Abstract
ObjectiveTo investigate the distribution of Mycobacterium tuberculosis genotypes across Africa.MethodsThe SITVIT2 global repository and PUBMED were searched for spoligotype and published genotype data respectively, of M. tuberculosis from Africa. M. tuberculosis lineages in Africa were described and compared across regions and with those from 7 European and 6 South-Asian countries. Further analysis of the major lineages and sub-lineages using Principal Component analysis (PCA) and hierarchical cluster analysis were done to describe clustering by geographical regions. Evolutionary relationships were assessed using phylogenetic tree analysis.ResultsA total of 14727 isolates from 35 African countries were included in the analysis and of these 13607 were assigned to one of 10 major lineages, whilst 1120 were unknown. There were differences in geographical distribution of major lineages and their sub-lineages with regional clustering. Southern African countries were grouped based on high prevalence of LAM11-ZWE strains; strains which have an origin in Portugal. The grouping of North African countries was due to the high percentage of LAM9 strains, which have an origin in the Eastern Mediterranean region. East African countries were grouped based on Central Asian (CAS) and East-African Indian (EAI) strain lineage possibly reflecting historic sea trade with Asia, while West African Countries were grouped based on Cameroon lineage of unknown origin. A high percentage of the Haarlem lineage isolates were observed in the Central African Republic, Guinea, Gambia and Tunisia, however, a mixed distribution prevented close clustering.ConclusionsThis study highlighted that the TB epidemic in Africa is driven by regional epidemics characterized by genetically distinct lineages of M. tuberculosis. M. tuberculosis in these regions may have been introduced from either Europe or Asia and has spread through pastoralism, mining and war. The vast array of genotypes and their associated phenotypes should be considered when designing future vaccines, diagnostics and anti-TB drugs.
Highlights
The development and application of genotyping tools for Mycobacterium tuberculosis has greatly enhanced our understanding of the epidemiology of tuberculosis (TB) on a local [1] and global scale [2,3,4,5]
A total of 14727 isolates from 35 African countries were included in the analysis and of these 13607 were assigned to one of 10 major lineages, whilst 1120 were unknown
Southern African countries were grouped based on high prevalence of LAM11-ZWE strains; strains which have an origin in Portugal
Summary
The development and application of genotyping tools for Mycobacterium tuberculosis has greatly enhanced our understanding of the epidemiology of tuberculosis (TB) on a local [1] and global scale [2,3,4,5]. Spoligotyping data represents the largest body of genotyping data which has been formally organized into a global repository termed SpolDB [2,3,4,15] This database has been through a number of reiterations and has recently been expanded to include MIRU-VNTR data, and is called SITVIT [16]. Within this database clinical isolates have been grouped into distinct lineages such as Beijing, Central Asian (CAS), East-African Indian (EAI), Cameroon, Haarlem (H), Latin American Mediterranean (LAM), T, S, and X according to defined spoligotype signatures [17,18]. Similar hypotheses have been proposed by others [20,25,26]
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