Antibody responses in mice after immunization with inactivated bovine respiratory syncytial virus using different adjuvants

Bovine respiratory syncytial virus (BRSV) causes pneumonia in young cattle. Modified-live-virus (MLV) and inactivated vaccines are currently used for the control of clinical effects of BRSV infections in cattle. On the present research, the stimulation of specific anti-BRSV immunoglobulin isotypes was investigated, through the use of different commercially available adjuvants (Water-in-oil emulsion, Quil A, Aluminum-hydroxide) in inbred mice (Balb/C and C57BL/6). BRSV antibodies were measured using an enzyme-linked immunosorbent assay (ELISA) and the results were compared to the antibody levels induced by immunization of animals using live-BRSV-virus. Water-in-oil emulsion and alum- adjuvant preparations induced higher levels of IgG1 immunoglobulins, whereas Quil A favored the production of IgG2 antibodies, this last being a more appropriate response profile for the specific case of BRSV. Not using adjuvants resulted in poor levels of specific antibodies. The isotype profile of specific antibodies obtained varied greatly depending on the adjuvants used. This information may be useful for the formulation of more effective BRSV inactivated vaccines; however, these findings have to be confirmed in cattle

Respostas de anticorpos em camundongos após imunização com vírus respiratório sincicial bovino inativado utilizando diferentes adjuvantes

Bovine respiratory syncytial virus (BRSV) causes pneumonia in young cattle. Modified-live-virus (MLV) and inactivated vaccines are currently used for the control of clinical effects of BRSV infections in cattle. On the present research, the stimulation of specific anti-BRSV immunoglobulin isotypes was investigated, through the use of different commercially available adjuvants (Water-in-oil emulsion, Quil A, Aluminum-hydroxide) in inbred mice (Balb/C and C57BL/6). BRSV antibodies were measured using an enzyme-linked immunosorbent assay (ELISA) and the results were compared to the antibody levels induced by immunization of animals using live-BRSV-virus. Water-in-oil emulsion and alum- adjuvant preparations induced higher levels of IgG1 immunoglobulins, whereas Quil A favored the production of IgG2 antibodies, this last being a more appropriate response profile for the specific case of BRSV. Not using adjuvants resulted in poor levels of specific antibodies. The isotype profile of specific antibodies obtained varied greatly depending on the adjuvants used. This information may be useful for the formulation of more effective BRSV inactivated vaccines; however, these findings have to be confirmed in cattle.O vírus respiratório sincicial bovino (BRSV) causa pneumonia em bovinos jovens. Vacinas de vírus vivo modificado (MLV) e vacinas inativadas são atualmente utilizadas para o controle dos efeitos clínicos de infecções pelo BRSV em bovinos. No presente trabalho, investigou-se a estimulação dos isotipos de imunoglobulinas específicas anti-BRSV, através da utilização de diferentes adjuvantes disponíveis comercialmente (água em óleo de emulsão, Quil A, hidróxido de alumínio) em camundongos isogênicos (Balb/C e C57BL/6). Anticorpos contra o BRSV foram medidos usando-se um ensaio imunoenzimático (ELISA), e os resultados foram comparados com os níveis de anticorpos induzidos pela imunização de animais utilizando-se o BRSV vivo. As preparações em que se empregou óleo mineral e alumínio como adjuvantes induziram altos níveis de imunoglobulinas IgG1, enquanto QuilA favoreceu a produção de anticorpos de classe IgG2, sendo este último um perfil de resposta mais desejável para o caso específico de BRSV. A não utilização de adjuvantes resultou em baixa produção de anticorpos específicos. O perfil de isotipos de imunoglobulinas secretados variou bastante conforme o adjuvante utilizado. Esta informação pode ser útil futuramente na formulação de vacinas inativadas mais eficazes contra o BRSV. Todavia, esses achados devem ser confirmados em bovinos.23322337Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq

Metagenomics and Pandemic Viruses

Humanity’s history contains many pandemic reports and now the scientific community has the possibility to identify the pathogens before the disease emergency. In this perspective, it is essential to carry out large-scale epidemiological studies in key animals that are in constant contact with humans. For this, the next generation sequencing (NGS) by the metagenomic approach—genetic material recovered directly from samples without previous amplification—is able to reveal the hidden microbial diversity. Metagenomes’ work aims to contribute to the facilitation of epidemiological studies through the adoption of simple effective strategies for the pathogens’ identification, understanding the evolutionary dynamic of them before the pandemic time. Here, we have presented some examples related to the successful metagenomic approaches and the continuous advice of the researchers to identify viruses and other possible pandemic pathogens

Molecular detection and phylogenetic analysis of bovine respiratory syncytial virus (BRSV) in swabs and lung tissues of adult cattle

Bovine respiratory syncytial viruses virus (BRSV) is one of the etiologic agents of pneumonia in young cattle. Few studies have been made aiming detection of the virus in samples collected from adult animals, especially those asymptomatic bovines. However, it is assumed that infections in these groups may occur mostly asymptomatic and this would be an important mechanism for maintaining of BRSV in herds. In this study, the goal was to conduct an analysis of the occurrence of asymptomatic infections by BRSV in lung samples (n=68) and nasal swabs (209) taken from adult animals collected in abattoirs from Southern and Southeastern Brazil respectively, to detect via polymerase chain reaction the occurrence of infected animals in populations of adult cattle. The samples that resulted positive (6) on RT-PCR were subsequently subjected to cutting with restriction enzymes and sequencing for genetic characterization (2 samples). All samples belongs to subgroup B of BRSV, which is reported as the one circulating in Brazil. The results obtained demonstrate that BRSV may be present in samples taken from adult animals, which is in agreement the hypothesis that infections in adults run in a sub-clinical way that may be of importance as a maintenance mechanism of the virus in bovine herds.O vírus respiratório sincicial bovino (BRSV) é um dos agentes etiológicos de pneumonias em bovinos jovens. Poucos estudos foram realizados visando à detecção do agente em amostras coletadas de animais adultos, e em especial de bovinos assintomáticos. No entanto, presume-se que as infecções ocorridas nestes grupos possam ocorrer em sua maioria de forma assintomática e este seria um mecanismo importante para manutenção do BRSV nos rebanhos. No presente estudo, o objetivo foi realizar uma análise da prevalência de infecções assintomáticas pelo BRSV em pulmões (n=68) e swabs nasais (209) coletados de bovinos adultos coletadas em frigoríficos da região Sul e Sudeste respectivamente, no sentido de detectar por intermédio de reação da polimerase em cadeia qual a taxa de animais infectados em populações de animais adultos onde não ocorram sinais clínicos da infecção. As amostras positivas à RT-PCR (6) foram posteriormente submetidas ao corte com enzimas de restrição (REA) e sequenciamento para caracterização genética do gene F (2 das amostras). Todas as amostras se enquadram no subgrupo B de BRSV, o grupo circulante no Brasil conforme estudos anteriores. Os resultados obtidos demonstram que o BRSV pode estar presente em amostras obtidas de animais sadios, reforçando a hipótese de que infecções subclínicas fazem parte do mecanismo de manutenção do vírus nos rebanhos.961966Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq

Epidemiological And Genetic Characteristics Associated With The Severity Of Acute Viral Bronchiolitis By Respiratory Syncytial Virus.

to assess the epidemiological and genetic factors associated with severity of acute viral bronchiolitis (AVB) by respiratory syncytial virus (RSV). the key words bronchiolitis, risk factor, genetics and respiratory syncytial virus, and all combinations among them were used to perform a search in the PubMed, SciELO, and Lilacs databases, of articles published after the year 2000 that included individuals younger than 2 years of age. a total of 1,259 articles were found, and their respective summaries were read. Of these, 81 were selected, which assessed risk factors for the severity of AVB, and were read in full; the 60 most relevant studies were included. The epidemiologic factors associated with AVB severity by RSV were prematurity, passive smoking, young age, lack of breastfeeding, chronic lung disease, congenital heart disease, male gender, ethnicity, viral coinfection, low weight at admission, maternal smoking during pregnancy, atopic dermatitis, mechanical ventilation in the neonatal period, maternal history of atopy and/or asthma during pregnancy, season of birth, low socioeconomic status, Down syndrome, environmental pollution, living at an altitude > 2,500 meters above sea level, and cesarean section birth. Conversely, some children with severe AVB did not present any of these risk factors. In this regard, recent studies have verified the influence of genetic factors on the severity of AVB by RSV. Polymorphisms of the TLRs, RANTES, JUN, IFNA5, NOS2, CX3CR1, ILs, and VDR genes have been shown to be associated with more severe evolution of AVB by RSV. the severity of AVB by RSV is a phenomenon that depends on the varying degrees of interaction among epidemiological, environmental, and genetic variables.89531-4

Detection Of Bovine Respiratory Syncytial Virus In Experimentally Infected Balb/c Mice.

The present study used an RT-nested-PCR and an immunohistochemistry assay to detect bovine respiratory syncytial virus in tissues from experimentally infected balb/c mice. As a first step, Chicken Embryo Related (CER) cell monolayers infected with the BRSV-25-BR strain isolated in Brazil were used for antigen production. Then, the infected lung and tracheal tissues of female balb/c mice were collected on 3, 5, 7 and 10 days post-infection and submitted to both techniques. Primers specific to F and G genes that amplify fragments of 481 bp and 371 bp, respectively, were used. The BRSV detection was not successful in all of the animals tested. The genomic fragment of the G gene from the organs of some infected mice on all analyzed post-infection days was amplified. However, in the RT-nested-PCR corresponding to the F gene, it was not possible to observe any amplified fragment. This was probably due to the higher sensitivity of the developed technique to amplify the fragment corresponding to the G gene compared to the F gene. Moreover, only three of the lungs collected five days post-infection were positive by immunohistochemistry. To the author's knowledge, this is the first study reporting bovine respiratory syncytial virus detection in balb/c mice after experimental inoculation.35189-9

Human Respiratory Syncytial Virus and Human Metapneumovirus

O Vírus respiratório sincicial humano (hRSV - human respiratory syncytial virus) e o Metapneumovírus humano (hMPV - human metapneumovirus) são os principais agentes etiológicos identificados nas infecções respiratórias agudas (IRAs). As IRAs representam importante causa de morbidade e mortalidade em crianças no mundo todo. hRSV e hMPV são membros da família Paramyxoviridae. São vírus envelopados, não-segmentados dotados de genoma de RNA de fita simples com sentido negativo. O hRSV é o agente viral melhor caracterizado neste grupo, associado à doença do trato respiratório inferior. Recentemente foi identificado um novo patógeno humano pertencente à subfamília Pneumovirinae, o hMPV, o qual possui similaridades com o hRSV, na sua organização genômica, estrutura viral, antigenicidade e sintomas clínicos. A subfamília Pneumovirinae contém dois gêneros: gênero Pneumovirus que contêm o hRSV, o RSV bovino (bRSV - bovine RSV), bem como os RSV ovino, caprino e o vírus da pneumonia murina, o segundo gênero Metapneumovirus que consiste do MPV aviário (aMPV - avian MPV) e hMPV. Neste trabalho, apresentamos uma breve revisão narrativa da literatura sobre aspectos importantes da biologia, epidemiologia e manifestações clínicas das infecções por estes dois vírus respiratórios.The human respiratory syncytial virus (hRSV) and the human metapneumovírus (hMPV) are main etiological agents of acute respiratory infections (ARI). The ARI is an important cause of childhood morbidity and mortality worldwide.  hRSV and hMPV are members of the Paramyxoviridae. They are enveloped, non-segmented viruses, with negative-sense single stranded genomes. Respiratory syncytial virus (hRSV) is the best characterized agent viral of this group, associated with respiratory diseases in lower respiratory tract. Recently, a new human pathogen belonging to the subfamily Pneumovirinae was identified, the human metapneumovirus (hMPV), which is structurally similar to the hRSV, in genomic organization, viral structure, antigenicity and clinical symptoms.  The subfamily Pneumovirinae contains two genera: genus Pneumovirus contains hRSV, the bovine (bRSV), as well as the ovine and caprine respiratory syncytial virus and pneumonia virus of mice, the second genus Metapneumovirus, consists of avian metapneumovirus (aMPV) and human metapneumovirus (hMPV). In this work, we present a brief narrative review of the literature on important aspects of the biology, epidemiology and clinical manifestations of infections by two respiratory viruses

Antiviral Activity Of Bacillus Sp. Isolated From The Marine Sponge Petromica Citrina Against Bovine Viral Diarrhea Virus, A Surrogate Model Of The Hepatitis C Virus.

The Hepatitis C virus causes chronic infections in humans, which can develop to liver cirrhosis and hepatocellular carcinoma. The Bovine viral diarrhea virus is used as a surrogate model for antiviral assays for the HCV. From marine invertebrates and microorganisms isolated from them, extracts were prepared for assessment of their possible antiviral activity. Of the 128 tested, 2 were considered active and 1 was considered promising. The best result was obtained from the extracts produced from the Bacillus sp. isolated from the sponge Petromica citrina. The extracts 555 (500 µg/mL, SI>18) and 584 (150 µg/mL, SI 27) showed a percentage of protection of 98% against BVDV, and the extract 616, 90% of protection. All of them showed activity during the viral adsorption. Thus, various substances are active on these studied organisms and may lead to the development of drugs which ensure an alternative therapy for the treatment of hepatitis C.51219-3

Molecular detection and phylogenetic analysis of the gene H from canine distemper virus isolates circulating at the municipality of Campinas, São Paulo

Canine distemper virus (CDV), a Morbillivirus of the family Paramyxoviridae, is the etiological agent of neurological and systemic disease in dogs. The laboratory diagnosis of infection requires viral isolation or detection of genetic material of the virus in secretions or tissues of dogs with clinical suspicion of the disease. The genetic diversity among isolates of CDV can be assessed by sequencing and phylogenetic analysis of the gene that encodes the viral hemagglutinin (H gene), and there is currently a special interest in comparing the strains currently circulating in the field with the genogroup America-1, which comprises strains present in vaccines available in the market. In this study, the molecular detection of CDV gene H was performed from biological samples harvested ante-and post-mortem from 15 dogs with clinical signs suggestive of canine distemper in the metropolitan region of Campinas, São Paulo. Ten of the 15 dogs examined had at least one positive organ under molecular detection and the obtained amplicons were sequenced and further analyzed by molecular phylogenetic analysis. Similarly to what has already been reported on previous studies regarding the diversity of the gene H in other countries, the phylogenetic reconstruction obtained for the samples of cases of distemper from Campinas region showed they were grouped with the North American, European and Japanese newly described samples, a genetic group distinguished from classical samples of CDV, named America-1, which encompasses the vaccine strains Snyder Hill, Onderstepoort and Lederle.O vírus da cinomose canina (CDV), um Morbillivirus da família Paramyxoviridae, é o agente etiológico de doença neurológica e sistêmica em cães. O diagnóstico laboratorial da infecção requer o isolamento viral ou detecção do material genético do vírus em secreções ou tecidos de cães com suspeita clínica da doença. A diversidade genética entre os isolados de CDV pode ser aferida pelo sequenciamento efilogenia molecular do gene que codifica a hemaglutinina viral (gene H), havendo atualmente um especial interesse em comparar as amostras circulantes a campo com o genogrupo América-1, que abrange as cepas presentes nas vacinas disponíveis no mercado. No presente estudo, foi realizada a detecção molecular do gene H de CDV a partir de amostras biológicas colhidas ante- e post- -mortem de 15 cães com sinais clínicos sugestivos de cinomose na região metropolitana de Campinas, São Paulo. Dez dos 15 cães analisados tiveram ao menos um órgão positivo na detecção molecular e os amplicons obtidos foram submetidos ao sequenciamento nucleotídico seguido de análise filogenética molecular. De forma semelhante ao que já foi reportado para estudo analisando a diversidade do gene H em outros países, a reconstrução filogenética obtida para as amostras de casos de cinomose da região de Campinas demonstrou as mesmas foram agrupadas junto a amostras norte-americanas, europeias e japonesas recentes, em um grupo genético distinto do grupo de amostras clássicas de CDV, nomeado America-1, o qual engloba as estirpes vacinais Snyder Hill, Onderstepoort e Lederle.7277Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq