Prevalence of antibodies against chicken anaemia virus (CAV) in broiler breeders in Southern Brazil

Chicks infected during the first two weeks of life with chicken anaemia virus (CAV) manifest clinical disease that can be avoided if the breeder hens transfer enough antibodies to their progeny. The objective of the present work was to establish the prevalence and titer of anti-CAV antibodies in some Brazilian broiler hen breeder flocks and verify in which phase of life the birds were infected. A total of 1,709 serum samples from 12 broiler hen flocks vaccinated against CAV and 64 unvaccinated flocks were analyzed for CAV antibodies with an enzyme-linked immunosorbent assay (ELISA). All non-vaccinated breeder flocks were found to be infected with CAV, with 89% of the hens tested presenting antibodies, 52% of these with titers considered high enough to protect their progeny against CAV infection. Likewise, all vaccinated hens had antibody titer to CAV capable of conferring protection to their progeny. Thus, vaccination of hens seems capable of conferring protection to chicks against clinically apparent CAV-associated disease.

Chicken infectious anemia virus vaccination induces immune disorders and viral persistency in infectious bursal disease virus-infected young chicks

La bursite infectieuse aviaire (IBD) est une des causes majeures de pertes économiques pour l’industrie aviaire. La vaccination est le principal outil de contrôle de cette maladie et les oiseaux susceptibles doivent être vaccinés aussitôt que le niveau des anticorps maternels (MA) anti-IBDV est suffisamment bas. L’estimation du moment de vaccination est habituellement déterminée par la formule de Deventer qui utilise le titre initial de MA anti-IBDV et la demi-vie des anticorps pour prédire l’évolution du titre. Dans la présente étude, l’effet du gain de poids sur la vitesse de disparition des MA a été étudié dans le but de l’utiliser pour prédire la détermination du moment de la vaccination. L’analyse des taux d’anticorps neutralisants par ELISA a montré que les poussins avec une forte croissance avaient un taux de disparition plus rapide des MA que ceux à faible croissance. Une formule pour la prédiction du moment de vaccination contre le IBDV, basée sur le gain de poids et le niveau des MA a été développée et vérifiée. La prédiction du moment de vaccination avec cette formule a montré une haute corrélation avec les titres de MA mesurés par ELISA. Le virus de l’anémie infectieuse aviaire (CIAV) est une cause importante d’immunosuppression chez le poulet augmentant la pathogénicité des infections secondaires et en entraînant une réponse humorale suboptimale et une forte mortalité. D’autre part, l’infections sub-clinique du au CIAV provoque une immunosuppression qui facilite la coinfection par d’autre virus tel que le IBDV. Les effets de la coinfection à J1 avec une souche vaccinale de CIAV CAV-VAC® (Intervet) et à J14 avec une souche faiblement virulente de IBDV isolée au Québec, sur l’état de santé des poussins, sur la persistance virale et sur la réponse immunitaire ont été étudiés autant chez des poussins de 1 jour d’âge exempts d’agents pathogènes specifique (SPF) que ceux provenant d’élevages commerciaux. Les résultats ont montré que l’inoculation de la souche vaccinale du CIAV a entraîné une infection sub-clinique, une persistance virale dans la rate et le thymus, une altération de la thymopoièse et une réponse humorale temporaire chez les poussins SPF. Ces effets ont aussi été mis en évidence chez des poussins d’élevage commerciaux malgré des taux élevés de MA. Lors de l’infection avec la souche de IBDV chez des poussins déjà vaccinés contre le CIAV, la persistance du CIAV dans les organes lymphoïdes a été aggravée par une présence de réponses humorales temporaires contre les deux virus et une altération des populations lymphocytaires dans les organes lymphoïdes. Par contre, la présence des MA contre le CIAV a limité temporairement ces effets. Ces travaux ont mis en évidence des désordres immunitaires cellulaires et humoraux et une persistance virale chez des poussins vaccinés contre le CIAV et co-infectés avec le IBDV.

Um protocolo de "nested-PCR" para detecção do vírus da anemia das galinhas

Este trabalho descreve o estabelecimento de um pro!tocolo de "nested-PCR" para a detecção do vírus da anemia das galinhas (CAV, chicken anemia virus), agente causador da anemia infecciosa das galinhas. Para a extração de DNA a partir de amostras clínicas um método baseado no uso de tiocianato de guanidina mostrou-se mais sensível e prático, do que os demais avaliados. Para a PCR inicial foi selecionado um par de primers que amplifica uma região de 664 pares de bases (pb) do gene VP1. Para a "nested-PCR" propriamente dita, foi selecionado um segundo par que amplifica uma região interna de 520 pb. A especificidade dos primers foi avaliada utilizando amostras de lotes controlados para CAV. Outras trinta amostras vírus e bactérias, causadoras de doenças em aves, não geraram produto de amplificação. A sensibilidade do teste foi determinada a partir de diluições seriadas de uma amostra vacinal de CAV. A "nested-PCR" mostrou ser mais sensível do que a PCR e foi capaz de detectar pelo menos 0,16 TCID50% da cepa vacinal. Além disso, detectou DNA viral em tecidos, soro e cama aviária de lotes com e sem sinais clínicos. Conclui-se que, como técnica para a detecção do CAV, o protocolo de "nested-PCR" aqui descrito, é mais sensível, rápido e menos trabalhoso do que o isolamento viral em cultivo celular.

Prevalência de anticorpos contra o vírus da anemia infecciosa das galinhas em matrizes de corte na região sul do Brasil.

O vírus da anemia infecciosa das galinhas (CAV, de “chicken anemia virus”), causa doença em aves jovens, caracterizada por anemia aplástica, atrofia linfóide generalizada e conseqüente imunodepressão. A doença clínica ocorre quando os pintos são infectados durante as duas primeiras semanas de vida e pode ser evitada se as reprodutoras passarem anticorpos em quantidade suficiente para sua progênie. Após as duas semanas de idade, as aves podem se infectar com o vírus, porém não desenvolverão a doença clínica. As matrizes infectadas durante o período de reprodução não demonstram sinais clínicos, nem alterações na postura, fertilidade dos ovos e viabilidade embrionária. Após algumas semanas, desenvolvem anticorpos que irão controlar a infecção e serão passados para o ovo, protegendo total ou parcialmente a progênie durante a fase de suscetibilidade a doença. O objetivo deste trabalho foi determinar o estado imune das matrizes, através da determinação da prevalência dos anticorpos em indivíduos e lotes de matrizes, determinar em que fase da criação as matrizes se infectaram e verificar se os títulos de anticorpos das matrizes eram suficientes para proteger a sua progênie. Fizeram parte deste estudo, 20 empresas da Região Sul do País (Paraná, Santa Catarina, Rio Grande do Sul), totalizando 64 lotes de matrizes não vacinadas e 12 lotes de matrizes vacinadas contra o CAV. Foram analisados 1709 soros através de um “kit” de ELISA indireto (KPL). A criação das matrizes foi dividida em quatro fases (Recria, 1ª, 2ª e 3ª fase de produção) para a coleta das amostras e constatou-se que todos os lotes de matrizes de corte não vacinados possuíam aves com anticorpos contra o CAV, 88,86% das matrizes foram soropositivas e 52,33% destas matrizes apresentaram títulos protetores para a progênie. Isto demonstrou que a maioria das aves se infectou durante a sua vida, entretanto, 47,67% das matrizes produziram uma progênie suscetível ou parcialmente protegida. A prevalência de matrizes não vacinadas soropositivas manteve-se constante a partir da fase de recria até o pico de produção, caindo no último terço da produção. Em todas as matrizes vacinadas foram encontrados anticorpos contra o CAV com títulos protetores para a progênie.

Comparação do desempenho de frangos positivos e negativos para a presença de anticorpos contra o vírus da anemia das galinhas

O vírus da anemia das galinhas – CAV (chicken anemia virus) está presente em praticamente todos os países com produção avícola investigados, inclusive no Brasil. O CAV causa a doença chamada de anemia infecciosa das galinhas em aves jovens, que se caracteriza por anemia, aplasia de medula óssea, retardo no crescimento, mortalidade variável (2 a 20%), atrofia de órgãos linfóides e imunodepressão. O controle da anemia infecciosa das galinhas é baseado na transferência de imunidade passiva das matrizes à progênie. A transferência de anticorpos maternos via ovo em nível suficiente é uma forma de prevenir a transmissão vertical do vírus, reduzindo assim a ocorrência de surtos da doença. Este trabalho teve como objetivo comparar o desempenho entre frangos nascidos positivos e negativos para a presença de anticorpos contra o CAV. Para isso, foram utilizados dois lotes de matrizes pesadas, sendo um vacinado e o outro não. Com a progênie obtida dessas matrizes de ambos os lotes, foram constituídos três tratamentos com 50 fêmeas e 50 machos cada: T1 - pintos oriundos de matrizes vacinadas com títulos protetores; T2 - pintos oriundos de matrizes não vacinadas com títulos médios e; T3 - pintos oriundos de matrizes não vacinadas e negativas ou com títulos baixos. Todos os tratamentos permaneceram em regime de criação intensiva usual por 47 dias em 5 propriedades diferentes, portanto o experimento teve 5 repetições. Os dados analisados foram o peso inicial e final, conversão alimentar e mortalidade. Como resultado, foi observado que não houve diferença significativa (p>0,05) no peso final entre os tratamentos com relação as fêmeas. Já, nos machos, os frangos negativos (T3) foram significativamente (p<0,05) mais pesados que os frangos positivos (T1 e T2). Não houve diferença significativa (p>0,05) entre os tratamentos em relação à mortalidade e a conversão alimentar. A análise do soro e histologia do timo determinaram a não ocorrência do desafio durante o período de criação dos frangos. A vacinação das matrizes contra o CAV não gerou títulos de anticorpos superiores aos obtidos nas matrizes não vacinadas e infectadas naturalmente. Este estudo indicou que a presença de anticorpos contra o CAV em frangos de corte, seja através da vacinação ou da infecção natural das matrizes, não gerou uma progênie com melhor desempenho nas condições de criação testadas.

Emerging animal viruses: real threats or simple bystanders?

The list of animal viruses has been frequently added of new members raising permanent concerns to virologists and veterinarians. The pathogenic potential and association with disease have been clearly demonstrated for some, but not for all of these emerging viruses. This review describes recent discoveries of animal viruses and their potential relevance for veterinary practice. Dogs were considered refractory to influenza viruses until 2004, when an influenza A virus subtype H3N8 was transmitted from horses and produced severe respiratory disease in racing greyhounds in Florida/USA. The novel virus, named canine influenza virus (CIV), is considered now a separate virus lineage and has spread among urban canine population in the USA. A new pestivirus (Flaviviridae), tentatively called HoBi-like pestivirus, was identified in 2004 in commercial fetal bovine serum from Brazil. Hobi-like viruses are genetically and antigenically related to bovine viral diarrhea virus (BVDV) and induce similar clinical manifestations. These novel viruses seem to be widespread in Brazilian herds and have also been detected in Southeast Asia and Europe. In 2011, a novel mosquito-borne orthobunyavirus, named Schmallenberg virus (SBV), was associated with fever, drop in milk production, abortion and newborn malformation in cattle and sheep in Germany. Subsequently, the virus disseminated over several European countries and currently represents a real treat for animal health. The origin of SBV is still a matter of debate but it may be a reassortant from previous known bunyaviruses Shamonda and Satuperi. Hepatitis E virus (HEV, family Hepeviridae) is a long known agent of human acute hepatitis and in 1997 was first identified in pigs. Current data indicates that swine HEV is spread worldwide, mainly associated with subclinical infection. Two of the four HEV genotypes are zoonotic and may be transmitted between swine and human by contaminated water and undercooked pork meat. The current distribution and impact of HEV infection in swine production are largely unknown. Avian gyrovirus type 2 (AGV2) is a newly described Gyrovirus, family Circoviridae, which was unexpectedly found in sera of poultry suspected to be infected with chicken anemia virus (CAV). AGV2 is closely related to CAV but displays sufficient genomic differences to be classified as a distinct species. AGV2 seems to be distributed in Brazil and also in other countries but its pathogenic role for chickens is still under investigation. Finally, the long time and intensive search for animal relatives of human hepatitis C virus (HCV) has led to the identification of novel hepaciviruses in dogs (canine hepacivirus [CHV]), horses (non-primate hepaciviruses [NPHV] or Theiler's disease associated virus [TDAV]) and rodents. For these, a clear and definitive association with disease is still lacking and only time and investigation will tell whether they are real disease agents or simple spectators.

T-cell reprogramming through targeted CD4-coreceptor and T-cell receptor expression on maturing thymocytes by latent Circoviridae family member porcine circovirus type 2 cell infections in the thymus

Although porcine circovirus type 2 (PCV2)-associated diseases have been evaluated for known immune evasion strategies, the pathogenicity of these viruses remained concealed for decades. Surprisingly, the same viruses that cause panzootics in livestock are widespread in young, unaffected animals. Recently, evidence has emerged that circovirus-like viruses are also linked to complex diseases in humans, including children. We detected PCV2 genome-carrying cells in fetal pig thymi. To elucidate virus pathogenicity, we developed a new pig infection model by in vivo transfection of recombinant PCV2 and the immunosuppressant cofactor cyclosporine A. Using flow cytometry, immunofluorescence and fluorescence in situ hybridization, we found evidence that PCV2 dictates positive and negative selection of maturing T cells in the thymus. We show for the first time that PCV2-infected cells reside at the corticomedullary junction of the thymus. In diseased animals, we found polyclonal deletion of single positive cells (SPs) that may result from a loss of major histocompatibility complex class-II expression at the corticomedullary junction. The percentage of PCV2 antigen-presenting cells correlated with the degree of viremia and, in turn, the severity of the defect in thymocyte maturation. Moreover, the reversed T-cell receptor/CD4-coreceptor expression dichotomy on thymocytes at the CD4(+)CD8(interm) and CD4SP cell stage is viremia-dependent, resulting in a specific hypo-responsiveness of T-helper cells. We compare our results with the only other better-studied member of Circoviridae, chicken anemia virus. Our data show that PCV2 infection leads to thymocyte selection dysregulation, adding a valuable dimension to our understanding of virus pathogenicity.

Immunogenicity and tolerability of a virosome influenza vaccine compared to split influenza vaccine in patients with sickle cell anemia

The immunogenicity and tolerability of virosome and of split influenza vaccines in patients with sickle cell anemia (SS) were evaluated Ninety SS patients from 8 to 34 years old were randomly assigned to receive either virosome (n = 43) or split vaccine (n = 47) Two blood samples were collected, one before and one 4-6 weeks after vaccination Antibodies against viral strains (2006) A/New Caledonia (H1N1), A/California (H3N2), B/Malaysia were determined using the hemagglutinin inhibition test Post-vaccine reactions were recorded over 7 days Seroconversion rates for HI NI, H3N2 and B were 65 1%. 60 4% and 83 7% for virosome vaccine, and 68 0%, 61 7% and 68 0% for split vaccine Seroprotection rates for HI NI, H3N2 e B were 100%. 97 6% and 69.7% for virosome. and 97 8%, 97 8% and 76 6% for split vaccine No severe adverse reactions were recorded Virosome and split vaccines in patients with sickle cell anemia were equally Immunogenic. with high seroconversion and seroprotection rates Both vaccines were well tolerated (C) 2009 Elsevier Ltd All rights reserved

Development of disabled, replication-defective gene transfer vectors from the Jembrana disease virus, a new infectious agent of cattle

Jembrana disease virus (JDV) is a newly isolated and characterised bovine lentivirus. It causes an acute disease in Ball cattle (Bos javanicus). which can be readily transmitted to susceptible cattle with 17% mortality. There is as yet no treatment or preventive vaccine. We have developed a gene transfer vector system based on JDV that has three components. The first of the components is a bicistronic transfer vector plasmid that was constructed to contain cis-sequences from the JDV genome, including 5 '- and 3 ' -long terminal repeats (LTRs), 0.4 kb of truncated gag and 1.1 kb of 3 ' -env, a multiple cloning site to accommodate the gene(s) of interest for transfer, and an internal ribosome entry site plus the neomycin phosphotransferase (Neo) gene cassette for antibiotic selection. The second element is a packaging plasmid that contains trans-sequences. including gag, pol. vif, tar and rev: but without the env and packaging signals. The third is a plasmid encoding the G glycoprotein of vesicular stomatitis virus (VSV-G) to supply the vector an envelope for pseudotyping. Cotransfection of 293T cells with these three plasmid components produced VSV-G pseudotyped. disabled, replication defective, bicistronic JDV vectors encoding the green fluorescent protein (EGFP) and the Neo resistance selection maker simultaneously with a titre range of (0.4-1.2) x 10(6) CFU/ml. Transduction of several replicating primary and transformed cells from cattle, primate and human sources and importantly growth-arrested cells with the JDV vectors showed high efficiency of EGFP gene transfer at 35-75%, which was stable and the expression of EGFP was long term. Furthermore, these JDV vectors were designed to suit the inclusion and expression of genes corresponding to JDV specific proteins, such as gag or env, for the development of vaccines for Jembrana disease. This strategy should also be applicable to other bovine diseases as wall. The design and construction of the JDV vector system should facilitate the study of the lentivirology and pathogenesis of the diseases associated with JDV or other bovine virus infections. To our knowledge, this is the first such vector system developed from a cattle virus. (C) 2001 Elsevier Science B.V. All rights reserved.

Human immunodeficiency virus type 1 reverse transcription is stimulated by Tat from other lentiviruses

The tat gene is required by HIV-1 for efficient reverse transcription and this function of Tat can be distinguished from its role in transcription by RNA polymerase II using tat point mutations that abrogate each function independently The mechanism of Tat's role in reverse transcription, however, is not known, nor is it known whether this role is conserved among trans-activating factors in other retroviruses. Here we examine the abilities of heterologous viral trans-activating proteins from jembrana disease virus (jTat), HIV-2 (Tat2), and equine infectious anemia virus (eTat) to substitute for HIV-1 Tat (Tat1) and restore reverse transcription in HIV-1 carrying an inactivated tat gene. Natural endogenous reverse transcription assays showed that trans-activators from some retroviruses (Tat2 and jTat, but not eTat) could substitute for Tat1 in complementation of HIV-1 reverse transcription. Finally, we show that Y47 is critical for Tat1 to function in reverse transcription, but not HIV-1 gene expression. We mutated the homologous position in jTat to H62Y and found it did not improve its ability to stimulate reverse transcription, but an H62A mutation did inhibit jTat complementation. These data highlight the finding that the role of Tat in reverse transcription is not related to trans-activation and demonstrate that other tat genes conserve this function. (C) 2002 Elsevier Science (USA).

PREVALENCE OF ANTIBODIES AGAINST INFLUENZA VIRUS IN NON-VACCINATED EQUINES FROM THE BRAZILIAN PANTANAL

The prevalence of antibodies against Equine Influenza Virus (EIV) was determined in 529 equines living on ranches in the municipality of Poconé, Pantanal area of Brazil, by means of the hemagglutination inhibition test, using subtype H3N8 as antigen. The distribution and possible association among positive animal and ranches were evaluated by the chi-square test, spatial autoregressive and multiple linear regression models. The prevalence of antibodies against EIV was estimated at 45.2% (95% CI 30.2 - 61.1%) with titers ranging from 20 to 1,280 HAU. Seropositive equines were found on 92.0% of the surveyed ranches. Equine from non-flooded ranches (66.5%) and negativity in equine infectious anemia virus (EIAV) (61.7%) were associated with antibodies against EIV. No spatial correlation was found among the ranches, but the ones located in non-flooded areas were associated with antibodies against EIV. A negative correlation was found between the prevalence of antibodies against EIV and the presence of EIAV positive animals on the ranches. The high prevalence of antibodies against EIV detected in this study suggests that the virus is circulating among the animals, and this statistical analysis indicates that the movement and aggregation of animals are factors associated to the transmission of the virus in the region.

Equine infectious anemia on Marajo Island at the mouth of the Amazon river

Abstract: Equine infectious anemia (EIA) is a transmissible and incurable disease caused by a lentivirus, the equine infectious anemia virus (EIAV). There are no reports in the literature of this infection in Equidae on Marajo Island. The objective of this study was to diagnose the disease in the municipalities of Cachoeira do Arari, Salvaterra, Santa Cruz do Arari and Soure, on Marajó Island, state of Pará, Brazil. For serological survey samples were collected from 294 horses, over 5-month-old, males and females of puruca and marajoara breeds and from some half-breeds, which were tested by immunodiffusion in Agar gel (AGID). A prevalence of 46.26% (136/294) positive cases was found. EIA is considered endemic in the municipalities studied, due to the ecology of the region with a high numbered population of bloodsucking insect vectors and the absence of official measures for the control of the disease.

Initiation of (-) strand DNA synthesis from tRNA(3Lys) on lentiviral RNAs: implications of specific HIV-1 RNA-tRNA(3Lys) interactions inhibiting primer utilization by retroviral reverse transcriptases.

Initiation of minus (-) strand DNA synthesis was examined on templates containing R, U5, and primer-binding site regions of the human immunodeficiency virus type 1 (HIV-1), feline immunodeficiency virus (FIV), and equine infectious anemia virus (EIAV) genomic RNA. DNA synthesis was initiated from (i) an oligoribonucleotide complementary to the primer-binding sites, (ii) synthetic tRNA(3Lys), and (iii) natural tRNA(3Lys), by the reverse transcriptases of HIV-1, FIV, EIAV, simian immunodeficiency virus, HIV type 2 (HIV-2), Moloney murine leukemia virus, and avian myeloblastosis virus. All enzymes used an oligonucleotide on wild-type HIV-1 RNA, whereas only a limited number initiated (-) strand DNA synthesis from either tRNA(3Lys). In contrast, all enzymes supported efficient tRNA(3Lys)-primed (-) strand DNA synthesis on the genomes of FIV and EIAV. This may be in part attributable to the observation that the U5-inverted repeat stem-loop of the EIAV and FIV genomes lacks an A-rich loop shown with HIV-1 to interact with the U-rich tRNA anticodon loop. Deletion of this loop in HIV-1 RNA, or disrupting a critical loop-loop complex by tRNA(3Lys) extended by 9 nt, restored synthesis of HIV-1 (-) strand DNA from primer tRNA(3Lys) by all enzymes. Thus, divergent evolution of lentiviruses may have resulted in different mechanisms to use the same host tRNA for initiation of reverse transcription.

Serological detection of West Nile virus in horses and chicken from Pantanal, Brazil

In an effort to detect West Nile virus (WNV) in Brazil, we sampled serum from horses and chickens from the Pantanal region of the state of Mato Grosso and tested for flavivirus-reactive antibodies by blocking ELISA. The positive samples were further confirmed for serological evidence of WNV infection in three (8%) of the 38 horses and one (3.2%) of the 31 chickens using an 80% plaque-reduction neutralisation test (PRNT80). These results provide evidence of the circulation of WNV in chickens and horses in Pantanal.

Hepatitis C virus infection in a Brazilian population with sickle-cell anemia

Patients with sickle-cell anemia submitted to frequent blood transfusions are at risk of contamination with hepatitis C virus (HCV). Determination of HCV RNA and genotype characterization are parameters that are relevant for the treatment of the viral infection. The objective of the present study was to determine the frequency of HCV infection and the positivity for HCV RNA and to identify the HCV genotype in patients with sickle-cell anemia with a history of blood transfusion who had been treated at the Hospital of the HEMOPE Foundation. Sera from 291 patients were tested for anti-HCV antibodies by ELISA 3.0 and RIBA 3.0 Chiron and for the presence of HCV RNA by RT-PCR. HCV genotyping was performed in 19 serum samples. Forty-one of 291 patients (14.1%) were anti-HCV positive by ELISA and RIBA. Both univariate and multivariate analysis showed a greater risk of anti-HCV positivity in those who had started a transfusion regime before 1992 and received more than 10 units of blood. Thirty-four of the anti-HCV-positive patients (34/41, 82.9%) were also HCV RNA positive. Univariate analysis, used to compare HCV RNA-negative and -positive patients, did not indicate a higher risk of HCV RNA positivity for any of the variables evaluated. The genotypes identified were 1b (63%), 1a (21%) and 3a (16%). A high prevalence of HCV infection was observed in our patients with sickle-cell anemia (14.1%) compared to the population in general (3%). In the literature, the frequency of HCV infection in sickle-cell anemia ranges from 2 to 30%. The serological screening for anti-HCV at blood banks after 1992 has contributed to a better control of the dissemination of HCV infection. Because of the predominance of genotype 1, these patients belong to a group requiring special treatment, with a probable indication of new therapeutic options against HCV.