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in serum-free media for applications such as vaccine development requires further examination. © 2020 The Authors. Transboundary and Emerging Diseases published by Blackwell Verlag GmbH.Leucoproliferative Theileria parasites possess the unique capability to transform their bovine host cell, resulting in tumour-like characteristics like uncontrolled proliferation. The molecular mechanisms underlying this parasite-dependent process are only poorly understood. VE822 In the current study, bioinformatic analysis of the Theileria annulata surface protein (TaSP) from different T. annulata isolates identified a conserved CDK1 phosphorylation motif T131 PTK within the extracellular, polymorphic domain of TaSP. Phosphorylation assays with radioactively labelled ATP as well as ELISA-based experiments using a phospho-threonine-proline (pThr-Pro) antibody revealed, that CDK1-cyclin B specifically phosphorylates T131 , identifying TaSP as a substrate in vitro. Confocal microscopy and proximity ligation assays suggest an interaction between CDK1 and TaSP in T. annulata-infected cells. Further studies demonstrated a nearly complete co-localization of the pThr-Pro signal and TaSP only in cells in interphase, pointe parasite. © 2020 Blackwell Verlag GmbH.A major risk factor for the spread of livestock diseases and their vectors is the uncontrolled transboundary movement of live animals for trade and grazing. Such movements constrain effective control of tick-transmitted pathogens, including Theileria parva. Only limited studies have been undertaken to identify ticks and tick-borne diseases (TTBDs) affecting cattle in central African countries, including Cameroon. We hereby report the collection of baseline data on the prevalence of T. parva in Cameroon through a countrywide cross-sectional survey, conducted in 2016, involving collection of blood samples from cattle from 63 sites across the five agro-ecological zones (AEZs) of the country. ELISA-based surveillance of infected cattle was performed on 479 randomly selected samples and revealed specific antibodies to T. parva in 22.7% and T. mutans in 41.1% of cattle. Screening of 1,340 representative DNA samples for the presence of T. parva identified 25 (1.86%) positives using a p104 antigen gene-based nested PCR assay. The positives were distributed across agro-ecological zones I, II, III and V. None of the p104 positive cattle exhibited clinical symptoms of East Coast fever (ECF). Using reverse line blot (RLB), 58 (4.3%) and 1,139 (85%) of the samples reacted with the T. parva and T. mutans oligonucleotide probes, respectively. This represents the first report of T. parva from Cameroon. Surprisingly, no Rhipicephalus appendiculatus ticks, the main vector of T. parva, were identified in a parallel study involving comprehensive morphological and molecular survey of tick species present in the country. Only two of the 25 p104 positive cattle were PCR-positive for the CD8+ T-cell target schizont-expressed antigen gene Tp1. Cloning and sequencing of Tp1 amplicons revealed sequence identity with the reference T. parva Muguga. This new finding raises serious concerns of a potential spread of ECF into the central African region. © 2020 Blackwell Verlag GmbH.Theileria parva is a tick-transmitted apicomplexan protozoan parasite that infects lymphocytes of cattle and African Cape buffalo (Syncerus caffer), causing a frequently fatal disease of cattle in eastern, central and southern Africa. A live vaccination procedure, known as infection and treatment method (ITM), the most frequently used version of which comprises the Muguga, Serengeti-transformed and Kiambu 5 stocks of T. parva, delivered as a trivalent cocktail, is generally effective. However, it does not always induce 100% protection against heterologous parasite challenge. Knowledge of the genetic diversity of T. parva in target cattle populations is therefore important prior to extensive vaccine deployment. This study investigated the extent of genetic diversity within T. parva field isolates derived from Ankole (Bos taurus) cattle in south-western Uganda using 14 variable number tandem repeat (VNTR) satellite loci and the sequences of two antigen-encoding genes that are targets of CD8+T-cell responses induced by ITM, designated Tp1 and Tp2. The findings revealed a T. parva prevalence of 51% confirming endemicity of the parasite in south-western Uganda. Cattle-derived T. parva VNTR genotypes revealed a high degree of polymorphism. However, all of the T. parva Tp1 and Tp2 alleles identified in this study have been reported previously, indicating that they are widespread geographically in East Africa and highly conserved. © 2020 The Authors. Transboundary and Emerging Diseases published by Blackwell Verlag GmbH.Tropical theileriosis constraints the development of the dairy industry in the Sudan and vaccination using live attenuated schizont vaccines is considered a promising measure for its control. The present study was carried out to investigate the ability of recombinant T. annulata surface protein (TaSP) to improve the efficacy of the attenuated Atbara cell line in protecting calves against field challenge. To this end, 23 cross-bred (Friesian × Kenana) calves were divided into four groups. Animals in group 1 (n = 5) were left unvaccinated. Group 2 (n = 6) received the Atbara cell line, animals in group 3 (n = 6) were immunized with three doses of TaSP on days 21, 49 and 77, while animals in group 4 (n = 6) received the cell line vaccine on day 0 and three doses of TaSP in Freund's incomplete adjuvant at days 21, 49 and 77. Twenty-eight days after the last TaSP boost, all groups were challenged by exposing them to natural field tick infestation in a region known to be endemic for tropical theileriosis. No thermal reactions, piroplasms or schizonts were observed in the immunized animals following immunization. Upon challenge, all animals showed a range of symptoms of clinical theileriosis with variable degrees of severity. The application of TaSP alone appeared to have no effect in terms of protection. The efficacy of the cell line alone was lower than the 100% level of protection against mortality observed in the group that received the combined cell line vaccine and TaSP, suggesting a synergistic effect of this combination. © 2020 Blackwell Verlag GmbH.