of life
- Lack of productivity in society
- Social stability
60Negative Effects of African Trypanosomiasis
61African Land
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63Negative Effects of African Trypanosomiasis
- (3) Other
- Presence of tsetse flies have affected the
environment. - Pesticides!
64Negative Effects of African Trypanosomiasis
- (3) Other
- Presence of tsetse flies have affected the
environment. - Pesticides!
- Presence of tsetse flies have affected the
climate. - Cattle are underweight.
- Many regions have extensive over-grazing.
65Negative Effects of African Trypanosomiasis
- (3) Other
- Presence of tsetse flies have affected the
environment. - Pesticides!
- Presence of tsetse flies have affected the
climate. - Cattle are underweight.
- Many regions have extensive over-grazing.
- Aesthetics.
- How many wild animals can we live with?
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