Spoligotype diversity and 5-year trends of bovine tuberculosis in Extremadura, southern Spain.

Bovine tuberculosis (bTB) causes significant losses to farming economies worldwide. A better understanding on the epidemiology of this disease and the role that the different hosts develop in the maintenance and spread of bTB is vital to control this zoonotic disease. This study reports the spoligotype diversity and temporal evolution of Mycobacterium tuberculosis Complex (MTBC) isolates obtained from Extremadura (southern Spain). Genotyping data of Mycobacterium bovis (n = 2102) and Mycobacterium caprae (n = 96) isolates from cattle and wildlife species, collected between 2008 and 2012, were used in this study. The isolates resulted clustered into 88 spoligotypes which varied largely in frequency and occurrence in the three hosts. The 20 most frequent patterns represented 91.99 % of the isolates, the spoligotype SB0121 being the clearly predominant and most widely dispersed geographically. The major variety of the spoligotype patterns (78 out of 88) was isolated from the cattle, in fact 50 (56.83 %) of the patterns were found only in this species. Within the spoligotypes shared between the cattle and wildlife species, 17 patterns (1747 isolates) were shared with wild boar and Iberian red deer, 10 patterns (308 isolates) were exclusively shared with wild boar, and only one pattern (two isolates) was shared exclusively with Iberian red deer. The significant number of spoligotypes shared between the three hosts (79.49 %) highlights the components of the multi-host system that allows the bTB maintenance in our study area. The greater percentage of isolates shared by the wild boar and cattle (93.50 %) supports the role of wild boar as main maintenance host for bTB in cattle. These results could be extrapolated to areas with a similar epidemiological scenario and could be helpful for other countries where wild reservoirs represent a handicap for the successful eradication of bTB from livestock.

Genotypic characterization by spoligotyping and VNTR typing of Mycobacterium bovis and Mycobacterium caprae isolates from cattle of Tunisia.

This work is an approach to the molecular epidemiology of Mycobacterium tuberculosis complex (MTBC) bovine infections in Tunisia. A total of 35 MTBC isolates from both lateral retropharyngeal lymph node samples of cattle slaughtered in different Tunisian regions were genotyped by spoligotyping and variable number tandem repeat typing (VNTR)-typing. Spoligotyping allowed to identify two profiles not previously registered, namely SB2024, a Mycobacterium caprae isolate from Nabeul Region (North East Tunisia), the first description of this species in the country, and SB2025 (Mycobacterium bovis) from Sfax Region (Southern Tunisia). A second M. caprae isolate with a spoligotyping profile previously described in Europe mainland, SB0418, was also isolated from a bovine of Sfax region. Both isolates suggest the possibility of a widespread distribution of this species in the country. The predominant spoligotype was SB0120, present in all Tunisian regions selected for the study but Nabeul. Molecular typing also allowed to describe a mixed infection caused by two different M. bovis isolates (SB0120 and SB0848) in the same animal. VNTR typing was highly discriminant by testing a panel of six loci. Loci QUB3232 and QUB11b were the most discriminant, whereas ETR-D and QUB11a had the lower diversity index. The value of allelic diversity can significantly vary among countries; thus, it is important to standardize a panel of loci for future inter-laboratory comparisons. Although VNTR typing proved to be useful for an efficient discrimination among MTBC isolates, especially in combination with spoligotyping, further studies are needed in order to assess the genetic diversity of the MTBC in Tunisia.