Community-based geographical distribution of Mycobacterium ulcerans VNTR-genotypes from the environment and humans in the Nyong valley, Cameroon
Date
2021
Journal Title
Journal ISSN
Volume Title
Publisher
Tropical Medicine and Health
Abstract
Background: Genotyping is a powerful tool for investigating outbreaks of infectious diseases and it can provide
useful information such as identifying the source and route of transmission, and circulating strains involved in the
outbreak. Genotyping techniques based on variable number of tandem repeats (VNTR) are instrumental in
detecting heterogeneity in Mycobacterium ulcerans (MU) and also for discriminating MU from other mycobacteria
species. Here, we describe and map the distribution of MU genotypes in Buruli ulcer (BU) endemic communities of
the Nyong valley in Cameroon. We also tested the hypothesis of whether the suspected animal reservoirs of BU
that share the human microhabitat are shedding contaminated fecal matters and saliva into their surrounding
environments.
Methods: Environmental samples from suspected MU-risk factors and lesion swabs from human patients were
sampled in BU-endemic communities and tested for the presence of MU by qPCR targeting three independent
sequences (IS2404, IS2606, KR-B). Positive samples to MU were further genotyped by VNTR with confirmation by
sequencing of four loci (MIRU1, Locus 6, ST1, Locus 19).
Results: MU was detected in environmental samples including water bodies (23%), biofilms (14%), detritus (10%),
and in human patients (73%). MU genotypes D, W, and C were found both in environmental and human samples.
The micro geo-distribution of MU genotypes from communities showed that genotype D is found both in
environmental and human samples, while genotypes W and C are specific to environmental samples and human
lesions, respectively. No obvious focal grouping of MU genotypes was observed at the community scale. An
additional survey in the human microhabitat suggests that domestic and wild animals do not shed MU in their
saliva and feces in sampled communities. Conclusions: VNTR typing uncovered different MU genotypes circulating in the endemic communities of the
Akonolinga district. A MU environmental genotype was found in patients, yet the mechanism of contamination
remains to be investigated; and recovering MU in culture from the environment remains key priority to enable a
better understanding of the mode of transmission of BU. We also conclude that excretions from suspected animals
are unlikely to be major sources of MU in the Nyong Valley in Cameroon.
Description
Research Article
Keywords
Mycobacterium ulcerans infection, VNTR-profiling, Locus repeat, Environmental samples