Pedro María Aso

ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA) FOR DETECTION OF ANTI-TRYPANOSOMA EVANSI EQUINE ANTIBODIES

The standardization of ELISA for the detection of anti-Trypanosoma evansi antibodies in naturally and experimentally infected horses is described. Bayesian analysis was used to establish the cutoff between positive and negative sera. In order to determine the assessment of the ELISA test, the results obtained were compared with those from an IFA. A relative sensibility of 98.39%, a specificity of 95.12% and a predictive value of 96.83% were determined. The standardized technique was used to evaluate the antibody production against trypanosome in an experimentally infected equine, in which the sera converted 15 days after infection. The test was also used for a study of sera prevalence in a non-random sample from two different populations. A prevalence of 81.7% in workhorse and 57.14% in stable horses was found.

A quasi-exclusive European ancestry in the senepol tropical cattle breed highlights the importance of the slick locus in tropical adaptation

Background The Senepol cattle breed (SEN) was created in the early XXth century from a presumed cross between a European (EUT) breed (Red Poll) and a West African taurine (AFT) breed (N’Dama). Well adapted to tropical conditions, it is also believed trypanotolerant according to its putative AFT ancestry. However, such origins needed to be verified to define relevant husbandry practices and the genetic background underlying such adaptation needed to be characterized. Methodology/Principal Findings We genotyped 153 SEN individuals on 47,365 SNPs and combined the resulting data with those available on 18 other populations representative of EUT, AFT and Zebu (ZEB) cattle. We found on average 89% EUT, 10.4% ZEB and 0.6% AFT ancestries in the SEN genome. We further looked for footprints of recent selection using standard tests based on the extent of haplotype homozygosity. We underlined i) three footprints on chromosome (BTA) 01, two of which are within or close to the polled locus underlying the absence of horns and ii) one footprint on BTA20 within the slick hair coat locus, involved in thermotolerance. Annotation of these regions allowed us to propose three candidate genes to explain the observed signals (TIAM1, GRIK1 and RAI14). Conclusions/Significance Our results do not support the accepted concept about the AFT origin of SEN breed. Initial AFT ancestry (if any) might have been counter-selected in early generations due to breeding objectives oriented in particular toward meat production and hornless phenotype. Therefore, SEN animals are likely susceptible to African trypanosomes which questions the importation of SEN within the West African tsetse belt, as promoted by some breeding societies. Besides, our results revealed that SEN breed is predominantly a EUT breed well adapted to tropical conditions and confirmed the importance in thermotolerance of the slick locus.

Molecular profiles of Venezuelan isolates of Trypanosoma sp. by random amplified polymorphic DNA method

Nine Trypanosoma sp. Venezuelan isolates, initially presumed to be T. evansi, were collected from three different hosts, capybara (Apure state), horse (Apure state) and donkey (Guarico state) and compared by the random amplification polymorphic DNA technique (RAPD). Thirty-one to 46 reproducible fragments were obtained with 12 of the 40 primers that were used. Most of the primers detected molecular profiles with few polymorphisms between the seven horse, capybara and donkey isolates. Quantitative analyses of the RAPD profiles of these isolates revealed a high degree of genetic conservation with similarity coefficients between 85.7% and 98.5%. Ten of the primers generated polymorphic RAPD profiles with two of the three Trypanosoma sp. horse isolates, namely TeAp-N/D1 and TeGu-N/D1. The similarity coefficient between these two isolates and the rest, ranged from 57.9% to 68.4% and the corresponding dendrogram clustered TeAp-N/D1 and Te Gu-N/D1 in a genetically distinct group.

Secretome of Animal Trypanosomes

Animal trypanosomosis is one of the most severe constraints to agricultural development in sub‐Saharan Africa and is also an important disease of livestock in Latin America and Asia. The causative agents are various species of protozoan parasites belonging to the genus Trypanosoma, among which T. congolense and T. evansi are the major pathogenic species. The extracellular position of trypanosomes obliges us to consider both the parasite and its excreted/secreted factors in the course of the physiopathologic process. The advent of proteomics led us to propose a comparative approach of the proteome (i.e., the whole parasite content) and the secretome (i.e., naturally excreted/secreted molecules) of T. congolense and T. evansi with particular attention to common and specific molecules between strains of differing virulence and pathogenicity. The molecular identification of differentially expressed trypanosome molecules correlated with either the virulence process or the pathogenicity will provide new potential molecular targets for improved field diagnosis and chemotherapy of animal trypanosomosis.

Trypanosoma ( Duttonella ) vivax and Typanosomosis in Latin America: Secadera/Huequera/Cacho Hueco

The disease caused by T. vivax is commonly called Nagana in Africa and “secadera/cachera/cacho hueco/huequera” in parts of South America. This chapter will focus on the disease and its causative agent, reviewing new diagnostic methods, economic impact, chemotherapy, phylogenetic analysis of T. vivax isolates from Africa and South America, epidemiological studies in Latin America, and the analysis of recent genomic and transcriptomic data. T. vivax has a significant economic impact on livestock production in sub-Saharan Africa, where it is transmitted by the tsetse fly, and elsewhere in the African continent and in Central and South America, where it is transmitted mechanically. T. vivax is enzootic in most Latin American countries, and recurrent epizootic outbreaks causing significant morbidity and mortality have been reported over the past decades. Several significant landmarks in T. vivax research have been achieved in the last 2 years, including the publication of high-quality draft genome sequences and partial RNA-seq data for the Y486 strain, as well as the complete transcriptome of the LIEM-176 strain. Comparative analysis of the T. vivax, T. brucei, and T. congolense genomes revealed important differences in the surface proteins responsible for host immune response evasion in these species, and data from the T. vivax LIEM-76 transcriptome support the participation of other surface proteins, in addition to the VSG, in immune evasion. Proteins of the trans-sialidase family have been identified as important virulence factors that catalyze the desialylation of the host red blood cell, which in turn triggers the erythrophagocytosis that results in anemia. These findings will provide novel tools to tackle the challenge of controlling animal trypanosomosis caused by T. vivax in the developing world.

Detection of Theileria equi and Babesia caballi infections in Venezuelan horses using Competitive-Inhibition ELISA and PCR.

The focus of this study was the detection of equine piroplasmosis in Distrito Capital, Miranda, Aragua, Guárico and Apure States from Venezuela, using two methods: Competitive-Inhibition ELISA and multiplex PCR and the analysis of the possible differences in occurrence in relation to the primary purpose of the horses, which is related to varied degrees of exposure to tick. Antibody levels to Babesia caballi and Theileria equi were assessed in 694 equine serum samples using Competitive-Inhibition ELISA, while PCR assays were performed in 136 horses, using two sets of oligonucleotides to establish the presence of T. equi, B. caballi or both. The overall seroprevalence of equine piroplasmosis was 50.2%, antibodies to B. caballi were found in 161 horses (23.2%), whereas 97 (14.0%) were seropositive to T. equi and 90 (13.0%) were positives to both parasites (mixed infections). PCR determinations (n=136) showed a prevalence of 66.2%, distributed in 84 (61.8% positives) for T. equi and, 6 (4.4%) were positive to both parasites. The cELISA showed higher levels of prevalence of B. caballi and mixed infections, as compared to the PCR method. This discrepancy can be explained by the different parameters that are evaluated by each technique, PCR detect the parasite itself, while cELISA detects antibodies to the parasite. By PCR, the highest prevalence was found in Apure state, where 92.3% of the samples were positive to T. equi infections. In this locality, free grazing animals are used for livestock management. This high prevalence may be linked to the tick species present in that area. More epidemiological studies will be necessary to assess the epidemiological status of equine piroplasmosis in Venezuela.

Identification and characterization of corpuscular, soluble and secreted antigens of a Venezuelan isolate of Anaplasma marginale.

Anaplasma marginale is the etiological agent of anaplasmosis, a tick-transmitted disease with an important economic impact that affects cattle throughout the world. Although, North American isolates of A. marginale and their antigens have been extensively studied, relatively little information is available on the antigenic composition of South American isolates. The characterization of diverse geographical isolates of A. marginale will result in a thorough antigenic profile and may lead to the identification of additional diagnostic and immunoprophylactic tools. Short-term cultures of a Venezuelan isolate (Ta) of A. marginale were maintained for up to 13 days in vitro. During that period, the A. marginale remained viable and were propagated in the bovine erythrocyte culture system. During the initial days of culture, cell division and reinvasion were evidenced by a significant rise in parasitemia up to a 50%. A. marginale antigens were identified by metabolic labeling with (35S) methionine, followed by fractionation and immunoprecipitation with homologous and heterologous bovine sera. This yielded a complete antigenic set for the Ta isolate of A. marginale, including soluble, secreted and corpuscular polypeptide antigens. Fifteen immunodominant polypeptides were recognized by the bovine sera in the soluble and corpuscular fractions with relative molecular weights of 200, 150, 100-110, 86, 60, 50, 47, 40, 37, 33, 31, 25, 23, 19 and 16kDa. Seven polypeptides were present in the exoantigen fraction. The 31 and 19kDa antigens were recognized by the ANAR76A1 and ANAF16C1 monoclonal antibodies, respectively which are specific for MSP-4 and MSP-5 from North American isolates of A. marginale. Metabolic labeling with (14C) glucosamine prior to immunoprecipitation with bovine sera allowed the identification of glycoprotein antigens of 200, 100-150, 60, 55, 50, 45-43, 37, 33, 31, 22, 19 and 16kDa in the soluble fraction.

Homologous and heterologous immune reactions between Venezuelan geographic isolates of Anaplasma marginale.

In Venezuela, anaplasmosis constitutes an endemic cattle disease with significant prevalence in several geographic regions. 1 Despite the economic losses, the use of profilactic methods have been based on foreign dead and live vaccines of A. marginale , and more recently on stabilates of A. centrale . 2 Studies have been made using native isolates 3 in the quest for a vaccine, but nothing deals with cross reactions between isolates. The goal of the work reported here was to analyze the presence of homologous and heterologous immune reactions between Venezuelan geographic isolates of Anaplasma marginale and to know if there is or is not antigenic reconnaissance, cross immune reactions, and protection between them.

Comparison of infectivity and virulence of clones of Trypanosoma evansi and Ttrypanosoma equiperdum Venezuelan strains in mice

Livestock trypanosomoses, caused by three species of the Trypanozoon subgenus, Trypanosoma brucei brucei, T. evansi and T. equiperdum are widely distributed and limit animal production throughout the world. The infectivity and virulence of clones derived from Trypanosoma evansi and Trypanosoma equiperdum Venezuelan strains were compared in an in vivo mouse model. Primary infectivity and virulence determinants such as survival rates, parasitemia levels, PCV, and changes in body weight and survival rates were monitored for up to 32 days. The T. equiperdum strain was the most virulent, with 100% mortality in mice, with the highest parasitemia levels (7.0 × 107 Tryps/ml) and loss of physical condition. The T. evansi strains induced 100% and 20% fatality in mice. Our results show that the homogeneous parasite populations maintain the virulent phenotype of the original T. equiperdum and T. evansi stocks. This is the first comparative study of infectivity and virulence determinants among clonal populations of T. equiperdum and T. evansi.

Leucograma en novillas y becerros (Holstein) infectados con una cepa venezolana de Trypanosoma vivax

This work had as objective the evaluation of the leucogram in Holstein heifers and calves experimentally infected with a Venezuelan strain of Trypanosoma vivax. The dates were analysed by the Mann-Whitney non-parametric test. The total means comparation of leucocytes in heifers was statistically significative (P < 0.05). The calves produced a neutrophilia when compared the total means for the infected and control groups (P < 0.05). The totals means of linphocytes and monocytes were statistically significative (P < 0.05).