Publikationsdatenbank

Monitoring vaccinated cattle for induction and longevity of persistent tick-transmissible infection:
Implications for wider deployment of live vaccination against East Coast fever in Tanzania (2020)

Art

Zeitschriftenartikel / wissenschaftlicher Beitrag

Autoren

Gwakisa, Paul

Kindoro, Fatuma

Mwega, Elisa

Kimera, Sharadhuli

Obara, Isaiah (WE 13)

Ahmed, Jabbar (WE 13)

Clausen, Peter-Henning (WE 13)

Bishop, Richard

Forschungsprojekt

Molecular epidemiology network for promotion and support of delivery of live vaccines against Theileria parva and Theileria annulata infection in Eastern and Northern Africa

Quelle

Transboundary and emerging diseases

Bandzählung: 67

Heftzählung: S1

Seiten: 79 – 87

ISSN: 1865-1674

Sprache

Englisch

Verweise

URL (Volltext): https://onlinelibrary.wiley.com/doi/full/10.1111/tbed.13405

DOI: 10.1111/tbed.13405

Pubmed: 32174035

Kontakt

Institut für Parasitologie und Tropenveterinärmedizin

Robert-von-Ostertag-Str. 7-13
14163 Berlin
+49 30 838 62310
parasitologie@vetmed.fu-berlin.de

Abstract / Zusammenfassung

The infection and treatment (ITM) procedure remains the only available method of immunization against Theileria parva infection. One constraint to deployment is the perception that the carrier state induced by ITM could result in enhanced disease problems. More than one million cattle have been ITM vaccinated in pastoralist systems in Tanzania over the last 2 decades. We present the results of a longitudinal study of six groups of cattle in Maasai villages in northern Tanzania exposed to natural tick challenge for between 2 weeks and 14 years post-vaccination. The p104 nested PCR revealed a higher frequency of T. parva carriers among vaccinates (30%) compared with controls (8%) (OR = 4.89, p = .000), with the highest frequency of carriers found in calves vaccinated 6 months previously, although carrier state was also detected in cattle vaccinated >10 years prior to the study. Variable number tandem repeat genotype analysis revealed 6 MS7 alleles with sizes ranging from 150 bp to 500 bp, but only two alleles were detected in cattle vaccinated >4 years earlier, relative to five alleles detected in recently vaccinated cattle and controls. In terms of heterozygosity, diversity was maximal in calves vaccinated within the last 2 weeks (h = 0.776) but lowest in cattle vaccinated 4 years earlier (h = 0.375). The analysis suggested close genetic relatedness of parasites in vaccinated and unvaccinated groups and up to 96% of variation was within rather than between the groups. These results confirm that ITM leads to a long-term T. parva carrier state in cattle and the detection of vaccine component VNTR in co-grazing unvaccinated cattle suggests potential vaccine transmission by ticks. However, vaccination stocks did not totally replace local genotypes, at least in cattle populations. These findings should mitigate concerns that ITM modifies T. parva field populations in a way that enhances disease in the medium term.