Infecção de aves por mutantes de Salmonella sorotipos gallinarum, pullorum e enteritidis com deleção nos genes cobS E cbiA

Salmonella enterica sorotipo Typhimurium sintetiza cobalamina (Vitamina B12) apenas sobre condições anaeróbicas. Dois porcento do genoma da S. Typhimurium é dedicado a reações dependentes de vitamina B12 como cofator, sua síntese e absorção. Neste estudo nós preparamos mutantes de Salmonella sorotipos Enteritidis, Gallinarum e Pullorum duplo defectivos na biossintese de cobalamina, cepas ΔcobSΔcbiA. A virulência destes mutantes foi comparada com as respectivas cepas selvagens e, nenhuma deficiência na capacidade de causar doença foi observada para as cepas de S. Enteritidis ΔcobSΔcbiA e S. Pullorum ΔcobSΔcbiA. S. Gallinarum ΔcobSΔcbiA por sua vez, mostrou atenuação total. Posteriormente nós testamos a produção de B12 pelas cepas mutantes e selvagens já descritas, e incluímos neste estudo a cepa de S. Typhimurium ΔcobSΔcbiA, e sua respectiva cepa selvagem. Todas as cepas mutantes não tiveram produção de B12 detectada. As cepas selvagens mostraram produção de vitamina B12 em ambos os ensaios utilizados, com exceção da S. Gallinarum que não apresentou produção de cobalamina in vitro. Como conclusão, a produção de vitamina B12 in vitro diferiu entre os sorotipos de Salmonella testados, a deleção dos genes cbiA e cobS produziu alteração na relação parasita hospedeiro em diferentes níveis entre os sorotipos de Salmonella estudados, sendo que esta foi muito maior entre o sorotipo Gallinarum e as aves.Salmonella enterica serovar Typhimurium only synthesizes cobalamin (Vitamin B12) during anaerobiosis. Two-percent of the S. Typhimurium genome is devoted to the synthesis and uptake of Vitamin B12 and to B12-dependent reactions. In order to understand the requirement from cobalamin synthesis better, we constructed Salmonella serovar Gallinarum, Salmonella serovar Enteritidis and Salmonella serovar Pullorum mutants that are double-defective in cobalamin biosynthesis (ΔcobSΔcbiA). We compared the virulence of these mutants to that of their respective wild type strains and found no impairment in S. Enteritidis ΔcobSΔcbiA and S. Pullorum ΔcobSΔcbiA ability to cause disease in chickens. S. Gallinarum ΔcobSΔcbiA mutant showed attenuated for chickens. We then assessed B12 production by these mutants and their respective wild type strains, as well as S. Typhimurium ΔcobSΔcbiA, and their respective wild type strain. All mutants were unable to produce detectable B12. B12 was detectable in wild type strains, but, S. Gallinarum demonstrated no in vitro cobalamin production. In conclusion, the production of vitamin B12 in vitro differed across the Salmonella serotypes that were tested. Furthermore, the deletion of the cbiA and cobS genes resulted in an alteration in the relationship between the serotype Gallinarum and the birds more stronger than did to the others serotypes.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Site-directed mutagesesis in an avian pathogenic Escherichia coli (APEC) isolated from a swollen head sindrome case : analisis in vitro and in vivo

Orientadores: Wanderley Dias da Silveira, Marcelo BrocchiTese (doutorado) - Universidade Estadual de Campinas, Instituto de BiologiaResumo: Escherichia coli patogênica para aves (APEC) é responsável por inúmeras perdas no setor avícola mundial, por causar uma série de doenças nas aves que se apresentam de forma sistêmica ou localizada as quais são, coletivamente, denominadas colibacilose. Os mecanismos de virulência destas linhagens patogênicas para aves e, possivelmente, patogênicas para seres humanos ainda não foram totalmente elucidados. Este trabalho foi desenvolvido com o intuito de estudar genes possivelmente envolvidos com a patogenicidade de uma linhagem APEC causadora de Síndrome da Cabeça Inchada (SCI-07) ONT:H31, a partir de resultados obtidos em um microarranjo realizado in vitro, o qual comparou a linhagem em estudo à linhagem padrão E. coli EHEC 8624 (linhagem enterohemorrágica). Nove genes, detectados como sendo super-expressos no microarranjo, nas condições estudadas, foram selecionados para construção de mutantes nulos e de seus complementos [feoA (transporte de ferro), nirC (transportador de nitrito), flgE ( gancho flagelar), tyrR (regulador de transcrição da síntese de aminoácidos aromáticos), potF (subunidade periplasmática do transportador putrescina), yehD (possível fimbria), bfr (bacterioferrina), csgA ( subunidade principal da curlina) e entD (enteroquelina)]. Os mutantes construídos foram avaliados quanto as suas capacidades de adesão e invasão em cultivos celulares, e quanto ao seu potencial patogênico em aves de um dia de idade em comparação à cepa selvagem. As linhagens ?bfr, ?csgA e ?nirC apresentaram diminuição da capacidade de adesão em fibroblastos de aves (linhagem FEG) em comparação à linhagem selvagem em ambos os modelos adotados: na presença e ausência de alpha-D-mannopyranoside; a linhagem ?potF apresentou diminuição da adesão apenas na ausência de alpha-D-mannopyranoside. Os mutantes ?csgA e ?tyrR apresentaram redução na capacidade de invadir linhagem de células de trato respiratório humano (linhagem Hep-2). Nenhum mutante avaliado mostrou alteração na capacidade de invadir fibroblastos de aves (linhagem CEC-32). Os mutantes ?flgE e ?tyrR mostraram diminuição na capacidade de invadir e sobreviver em macrófagos de aves (linhagem HD11). A motilidade das linhagens mutantes ?csgA, ?bfr, ?yehD, ?potF, ?entD, ?nirC e ?feoA foi aumentada enquanto o mutante ?tyrR mostrou redução de motilidade e o mutante ?flgE tornou-se imóvel. Nenhuma linhagem mutante obtida mostrou a mesma capacidade da linhagem selvagem em causar mortalidade em aves de um dia; ?feoA tornou-se hipervirulenta e todos os demais mutantes apresentaram atenuação em diferentes graus, sendo a linhagem ?entD totalmente atenuada e, portanto, promissora quanto ao seu uso como linhagem vacinal.para o combate à colibacilose em aves, ou como linhagem carreadoras de epítopos presentes em outras linhagens APECAbstract: Avian Pathogenic Escherichia coli (APEC) is responsible for significant economic loses in the poultry industry worldwide, by cause a range of systemic or localized diseases in poultry collectively termed colibacillosis. The virulence mechanisms of these pathogenic strains for poultry and possibly pathogenic for humans have not been fully elucidated. This work was developed in order to study genes potentially involved in the pathogenicity of an APEC strain isolated from a Swollen Head Syndrome case (SCI- 07) ONT:H31; since the results obtained in a microarray performed in vitro, which compared the SCI-07 strain to the standard strain E. coli 8624 EHEC (enterohemorrhagic strain). Nine overexpressed genes in microarray under the conditions studied were selected for construction of null mutants and their complements [feoA (iron transport), nirC (nitrite transporter), flgE (flagellar hook), tyrR (transcriptional regulator of the aromatic amino acids biosynthesis), potF (periplasmic putrescine transporter subunit), yehD (putative adhesin), bfr (bacterioferritin), csgA (major curling subunit) and entD (enterochelin)]. The mutants constructed were evaluated for their capacity for adhesion and invasion in cell cultures, and for its pathogenic potential in one-day-old chickens in comparison to the wild type strain (WT). The ?bfr, ?csgA and ?nirC strains showed decreased adhesion capacity on avian fibroblasts (CEF cells) compared to the WT in both models adopted: in the presence and absence of alpha-D-mannopyranoside, the ?potF strain showed decrease on adhesion only in the absence of alpha-D-mannopyranoside. The ?csgA and ?tyrR mutants had reduced ability to invade human larynx cell line (Hep-2 cells). No mutant showed changes in the capacity of invade avian fibroblasts birds (CEC-32cells). The ?flgE and ?tyrR mutants showed decreased ability to invade and survive into avian macrophages (HD11 cells). The motility of mutant strains ?csgA, ?bfr, ?yehD, ?potF, ?entD, ?nirC and ?feoA was increased while the ?tyrR mutant showed reduced motility and the mutant ?flgE became nonmotile. No mutant strain showed the same capacity of the WT in cause mortality in one-day-old chickes; ?feoA became hipervirulenta and all other mutants showed attenuation in different degrees, including the ?entD that was completely attenuated and a promising vaccine candidate strain to combat colibacillosis in poultry, or as a carrier strain of epitopes present in other APEC strainsDoutoradoGenetica de MicroorganismosDoutora em Genética e Biologia Molecula

In Vivo Influence Of In Vitro Up-regulated Genes In The Virulence Of An Apec Strain Associated With Swollen Head Syndrome

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Avian Pathogenic Escherichia coli is responsible for significant economic losses in the poultry industry by causing a range of systemic or localized diseases collectively termed colibacillosis. The virulence mechanisms of these strains that are pathogenic in poultry and possibly pathogenic in humans have not yet been fully elucidated. This work was developed to study if over-expressed genes in a microarray assay could be potentially involved in the pathogenicity of an Avian Pathogenic Escherichia coli strain isolated from a swollen head syndrome case. For this study, five over-expressed genes were selected for the construction of null mutants [flgE (flagellar hook), tyrR (transcriptional regulator), potF (putrescine transporter), yehD (putative adhesin) and bfr (bacterioferritin)]. The constructed mutants were evaluated for their capacity for the adhesion and invasion of in vitro cultured cells, their motility capacity, and their pathogenic potential in one-day-old chickens compared with the wild-type strain (WT). The Delta bfr strain showed a decreased adhesion capacity on avian fibroblasts compared with WT, in the presence and absence of alpha-D-mannopyranoside, and the Delta potF strain showed decreased adhesion only in the absence of alpha-D-mannopyranoside. The Delta tyrR mutant had a reduced ability to invade Hep-2 cells. No mutant showed changes in invading CEC-32 cells. The mutants Delta flgE and Delta tyrR showed a decreased ability to survive in HD-11 cells. The motility of the mutant strains Delta bfr, Delta yehD and Delta potF was increased, while the Delta tyrR mutant showed reduction, and the Delta flgE became non-motile. No mutant strain caused the same mortality of the WT in one-day-old chickens, showing attenuation to different degrees.45194105Fundacao de Amparo a Pesquisa do Estado de Sao Paulo [2010/50596-9]Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Requirement for cobalamin by Salmonella enterica serovars Typhimurium, Pullorum, Gallinarum and Enteritidis during infection in chickens

Salmonella enterica serovar Typhimurium synthesizes cobalamin (vitamin B12) only during anaerobiosis. Two percent of the S. Typhimurium genome is devoted to the synthesis and uptake of vitamin B12 and to B12-dependent reactions. To understand the requirement for cobalamin synthesis better, we constructed mutants of Salmonella serovars Enteritidis and Pullorum that are double-defective in cobalamin biosynthesis (ΔcobSΔcbiA). We compared the virulence of these mutants to that of their respective wild type strains and found no impairment in their ability to cause disease in chickens. We then assessed B12 production in these mutants and their respective wild type strains, as well as in S. Typhimurium ΔcobSΔcbiA, Salmonella Gallinarum ΔcobSΔcbiA, and their respective wild type strains. None of the mutants was able to produce detectable B12. B12 was detectable in S. Enteritidis, S. Pullorum and S. Typhimurium wild type strains but not in S. Gallinarum. In conclusion, the production of vitamin B12 in vitro differed across the tested Salmonella serotypes and the deletion of the cbiA and cobS genes resulted in different levels of alteration in the host parasite interaction according to Salmonella serotype tested.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Control of Salmonella Enteritidis and Salmonella Gallinarum in birds by using live vaccine candidate containing attenuated Salmonella Gallinarum mutant strain

The ideal ideal live vaccine to control Salmonella in commercial chicken flocks should engender protection against various strains. The purpose of the present study was to confirm the attenuation of a Salmonella Gallinarum (SG) mutant strain with deletion on genes cobS and cbiA, that are involved in the biosynthesis of cobalamin. Furthermore, evaluate its use as a live vaccine against Salmonella. For the evaluation of the vaccine efficacy, two experiments were conducted separately. Birds from a commercial brown line of chickens were used to perform challenge with SG wild type strain and birds from a commercial white line of chickens were used to perform challenge with Salmonella Enteritidis (SE) wild type strain. In both experiments, the birds were separated in three groups (A, B and C). Birds were orally vaccinated with the SG mutant as the following programme: group A, one dose at 5 days of age; group B, one dose at 5 days of age and a second dose at 25 days of age; and group C, birds were kept unvaccinated as controls. At 45 days of age, birds from all groups, including the control, were challenged orally by SG wild type (brown line) or SE wild type (white line). Lastly, another experiment was performed to evaluate the use of the SG mutant strain to prevent caecal colonization by SE wild type on 1-day-old broiler chicks. Mortality and systemic infection by SG wild type strain were assessed in brown chickens; faecal shedding and systemic infection by SE wild type were assessed in white chickens and caecal colonization was assessed in broiler chicks. Either vaccination with one or two doses of SG mutant, were capable to protect brown chickens against SG wild type. In the experiment with white chickens, only vaccination with two doses of SG mutant protected the birds against challenge with SE wild type. Although, SG mutant could not prevent caecal colonization in 1-day-old broiler chicks by the challenge strain SE wild type. Overall, the results indicated that SG mutant is a promising Salmonella live vaccine candidate that demonstrated good efficacy to control the infection by two serotypes of major importance to the poultry industry. (c) 2010 Elsevier Ltd. All rights reserved.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Attenuated Escherichia Coli Strains For Septicemia In Birds, Vaccines Produced Using Said Strains, Method For Producing Vaccines And Uses Thereof

LINHAGENS DE ESCHERICHIA COLI ATENUADAS PARA SEPTICEMIA EM AVES, VACINAS PRODUZIDAS COM ESSAS LINHAGENS, MÉTODO DE PRODUÇÃO DE VACINAS E SEUS USOS. Linhagens de Escherichia coli patogênica para aves (APEC) causam infecções extra-intestinais e são responsáveis por significativas perdas económicas na indústria avícola mundial. A presente invenção visou a deleção de três genes, hcp, que codifica para uma proteína estrutural e secretada, clpV, que codifica para uma ATPase e icmF (intracellular multiplication factor), gerando três mutantes, os quais demonstraram uma diminuição nos processos de adesão e invasão celular, formação de biofilme e virulência in vivo. Dessa forma, a presente invenção descreve as três linhagens mutantes criadas, as vacinas produzidas com a utilização dessas linhagens, o método de produção das vacinas e seus usos.BRPI1105176 (A2)A61K39/108A61P31/04C12N1/20C12N15/09C12N15/31C12R1/19BR2011PI05176A61K39/108A61P31/04C12N1/20C12N15/09C12N15/31C12R1/1

A defective mutant of Salmonella enterica Serovar Gallinarum in cobalamin biosynthesis is avirulent in chickens

Salmonella enterica serovar Gallinarum (SG) é o agente do tifo aviário, doença severa que provoca mortalidade em até 80% do plantel de aves. SG encontra-se entre os poucos sorotipos de Salmonella que são agentes etiológicos de enfermidade específica, à semelhança de Salmonella Typhi em seres humanos podendo, portanto, servir de modelo experimental para outras salmoneloses hospedeiro especíifcas. Além dos mecanismos de virulência, a bactéria utiliza mecanismos de sobrevivência para permanecer no hospedeiro. A ativação desses mecanismos pode ou não estar associada à ativação dos mecanismos de virulência. Entre os mecanismos fisiológicos, está a produção de vitamina B12 que Salmonella spp. realiza em ambientes anaeróbicos, como quando encontra-se intracelularmente no organismo hospedeiro. Neste estudo, analisou-se a infecção de aves por cepas de SG, que tiveram genes alterados que participam da biossíntese de vitamina B12. Foram produzidos mutantes de SG contendo os genes cbiA e cobS alterados e um terceiro, contendo ambos os genes alterados. A sobrevivência e a ação patogênica de SG não foi modificada pela alteração simples de um dos genes, mas tornou a cepa de SG completamente atenuada quando os dois foram modificados. A mortalidade provocada pela cepa selvagem de SG foi de 64,52%, enquanto que não observou-se mortalidade alguma no grupo de aves infectadas com SGNal rcobscbiA. Estudos futuros deverão ser realizados para elucidar este processo fisiológico bacteriano e para avaliar a utilização desta cepa de SG como cepa vacinal.Salmonella enterica serovar Gallinarum (SG) is a fowl typhoid agent in chickens and is a severe disease with worldwide economic impact as its mortality may reach up to 80%. It is one of a small group of serovars that typically produces typhoid-like infections in a narrow range of host species and which therefore represents a good model for human typhoid. The survival mechanisms are not considered to be virulent mechanisms but are essential for the life of the bacterium. Mutants of Salmonella Gallinarum containing defective genes, related to cobalamin biosynthesis and which Salmonella spp. has to be produced to survive when it is in an anaerobic environment, were produced in this study. Salmonella Gallinarum is an intracellular parasite. Therefore, this study could provide information about whether vitamin B12 biosynthesis might be essential to its survival in the host. The results showed that the singular deletion in cbiA or cobS genes did not interfere in the life of Salmonella Gallinarum in the host, perhaps because single deletion is not enough to impede vitamin B12 biosynthesis. It was noticed that diluted SG mutants with single deletion produced higher mortality than the wild strain of SG. When double mutation was carried out, the Salmonella Gallinarum mutant was unable to provoke mortality in susceptible chickens. This work showed that B12 biosynthesis is a very important step in the metabolism of Salmonella Gallinarum during the infection of the chickens. Further research on bacterium physiology should be carried out to elucidate the events described in this research and to assess the mutant as a vaccine strain.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq