Soroepidemiologia de Chlamydia trachomatis, Chlamydia pneumoniae e Treponema pallidum em portadores do Vírus da imunodeficiência humana (HIV), no Estado do Pará

ALMEIDA, Núbia Caroline Costa de

28 April 2009

Submitted by Cleide Dantas (cleidedantas@ufpa.br) on 2014-02-13T12:18:42Z No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_SoroepidemiologiaChlamydiaTrachomatisChlamydia.pdf: 2065401 bytes, checksum: 1da33c9028340a826d8e01d04fe2f763 (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2014-04-22T13:32:53Z (GMT) No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_SoroepidemiologiaChlamydiaTrachomatisChlamydia.pdf: 2065401 bytes, checksum: 1da33c9028340a826d8e01d04fe2f763 (MD5) / Made available in DSpace on 2014-04-22T13:32:54Z (GMT). No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_SoroepidemiologiaChlamydiaTrachomatisChlamydia.pdf: 2065401 bytes, checksum: 1da33c9028340a826d8e01d04fe2f763 (MD5) Previous issue date: 2009 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A Chlamydia trachomatis e o Treponema pallidum compartilham com o HIV uma importante forma de transmissão: a via sexual. Por conta do comprometimento imunológico dos portadores de HIV, a C. pneumoniae pode apresentar um papel potencial em infecções respiratórias. Este trabalho objetivou a descrição da soroprevalência destes três agentes em portadores de HIV do Estado do Pará, Brasil. Entre setembro de 2007 a junho de 2008, foram coletadas 430 amostras de portadores de HIV em Belém, Pará. Estas foram submetidas a um ELISA para detecção de anticorpo IgG e IgM anti-Chlamydia e, dentre os positivos, uma amostragem aleatória foi escolhida e submetida à microimunofluorescência para sorotipagem. Para a detecção de anticorpos anti-Treponema pallidum foi feito um teste não treponêmico (RPR) e um teste treponêmico (ELISA). Os resultados obtidos foram analisados pelo teste do χ2. A prevalência geral de anticorpos anti-Chlamydia foi 64,2% (51,6% para IgG e 4% para IgM). A sorotipagem mostrou uma alta prevalência de C. trachomatis (100% tanto para IgG como IgM), e C. pneumoniae (73,5% IgG e 70,5% IgM), sendo que houve uma larga disseminação dos sorotipos que causam infecções genitais da Chlamydia trachomatis. A prevalência geral de anticorpos contra o Treponema pallidum foi de 34,9%, sendo que 7,3% apresentaram resultado laboratorial indicativo de sífilis. As variáveis que apresentaram associação com a infecção por Chlamydia e Treponema pallidum foram: o gênero masculino, maior idade, baixa escolaridade, número de parceiros por semana, a prática de sexo anal, homossexualismo/bissexualismo, uso de droga não-endovenosa, histórico de IST. Faz-se necessário tanto a conscientização como o monitoramento da população, para impedir a transmissão destes agentes e para a melhoria da qualidade de vida dos indivíduos portadores de HIV. / Chlamydia trachomatis and Treponema pallidum share the sexual route of transmission with HIV-1. In consequence of the compromise of the immune response among HIV-1 carriers, C. pneumoniae is a potential harassment in respiratory infections. The present study intended the description of the seroprevalence of those three agents among 430 HIV-1 infected persons residing in the State of Para, Brazil, attended at the State Reference Unit (URE-DIPE), between September 2007 to June 2008. Plasma samples were tested using an enzyme immuno assay for the detection of IgM and IgG antibodies to Chlamydia and those which elicited positive results were ramdomly selected for serotyping through a microimmunofluorescence assay. Antibodies to T. pallidum were detected using a flocculation reaction (RPR) and an enzyme immunoassay. Results were compared statistically using the Chi square test (χ2). The general prevalence to Chlamydia was 64.2% (51.6% IgG reactivity and 4% to IgM). Serotyping showed 100% reactivity to C. trachomatis (for both IgG and IgM), a high prevalence to C. pneumoniae (73.5% IgG and 70.5% to IgM) and a large distribution of reactivity to strains of C. trachomatis which cause genital infections. Prevalence of antibodies to T. pallidum was 34.9% and 7.3% showed laboratory evidence of syphilis. Infection with both pathogens were associated to several characteristics which included: higher prevalence among males, high age, low number of study years, high number of sexual partners, anal sexual relations, homosexual/bisexual habits, use of non injecting drugs and the history of sti. It is necessary not only the individual attention for prevention, but also the continuous monitoring to block transmission and the improvement of the well being of HIV-1 infected persons.

Doenças transmissíveis

Chlamydia trachomatis

Treponema pallidum

Chlamydophila pneumoniae

HIV (Vírus)

Soroprevalência

Pará - Estado

Amazônia Brasileira

Pyruvoyl dependent arginine decarboxylases from Chlamydiae and Crenarchaea

Giles, Teresa Neelima

06 November 2012

Arginine decarboxylase is a key enzyme involved in the polyamine pathway of organisms. Pyruvoyl-dependent arginine decarboxylases are expressed in the form of proenzymes that self-cleave to form N-terminal [beta] and C-terminal [alpha] subunits generating an active pyruvoyl group at the [alpha] terminus. We have identified an archaeal homolog of a pyruvoyl-dependent arginine decarboxylase in Chlamydophila pneumoniae that could play a role in the persistence of the organism in the host. The recombinant enzyme showed highest activity at pH 3.4, which is the lowest optimum pH ever reported for a pyruvoyl dependent arginine decarboxylase. The proton-consuming decarboxylation raises intracellular pH, and thereby plays a role in acid-resistance. It could inhibit the pro-inflammatory nitric oxide synthase resulting in asymptomatic infection. A variant protein Thr⁵²Ser at the predicted cleavage site showed less pro-enzyme cleavage and activity compared to the wild-type. The homologs of arginine decarboxylase and flanking arginine-agmatine antiporter were also found in different biovariants of Chlamydia trachomatis. In the invasive L2 strain of C. trachomatis, the presence of a nonsense codon in the gene encoding arginine decarboxylase enzyme prevented the expression of an active enzyme. The variant protein with tryptophan replacing nonsense codon restored arginine decarboxylase activity. The non-invasive D strain of C. trachomatis had an intact arginine decarboxylase gene, but it was recombinantly expressed as a proenzyme that was uncleaved. The arginine-agmatine antiporters from both the strains were active and transported tritiated arginine into their cells. The polyamine pathway of the crenarchaeon Sulfolobus solfataricus uses arginine to make putrescine, but the organism lacks homologs of arginine decarboxylase. However, it has two paralogs of pyruvoyl dependent S-adenosylmethionine decarboxylase − SSO0536 and SSO0585. These enzymes were recombinantly expressed as pro-enzymes that self-cleaved into [beta] and [alpha] subunits. Even with a 47% amino acid sequence identity, the SSO0536 protein exhibited significant arginine decarboxylase activity whereas SSO0585 protein had significant S-adenosylmethionine decarboxylase activity. This is the first report of an S-adenosylmethionine decarboxylase enzyme showing alternative decarboxylase activity. The chimeric protein with the [alpha]-subunit of SSO0585 and [beta]-subunit of SSO0536 had arginine decarboxylase activity, suggesting that the residues responsible for substrate recognition are located in the amino terminus. / text

Arginine decarboxylase

Polyamine pathway

Pyruvoyl-dependent

Pro-enzyme cleavage

Chlamydophila pneumoniae

pH

Chlamydia trachomatis

Arginine-agmatine antiporters

Sulfolobus solfataricus

Homologs

Amino terminus

The Role of Bacterial GTPases in Chlamydial Development

Polkinghorne, Adam

January 2006

Members of the important disease causing bacterial generas, Chlamydia and Chlamydophila, are characterised by a complex developmental cycle which is comprehensively described by microscopy. The inability to use standard genetic techniques for this obligate intracellular bacterium, however, means that significant gaps in our understanding of the molecular mechanisms used to control growth and development of Chlamydia still exist. The current study investigated the function of bacterial guanosine triphosphatases (GTPases), components of the organism's limited signal transduction arsenal, in regulatory control of the chlamydial development cycle. Initial analysis of the gene transcription of chlamydial GTPases and other predicted signal transduction genes using real time RT-PCR, in a Chlamydophila pneumoniae A-03 tryptophan depletion model of persistence, revealed significant differential expression of genes in response to the addition of interferon gamma (IFN-γ). Predicted chlamydial GTPase encoding genes, ychF, yhbZ and yphC, associated with ribosome function amongst other processes were strongly up-regulated, while hflX was down-regulated in the persistent cultures. Analysis of an additional model of Cp. pneumoniae persistence, induced by limitation of host cell iron, revealed that ychF, yhbZ and yphC were also up-regulated in the persistent cultures. This study provided the most comprehensive analysis of Cp. pneumoniae gene transcription to date and suggest that chlamydial GTPases serve a role in generation of the persistent chlamydial phenotype. Cloning and expression of Cp. pneumoniae and Cp. abortus yhbZ, including demonstration of in vitro GTPase activity, indicates that this chlamydial gene encodes a member of the universally conserved and essential bacterial Obg subfamily of GTPases. Evidence is building that members of this latter family of bacterial GTPases are important regulators of bacterial growth and morphological differentiation in developmentally complex bacteria. Over-expression of chlamydial YhbZ subfamily GTPases in Escherichia coli revealed inhibition of bacterial growth and disruption of cell division and chromosome functions leading to the generation of elongated cells with limited chromosome segregation, as described for Obg subfamily members from E. coli and other bacteria. Although more analysis is required, we suggest a novel mechanism of chlamydial Obg GTPase regulation involving sensing of host cell GTP/GDP pools to control secondary differentiation of reticulate bodies (RBs) back to elementary bodies (EBs). Analysis of the chlamydial complement of bacterial GTPases was extended to HflX, a previously uncharacterised and only predicted GTPase conserved in bacteria. HflX sequence analysis revealed conservation of G motifs responsible for nucleotide binding and hydrolysis (G1, G3, G4) and protein interaction (G2), although the latter was unique to HflX subfamily GTPases. Recombinant Cp. pneumoniae HflX displays GTPase activity with nucleotide specificity for GTP. We tested Cp. pneumoniae HflX function by over-expression in E. coli which led to inhibition of growth in E. coli and elongation of cells with normal chromosome partitioning. This phenotype was the probable result of disruption of a stage in cell division subsequent to chromosome segregation. This present study provides the first evidence to show that bacterial HflX is a GTPase and suggests a regulatory role in bacterial cell cycle control.

chlamydophila pneumoniae

signal transduction

persistence

gamma interferon

real-time PCR

RT-PCR

differential gene expression

GTPase

ribosome

cell cycle

chromosome partitioning