The use of molecular technology to investigate trypanosome infections in tsetse flies at Liwonde Wild Life Reserve

Symon F Nayupe; Nelson V Simwela; Peace M Kamanga; John E Chisi; Edward Senga; Janelisa Musaya; Emmanuel Maganga

doi:10.4314/mmj.v31i4.3

The use of molecular technology to investigate trypanosome infections in tsetse flies at Liwonde Wild Life Reserve

Malawi Med J. 2019 Dec;31(4):233-237. doi: 10.4314/mmj.v31i4.3.

Authors

Symon F Nayupe¹, Nelson V Simwela¹, Peace M Kamanga^{1

2}, John E Chisi¹, Edward Senga¹, Janelisa Musaya^{1

2}, Emmanuel Maganga³

Affiliations

¹ College of Medicine, Blantyre, Malawi.
² Malawi-Liverpool Wellcome Trust (MLW), Blantyre, Malawi.
³ Mikolongwe Veterinary College of Agriculture and Food Security, Limbe, Malawi.

Abstract

Background: Trypanosomes are protozoan flagellates that cause human African trypanosomiasis (HAT) and African animal trypanosomiasis (AAT). HAT is caused by Trypanosoma brucei rhodesiense in East and Central Africa and T.b. gambiense in West Africa, whereas AAT is caused by a number of trypanosome species, including T. brucei brucei, T. evansi, T. vivax, T. congolense, T. godfreyi and T. simiae. The aim of this study was to establish if tsetse flies at Liwonde Wild Life Reserve (LWLR) are infected with these trypanosomes and thus pose a risk to both humans and animals within and surrounding the LWLR.

Methods: A total of 150 tsetse flies were caught. Of these, 82 remained alive after capture and were dissected such that the mid-gut could be examined microscopically for trypanosomes. DNA extractions were performed from both mid-guts and the 68 dead flies using a Qiagen Kit. Amplification techniques involved the Internal Transcriber Spacer 1 (ITS 1) conventional polymerase chain reaction (PCR) with primers designed to identify trypanosome species, and Repetitive Insertion Mobile Element - Loop Mediated Isothermal Amplification (RIME LAMP), a sequence specific to T. brucei.

Results: Analysis showed that 79/82 (96.3%) of the mid-guts examined microscopically were positive for trypanosomes and that 75/150 (50%) of the DNA extracts (from the mid-gut, and tsetse fly carcasses) were positive for T. brucei, as determined by the RIME LAMP method. ITS1 PCR further showed that 87/150 (58.0%) flies were positive for trypanosomes, of which 56/87 (64.4%) were T. brucei, 9/87 (10.3%) were T. vivax; 7/87 (8.1%) were T. simiae; 6/87 (6.9%) were T. congolense, and 6/87 (6.9%) were T. godfreyi. Ten samples had a mixture of infections.

Conclusion: Our analysis demonstrated a mixture of infections from trypanosome species in tsetse flies at LWLR, and that T. brucei, the species that causes HAT, was the most common. Our study successfully used molecular techniques to demonstrate the presence of T. b. rhodesiense at LWLR, a species that causes HAT in both East and Central Africa.

Keywords: African Trypanosomiasis; DNA; Malawi; Polymerase Chain Reaction; Southern Africa; Tsetse Flies.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
DNA, Ribosomal / genetics
DNA, Ribosomal Spacer / genetics
Humans
Insect Vectors / parasitology*
Malawi
Molecular Epidemiology
Molecular Sequence Data
Polymerase Chain Reaction / methods*
Trypanosoma / classification*
Trypanosoma / genetics*
Trypanosoma / isolation & purification
Trypanosomiasis, African / epidemiology
Trypanosomiasis, African / parasitology
Trypanosomiasis, African / transmission
Tsetse Flies / parasitology*

Substances

DNA, Ribosomal
DNA, Ribosomal Spacer