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6. Electrochemical magnetic microbeads-based biosensor for point-of-care serodiagnosis of infectious diseases

Author

Cortina, María E., Melli, Luciano J., Roberti, Mariano, Mass, Mijal, Longinotti, Gloria, Tropea, Salvador, Lloret, Paulina, Serantes, Diego A. Rey, Salomón, Francisco, Lloret, Matías, Caillava, Ana J., Restuccia, Sabrina, Altcheh, Jaime, Buscaglia, Carlos A., Malatto, Laura, Ugalde, Juan E., Fraigi, Liliana, Moina, Carlos, Ybarra, Gabriel, Ciocchini, Andrés E., and Comerci, Diego J.

Published
2016
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12. Identification of the quorum-sensing target DNA sequence and N-Acyl homoserine lactone responsiveness of the Brucella abortus virB promoter

Author

Arocena, Gaston M., Sieira, Rodrigo, Comerci, Diego J., and Ugalde, Rodolfo A.

Subjects
Virulence (Microbiology) -- Genetic aspects, Quorum sensing -- Genetic aspects, Nucleotide sequence -- Physiological aspects, Biological sciences
Abstract

VjbR is a LuxR-type quorum-sensing (QS) regulator that plays an essential role in the virulence of the intracellular facultative pathogen Brucella, the causative agent of brucellosis. It was previously described that VjbR regulates a diverse group of genes, including the virB operon. The latter codes for a type IV secretion system (T4SS) that is central for the pathogenesis of Brucella. Although the regulatory role of VjbR on the virB promoter ([P.sub.virB]) was extensively studied by different groups, the VjbR-binding site had not been identified so far. Here, we identified the target DNA sequence of VjbR in [P.sub.virB] by DNase I footprinting analyses. Surprisingly, we observed that VjbR specifically recognizes a sequence that is identical to a half-binding site of the QS-related regulator MrtR of Mesorhizobium tianshanense. As shown by DNase I footprinting and electrophoretic mobility shift assays, generation of a palindromic MrtR-like-binding site in [P.sub.virB] increased both the affinity and the stability of the VjbR-DNA complex, which confirmed that the QS regulator of Brucella is highly related to that of M. tianshanense. The addition of N-dodecanoyl homoserine lactone dissociated VjbR from the promoter, which confirmed previous reports that indicated a negative effect of this signal on the VjbR-mediated activation of [P.sub.virB] Our results provide new molecular evidence for the structure of the virB promoter and reveal unusual features of the QS target DNA sequence of the main regulator of virulence in Brucella. doi: 10.1128/JB.00232-10

Published
2010

13. Metabolic control of virulence genes in Brucella abortus: HutC coordinates virB expression and the histidine utilization pathway by direct binding to both promoters

Author

Sieira, Rodrigo, Arocena, Gaston M., Bukata, Lucas, Comerci, Diego J., and Ugalde, Rodolfo A.

Subjects
Virulence (Microbiology) -- Genetic aspects, Histidine -- Genetic aspects, Histidine -- Physiological aspects, Biological sciences
Abstract

Type IV secretion systems (T4SS) are multicomponent machineries involved in the translocation of effector molecules across the bacterial cell envelope. The virB operon of Brucella abortus codes for a T4SS that is essential for virulence and intracellular multiplication of the bacterium in the host. Previous studies showed that the virB operon of B. abortus is tightly regulated within the host cells. In order to identify factors implicated in the control of virB expression, we searched for proteins of Brucella that directly bind to the virB promoter ([P.sub.virB])' Using different procedures, we isolated a 27-kDa protein that binds specifically to [P.sub.virB]. This protein was identified as HutC, the transcriptional repressor of the histidine utilization (hut) genes. Analyses of virB and hut promoter activity revealed that HutC exerts two different roles: it acts as a coactivator of transcription of the virB operon, whereas it represses the hut genes. Such activities were observed both intracellularly and in bacteria incubated under conditions that resemble the intracellular environment. Electrophoresis mobility shift assays (EMSA) and DNase I footprinting experiments revealed the structure, affinity, and localization of the HutC-binding sites and supported the regulatory role of HutC in both hut and virB promoters. Taken together, these results indicate that Brucella coopted the function of HutC to coordinate the Hut pathway with transcriptional regulation of the virB genes, probably as a way to sense its own metabolic state and develop adaptive responses to overcome intracellular host defenses. doi: 10.1128/JB.01124-09

Published
2010

15. Development of a novel glycoprotein‐based immunochromatographic test for the rapid serodiagnosis of bovine brucellosis.

Author

Novak, Analia, Melli, Luciano J., Rey Serantes, Diego A., Caillava, Ana J., Comerci, Diego J., Ugalde, Juan E., and Ciocchini, Andrés E.

Subjects
BRUCELLOSIS, SERODIAGNOSIS, BOS, CARRIER proteins, ZOONOSES, PUBLIC health
Abstract

Aims: Bovine brucellosis is a worldwide zoonotic disease that causes important economic losses and public health concerns. Because control of the disease depends on vaccination, serodiagnosis and isolation of the infected animals, affordable, rapid and accurate point of care (POC) tests are needed. Methods and Results: We developed and evaluated a novel glycoprotein‐based immunochromatographic test for the detection of IgG antibodies against the O‐polysaccharide of Brucella in bovine serum samples. Brucella GlycoStrip combines the power of immunochromatographic and bacterial glycoengineering technologies for the diagnosis of bovine brucellosis. The analysis of positive and negative reference samples indicated that the test has a diagnostic sensitivity and specificity of 96.9% (95% CI: 92.7%–100.0%) and 100%, respectively. Conclusions: Due to the recombinant glycoprotein‐based antigen OAg‐AcrA, which consists of the O‐side chain of Brucella smooth lipopolysaccharide (sLPS) covalently linked to the carrier protein AcrA, the test is highly accurate, allows the differentiation of infected animals from those vaccinated with a rough strain or with a single dose of a smooth strain and fulfil the minimum diagnostic requirements established by the national and international regulations. Significance and Impact of Study: This strip test could provide a rapid (10 min) and accurate diagnosis of bovine brucellosis in the field contributing to the control of the disease. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Phosphatidylethanolamine synthesis is required for optimal virulence of Brucella abortus

Author

Bukata, Lucas, Altabe, Silvia, de Mendoza, Diego, Ugalde, Rodolfo A., and Comerci, Diego J.

Subjects
Virulence (Microbiology) -- Research, Cephalin -- Physiological aspects, Biological sciences
Abstract

The Brucella cell envelope contains the zwitterionic phospholipids phosphatidylcholine (PC) and phosphatidylethanolamine (PE). Synthesis of PC occurs exclusively via the PC synthase pathway, implying that the pathogen depends on the choline synthesized by the host cell to form PC. Notably, PC is necessary to sustain a chronic infection process, which suggests that the membrane lipid content is relevant for Brucella virulence. In this study we investigated the first step of PE biosynthesis in B. abortus, which is catalyzed by phosphatidylserine synthase (PssA). Disruption of pssA abrogated the synthesis of PE without affecting the growth in rich complex medium. In minimal medium, however, the mutant required choline supplementation for growth, suggesting that at least PE or PC is necessary for Brucella viability. The absence of PE altered cell surface properties, but most importantly, it impaired several virulence traits of B. abortus, such as intracellular survival in both macrophages and HeLa cells, the maturation of the replicative Brucella-containing vacuole, and mouse colonization. These results suggest that membrane phospholipid composition is critical for the interaction of B. abortus with the host cell.

Published
2008

17. Brucella abortus synthesizes phosphatidylcholine from choline provided by the host

Author

Comerci, Diego J., Altabe, Silvia, de Mendoza, Diego, and Ugalde, Rodolfo A.

Subjects
Escherichia coli -- Research, Eukaryotes -- Research, Biological sciences
Abstract

The Brucella cell envelope is characterized by the presence of phosphatidylcholine (PC), a common phospholipid in eukaryotes that is rare in prokaryotes. Studies on the composition of Brucella abortus 2308 phospholipids revealed that the synthesis of PC depends on the presence of choline in the culture medium, suggesting that the methylation biosynthetic pathway is not functional. Phospholipid composition of pmtA and pcs mutants indicated that in Brucella, PC synthesis occurs exclusively via the phosphatidylcholine synthase pathway. Transformation of Escherichia coli with an expression vector containing the B. abortus pcs homologue was sufficient for PC synthesis upon induction with IPTG (isopropyl-[beta]-D-thiogalactopyranoside), while no PC formation was detected when bacteria were transformed with a vector containing pmtA. These findings imply that Brucella depends on choline provided by the host cell to form PC. We could not detect any obvious associated phenotype in the PC-deficient strain under vegetative or intracellular growth conditions in macrophages. However, the pcs mutant strain displays a reproducible virulence defect in mice, which suggests that PC is necessary to sustain a chronic infection process.

Published
2006

18. A homologue of an operon required for DNA transfer in Agrobacterium is required in Brucella abortus for virulence and intracellular multiplication

Author

Sieira, Rodrigo, Comerci, Diego J., Sanchez, Daniel O., and Ugalde, Rodolfo A.

Subjects
Agrobacterium tumefaciens -- Genetic aspects, Virulence (Microbiology) -- Genetic aspects, Bacteria, Pathogenic -- Genetic aspects, Genetic markers -- Analysis, Biological sciences
Abstract

Research describes pB2A3 clone of Brucella abortus consisting of a 1.5 kilobase genomic fragment resembling Agrobacterium tumefaciens vir genes. Data show that the genomic region is a stationary-phase-induced operon and plays a role in the virulence and intracellular multiplication of Brucella within phagocytes.

Published
2000

20. Exploiting the Campylobacter jejuni protein glycosylation system for glycoengineering vaccines and diagnostic tools directed against brucellosis

Author

Iwashkiw Jeremy A, Fentabil Messele A, Faridmoayer Amirreza, Mills Dominic C, Peppler Mark, Czibener Cecilia, Ciocchini Andres E, Comerci Diego J, Ugalde Juan E, and Feldman Mario F

Subjects
Brucellosis diagnostics, glycoengineering, Yersinia enterocolitica O9, N-linked protein glycosylation, Microbiology, QR1-502
Abstract

Abstract Background Immune responses directed towards surface polysaccharides conjugated to proteins are effective in preventing colonization and infection of bacterial pathogens. Presently, the production of these conjugate vaccines requires intricate synthetic chemistry for obtaining, activating, and attaching the polysaccharides to protein carriers. Glycoproteins generated by engineering bacterial glycosylation machineries have been proposed to be a viable alternative to traditional conjugation methods. Results In this work we expressed the C. jejuni oligosaccharyltansferase (OTase) PglB, responsible for N-linked protein glycosylation together with a suitable acceptor protein (AcrA) in Yersinia enterocolitica O9 cells. MS analysis of the acceptor protein demonstrated the transfer of a polymer of N-formylperosamine to AcrA in vivo. Because Y. enterocolitica O9 and Brucella abortus share an identical O polysaccharide structure, we explored the application of the resulting glycoprotein in vaccinology and diagnostics of brucellosis, one of the most common zoonotic diseases with over half a million new cases annually. Injection of the glycoprotein into mice generated an IgG response that recognized the O antigen of Brucella, although this response was not protective against a challenge with a virulent B. abortus strain. The recombinant glycoprotein coated onto magnetic beads was efficient in differentiating between naïve and infected bovine sera. Conclusion Bacterial engineered glycoproteins show promising applications for the development on an array of diagnostics and immunoprotective opportunities in the future.

Published
2012
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21. Genomic analysis of Campylobacter fetus subspecies: identification of candidate virulence determinants and diagnostic assay targets

Author

Sanchez Daniel O, Ugalde Rodolfo A, Comerci Diego J, Agüero Fernán G, Wlodek Bartosz M, Lew-Tabor Ala E, Moolhuijzen Paula M, Appels Rudi, and Bellgard Matthew

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Campylobacter fetus subspecies venerealis is the causative agent of bovine genital campylobacteriosis, asymptomatic in bulls the disease is spread to female cattle causing extensive reproductive loss. The microbiological and molecular differentiation of C. fetus subsp. venerealis from C. fetus subsp. fetus is extremely difficult. This study describes the analysis of the available C. fetus subsp. venerealis AZUL-94 strain genome (~75–80%) to identify elements exclusively found in C. fetus subsp. venerealis strains as potential diagnostic targets and the characterisation of subspecies virulence genes. Results Eighty Kb of genomic sequence (22 contigs) was identified as unique to C. fetus subsp. venerealis AZUL-94 and consisted of type IV secretory pathway components, putative plasmid genes and hypothetical proteins. Of the 9 PCR assays developed to target C. fetus subsp. venerealis type IV secretion system genes, 4 of these were specific for C. fetus subsp. venerealis biovar venerealis and did not detect C. fetus subsp. venerealis biovar intermedius. Two assays were specific for C. fetus subsp. venerealis AZUL-94 strain, with a further single assay specific for the AZUL-94 strain and C. fetus subsp. venerealis biovar intermedius (and not the remaining C. fetus subsp. venerealis biovar venerealis strains tested). C. fetus subsp. fetus and C. fetus subsp. venerealis were found to share most common Campylobacter virulence factors such as SAP, chemotaxis, flagellar biosynthesis, 2-component systems and cytolethal distending toxin subunits (A, B, C). We did not however, identify in C. fetus the full complement of bacterial adherence candidates commonly found in other Campylobacter spp. Conclusion The comparison of the available C. fetus subsp. venerealis genome sequence with the C. fetus subsp. fetus genome identified 80 kb of unique C. fetus subsp. venerealis AZUL94 sequence, with subsequent PCR confirmation demonstrating inconsistent amplification of these targets in all other C. fetus subsp. venerealis strains and biovars tested. The assays developed here highlight the complexity of targeting strain specific virulence genes for field studies for the molecular identification and epidemiology of C. fetus.

Published
2009
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22. Mucosal Immunoregulatory Properties of Tsukamurella inchonensis to Reverse Experimental Food Allergy.

Author

Smaldini, Paola L., Trejo, Fernando M., Rizzo, Gastón P., Comerci, Diego J., Kampinga, Jaap, and Docena, Guillermo H.

Subjects
FOOD allergy, MILK allergy, EPITHELIAL cells, MILK proteins, CHOLERA toxin, LABORATORY mice
Abstract

The intestinal mucosa is lined by epithelial cells, which are key cells to sustain gut homeostasis. Food allergy is an immune-mediated adverse reaction to food, likely due to defective regulatory circuits. Tsukamurella inchonensis is a non-pathogenic bacterium with immunomodulatory properties. We hypothesize that the anti-inflammatory effect of dead T. inchonensis on activated epithelial cells modulates milk allergy through the restoration of tolerance in a mouse model. Epithelial cells (Caco-2 and enterocytes from mouse gut) and macrophages were stimulated with T. inchonensis and induction of luciferase under the NF-κB promoter, ROS and cytokines production were studied. Balb/c mice were mucosally sensitized with cow´s milk proteins plus cholera toxin and orally challenged with the allergen to evidence hypersensitivity symptoms. After that, mice were orally administered with heat-killed T. inchonensis as treatment and then challenged with the allergen. The therapeutic efficacy was in vivo (clinical score and cutaneous test) and in vitro (serum specific antibodies and cytokines-ELISA, and cell analysis-flow cytometry) evaluated. Heat-killed T. inchonensis modulated the induction of pro-inflammatory chemokines, with an increase in anti-inflammatory cytokines by intestinal epithelial cells and by macrophages with decreased OX40L expression. In vivo , oral administration of T. inchonensis increased the frequency of lamina propria CD4+CD25+FoxP3+ T cells, and clinical signs were lower in T. inchonensis -treated mice compared with milk-sensitized animals. In vivo depletion of Tregs (anti-CD25) abrogated T. inchonensis immunomodulation. In conclusion, these bacteria suppressed the intestinal inflammatory immune response to reverse food allergy. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Omp19 Enables Brucella abortus to Evade the Antimicrobial Activity From Host's Proteolytic Defense System.

Author

Pasquevich, Karina A., Carabajal, Marianela V., Guaimas, Francisco F., Bruno, Laura, Roset, Mara S., Coria, Lorena M., Rey Serrantes, Diego A., Comerci, Diego J., and Cassataro, Juliana

Subjects
BRUCELLA abortus, PROTEOLYSIS, PATHOGENIC microorganisms, PROTEOLYTIC enzymes, CELL division
Abstract

Pathogenic microorganisms confront several proteolytic events in the molecular interplay with their host, highlighting that proteolysis and its regulation play an important role during infection. Microbial inhibitors, along with their target endogenous/exogenous enzymes, may directly affect the host's defense mechanisms and promote infection. Omp19 is a Brucella spp. conserved lipoprotein anchored by the lipid portion in the Brucella outer membrane. Previous work demonstrated that purified unlipidated Omp19 (U-Omp19) has protease inhibitor activity against gastrointestinal and lysosomal proteases. In this work, we found that a Brucella omp19 deletion mutant is highly attenuated in mice when infecting by the oral route. This attenuation can be explained by bacterial increased susceptibility to host proteases met by the bacteria during establishment of infection. Omp19 deletion mutant has a cell division defect when exposed to pancreatic proteases that is linked to cell-cycle arrest in G1-phase, Omp25 degradation on the cell envelope and CtrA accumulation. Moreover, Omp19 deletion mutant is more susceptible to killing by macrophage derived microsomes than wt strain. Preincubation with gastrointestinal proteases led to an increased susceptibility of Omp19 deletion mutant to macrophage intracellular killing. Thus, in this work, we describe for the first time a physiological function of B. abortus Omp19. This activity enables Brucella to better thrive in the harsh gastrointestinal tract, where protection from proteolytic degradation can be a matter of life or death, and afterwards invade the host and bypass intracellular proteases to establish the chronic infection. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Improving bioreactor production of a recombinant glycoprotein in Escherichia coli: Effect of specific growth rate on protein glycosylation and specific productivity.

Author

Caillava, Ana J., Ortiz, Gastón E., Melli, Luciano J., Ugalde, Juan E., Ciocchini, Andrés E., and Comerci, Diego J.

Abstract

In the last decades bacterial glycoengineering emerged as a new field as the result of the ability to transfer the Campylobacter jejuni N‐ glycosylation machinery into Escherichia coli for the production of recombinant glycoproteins that can be used as antigens for diagnosis, vaccines, and therapeutics. However, the identification of critical parameters implicated in the production process and its optimization to jump to a productive scale is still required. In this study, we developed a dual expression glycosylation vector for the production of the recombinant glycoprotein AcrA‐O157, a novel antigen that allows the serodiagnosis of the infection with enterohemorrhagic E. coli O157 in humans. Volumetric productivity was studied in different culture media and found that 2xYP had 6.9‐fold higher productivity than the extensively used LB. Subsequently, bioreactor batch and exponential‐fed‐batch cultures were designed to determine the influence of the specific growth rate (μ) on AcrA‐O157 glycosylation efficiency, production kinetics, and specific productivity. At μmax, AcrA glycosylation with O157‐polysaccharide and the specific synthesis rate were maximal, constituting the optimal physiological condition for AcrA‐O157 production. Our findings should be considered for the design, optimization, and scaling up of AcrA‐O157 production and other recombinant glycoproteins attractive for industrial applications. [ABSTRACT FROM AUTHOR]

Published
2019
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25. Cyclic β-glucans at the bacteria-host cells interphase: One sugar ring to rule them all.

Author

Guidolin, Leticia S., Arce‐Gorvel, Vilma, Ciocchini, Andrés E., Comerci, Diego J., and Gorvel, Jean‐Pierre

Subjects
BETA-glucans, NANOSTRUCTURED materials, HYDROPHOBIC interactions, DRUG development
Abstract

Cyclic β-1,2-D-glucans (CβG) are natural bionanopolymers present in the periplasmic space of many Proteobacteria. These molecules are sugar rings made of 17 to 25 Dglucose units linked exclusively by β-1,2-glycosidic bonds. CβG are important for environmental sensing and osmoadaptation in bacteria, but most importantly, they play key roles in complex host-cell interactions such as symbiosis, pathogenesis, and immunomodulation. In the last years, the identification and characterisation of the enzymes involved in the synthesis of CβG allowed to know in detail the steps necessary for the formation of these sugar rings. Due to its peculiar structure, CβG can complex large hydrophobic molecules, a feature possibly related to its function in the interaction with the host. The capabilities of the CβG to function as molecular boxes and to solubilise hydrophobic compounds are attractive for application in the development of drugs, in food industry, nanotechnology, and chemistry. More importantly, its excellent immunomodulatory properties led to the proposal of CβG as a new class of adjuvants for vaccine development. [ABSTRACT FROM AUTHOR]

Published
2018
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26. A recombinant O-polysaccharide-protein conjugate approach to develop highly specific monoclonal antibodies to Shiga toxin-producing Escherichia coli O157 and O145 serogroups.

Author

Castillo, Daniela S., Rey Serantes, Diego A., Melli, Luciano J., Ciocchini, Andrés E., Ugalde, Juan E., Comerci, Diego J., and Cassola, Alejandro

Subjects
ESCHERICHIA coli, O antigens, MONOCLONAL antibodies, HEMOLYTIC-uremic syndrome, LIPOPOLYSACCHARIDES, WESTERN immunoblotting, ENZYME-linked immunosorbent assay
Abstract

Shiga toxin-producing Escherichia coli (STEC) is the major etiologic agent of hemolytic-uremic syndrome (HUS). The high rate of HUS emphasizes the urgency for the implementation of primary prevention strategies to reduce its public health impact. Argentina shows the highest rate of HUS worldwide, being E. coli O157 the predominant STEC-associated HUS serogroup (>70%), followed by E. coli O145 (>9%). To specifically detect these serogroups we aimed at developing highly specific monoclonal antibodies (mAbs) against the O-polysaccharide (O-PS) section of the lipopolysaccharide (LPS) of the dominant STEC-associated HUS serogroups in Argentina. The development of hybridomas secreting mAbs against O157 or O145 was carried out through a combined immunization strategy, involving adjuvated-bacterial immunizations followed by immunizations with recombinant O-PS-protein conjugates. We selected hybridoma clones that specifically recognized the engineered O-PS-protein conjugates of O157 or O145 serogroups. Indirect ELISA of heat-killed bacteria showed specific binding to O157 or O145 serogroups, respectively, while no cross-reactivity with other epidemiological important STEC strains, Brucella abortus, Salmonella group N or Yersinia enterocolitica O9 was observed. Western blot analysis showed specific recognition of the sought O-PS section of the LPS by all mAbs. Finally, the ability of the developed mAbs to bind the surface of whole bacteria cells was confirmed by flow cytometry, confocal microscopy and agglutination assays, indicating that these mAbs present an exceptional degree of specificity and relative affinity in the detection and identification of E. coli O157 and O145 serogroups. These mAbs may be of significant value for clinical diagnosis and food quality control applications. Thus, engineered O-PS specific moieties contained in the recombinant glycoconjugates used for combined immunization and hybridoma selection are an invaluable resource for the development of highly specific mAbs. [ABSTRACT FROM AUTHOR]

Published
2017
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27. Btp Proteins from Brucella abortus Modulate the Lung Innate Immune Response to Infection by the Respiratory Route.

Author

Hielpos, Maria Soledad, Ferrero, Mariana C., Fernández, Andrea G., Falivene, Juliana, Vanzulli, Silvia, Comerci, Diego J., and Baldi, Pablo C.

Subjects
BRUCELLA abortus, IMMUNE response, NEUTROPHILS
Abstract

Although inhalation of infected aerosols is a frequent route for Brucella infection in humans, it rarely causes pulmonary clinical manifestations, suggesting a mild or nearly absent local inflammatory response. The goal of this study was to characterize the early innate immune response to intratracheal infection with Brucella abortus in mice and to evaluate whether it is modulated by this pathogen. After infection with 106 CFU of B. abortus, the pulmonary bacterial burden at 7 days post-infection (p.i.) was comparable to the initial inoculum, despite an initial transient decline. Brucella was detected in spleen and liver as early as 1 day p.i. IL-1β and MCP-1 increased at 3 days p.i., whereas IL-12, KC, TNF-α, and IFN-γ only increased at 7 days p.i. Histological examination did not reveal peribronchial or perivascular infiltrates in infected mice. Experiments were conducted to evaluate if the limited inflammatory lung response to B. abortusis caused by a bacterial mechanism of TLR signaling inhibition. Whereas inoculation of E. coli LPS to control mice [phosphate-buffered saline (PBS)/LPS] caused lung inflammation, almost no histological changes were observed in mice preinfected intratracheally with B. abortus (WT/LPS). We speculated that the Brucella TIR-containing proteins (Btps) A and B, which impair TLR signaling in vitro, may be involved in this modulation. After LPS challenge, mice preinfected with the B. abortus btpAbtpB double mutant exhibited a stronger pulmonary polymorphonuclear infiltrate than WT/LPS mice, although milder than that of the PBS/LPS group. In addition, lungs from B. abortus btpAbtpB-infected mice presented a stronger inflammatory infiltrate than those infected with the WT strain, and at day 7 p.i., the pulmonary levels of KC, MCP-1, and IL-12 were higher in mice infected with the mutant. This study shows that B. abortus infection produces a mild proinflammatory response in murine lungs, partially due to immune modulation by its Btp proteins. This may facilitate its survival and dissemination to peripheral organs. [ABSTRACT FROM AUTHOR]

Published
2017
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28. A T4SS Effector Targets Host Cell Alpha-Enolase Contributing to Brucella abortus Intracellular Lifestyle.

Author

Marchesini, María I., Seijo, Susana M. Morrone, Guaimas, Francisco F., and Comerci, Diego J.

Subjects
BRUCELLA abortus, SECRETOR system (Physiology), ENOLASE, INTRACELLULAR membranes, ORGANELLE formation
Abstract

Brucella abortus, the causative agent of bovine brucellosis, invades and replicates within cells inside a membrane-bound compartment known as the Brucella containing vacuole (BCV). After trafficking along the endocytic and secretory pathways, BCVs mature into endoplasmic reticulum-derived compartments permissive for bacterial replication. Brucella Type IV Secretion System (VirB) is a major virulence factor essential for the biogenesis of the replicative organelle. Upon infection, Brucella uses the VirB system to translocate effector proteins from the BCV into the host cell cytoplasm. Although the functions of many translocated proteins remain unknown, some of them have been demonstrated to modulate host cell signaling pathways to favor intracellular survival and replication. BPE123 (BAB2_0123) is a B. abortus VirB-translocated effector protein recently identified by our group whose function is yet unknown. In an attempt to identify host cell proteins interacting with BPE123, a pull-down assay was performed and human alpha-enolase (ENO-1) was identified by LC/MS-MS as a potential interaction partner of BPE123. These results were confirmed by immunoprecipitation assays. In bone-marrow derived macrophages infected with B. abortus, ENO-1 associates to BCVs in a BPE123-dependent manner, indicating that interaction with translocated BPE123 is also occurring during the intracellular phase of the bacterium. Furthermore, ENO-1 depletion by siRNA impaired B. abortus intracellular replication in HeLa cells, confirming a role for a-enolase during the infection process. Indeed, ENO-1 activity levels were enhanced upon B. abortus infection of THP-1 macrophagic cells, and this activation is highly dependent on BPE123. Taken together, these results suggest that interaction between BPE123 and host cell ENO-1 contributes to the intracellular lifestyle of B. abortus. [ABSTRACT FROM AUTHOR]

Published
2016
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29. Brucella abortus Strain 2308 Wisconsin Genome: Importance of the Definition of Reference Strains.

Author

Suárez-Esquivel, Marcela, Ruiz-Villalobos, Nazareth, Castillo-Zeledón, Amanda, Jiménez-Rojas, César, Roop II, R. Martin, Comerci, Diego J., Barquero-Calvo, Elías, Chacón-Díaz, Carlos, Caswell, Clayton C., Baker, Kate S., Chaves-Olarte, Esteban, Thomson, Nicholas R., Moreno, Edgardo, Letesson, Jean J., De Bolle, Xavier, Guzmán-Verri, Caterina, Salcedo, Suzana P., Tsolis, Renee M., and Ficht, Thomas A.

Subjects
BRUCELLOSIS, DIAGNOSIS of brucellosis, GENETICS
Abstract

Brucellosis is a bacterial infectious disease affecting a wide range of mammals and a neglected zoonosis caused by species of the genetically homogenous genus Brucella. As in most studies on bacterial diseases, research in brucellosis is carried out by using reference strains as canonical models to understand the mechanisms underlying host pathogen interactions. We performed whole genome sequencing analysis of the reference strain B. abortus 2308 routinely used in our laboratory, including manual curated annotation accessible as an editable version through a link at https://en.wikiped ia.org/wiki/Brucella#Genomics. Comparison of this genome with two publically available 2308 genomes showed significant differences, particularly indels related to insertional elements, suggesting variability related to the transposition of these elements within the same strain. Considering the outcome of high resolution genomic techniques in the bacteriology field, the conventional concept of strain definition needs to be revised. [ABSTRACT FROM AUTHOR]

Published
2016
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30. Brucella alters the immune response in a prpA-dependent manner.

Author

Spera, Juan M., Comerci, Diego J., and Ugalde, Juan E.

Subjects
*BRUCELLA, *IMMUNE response, *BRUCELLOSIS, *GRAM-negative bacteria, *MICROBIAL virulence, *HYDROXYPROLINE, *DISEASE risk factors
Abstract

Abstract: Brucellosis, a disease caused by the gram-negative bacterium Brucella spp., is a widespread zoonosis that inflicts important animal and human health problems, especially in developing countries. One of the hallmarks of Brucella infection is its capacity to establish a chronic infection, characteristic that depends on a wide repertoire of virulence factors among which are immunomodulatory proteins such as PrpA (encoding the proline racemase protein A or hydroxyproline-2-epimerase), involved in the establishment of the chronic phase of the infectious process that we have previously identified and characterized. We report here that, in vivo, Brucella abortus prpA is responsible for an increment in the B-cell number and in the specific antibody response and that these antibodies promote cell infection. We additionally found that Brucella alters the cytokine levels of IFN-γ, IL-10, TGFβ1 and TNFα during the acute phase of the infectious process in a prpA dependent manner. [Copyright &y& Elsevier]

Published
2014
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31. BtpB, a novel Brucella TIR-containing effector protein with immune modulatory functions.

Author

Salcedo, Suzana P., Marchesini, María I., Degos, Clara, Terwagne, Matthieu, Bargen, Kristine Von, Lepidi, Hubert, Herrmann, Claudia K., Santos Lacerda, Thais L., Imbert, Paul R. C., Pierre, Philippe, Alexopoulou, Lena, Letesson, Jean-Jacques, Comerci, Diego J., and Gorvel, Jean-Pierre

Subjects
BRUCELLOSIS, PATHOGENIC microorganisms, MICROORGANISMS, MICROBIOLOGY, DENDRITIC cells, PROTEINS
Abstract

Several bacterial pathogens have TIR domain-containing proteins that contribute to their pathogenesis. We identified a second TIR-containing protein in Brucella spp. that we have designated BtpB. We show it is a potent inhibitor of TLR signaling, probably via MyD88. BtpB is a novel Brucella effector that is translocated into host cells and interferes with activation of dendritic cells. In vivo mouse studies revealed that BtpB is contributing to virulence and control of local inflammatory responses with relevance in the establishment of chronic brucellosis. Together, our results show that BtpB is a novel Brucella effector that plays a major role in the modulation of host innate immune response during infection. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Development and Validation of a Novel Diagnostic Test for Human Brucellosis Using a Glyco-engineered Antigen Coupled to Magnetic Beads.

Author

Ciocchini, Andrés E., Rey Serantes, Diego A., Melli, Luciano J., Iwashkiw, Jeremy A., Deodato, Bettina, Wallach, Jorge, Feldman, Mario F., Ugalde, Juan E., and Comerci, Diego J.

Subjects
BRUCELLA, BRUCELLOSIS, DIAGNOSIS methods, COMMUNITY health workers, HEALTH facilities, YERSINIA enterocolitica
Abstract

Brucellosis is a highly contagious zoonosis and still a major human health problem in endemic areas of the world. Although several diagnostic tools are available, most of them are difficult to implement especially in developing countries where complex health facilities are limited. Taking advantage of the identical structure and composition of the Brucella spp. and Yersinia enterocolitica O:9 O-polysaccharide, we explored the application of a recombinant Y. enterocolitica O:9-polysaccharide-protein conjugate (OAg-AcrA) as a novel antigen for diagnosis of human brucellosis. We have developed and validated an indirect immunoassay using OAg-AcrA coupled to magnetic beads. OAg-AcrA was produced and purified with high yields in Y. enterocolitica O:9 cells co-expressing the oligosaccharyltransferase PglB and the protein acceptor AcrA of Campylobacter jejuni without the need for culturing Brucella. Expression of PglB and AcrA in Y. enterocolitica resulted in the transfer of the host O-polysaccharide from its lipid carrier to AcrA. To validate the assay and determine the cutoff values, a receiver-operating characteristic analysis was performed using a panel of characterized serum samples obtained from healthy individuals and patients of different clinical groups. Our results indicate that, using this assay, it is possible to detect infection caused by the three main human brucellosis agents (B. abortus, B. melitensis and B. suis) and select different cutoff points to adjust sensitivity and specificity levels as needed. A cutoff value of 13.20% gave a sensitivity of 100% and a specificity of 98.57%, and a cutoff value of 16.15% resulted in a test sensitivity and specificity of 93.48% and 100%, respectively. The high diagnostic accuracy, low cost, reduced assay time and simplicity of this new glycoconjugate-magnetic beads assay makes it an attractive diagnostic tool for using not only in clinics and brucellosis reference laboratories but also in locations with limited laboratory infrastructure and/or minimally trained community health workers. Author Summary: Brucellosis is one of the most widespread zoonoses in the world and still represents a mayor animal and human health problem in many endemic areas. Central for early diagnosis and appropriate treatment of the disease in humans is to have an easy to implement, fast and accurate diagnostic test for the disease. Currently, most of the diagnostic tests for human brucellosis are not of simple implementation in areas where laboratory infrastructure or trained personnel are not available. We present here a novel and simple diagnostic test for human brucellosis using a glyco-engineered antigen coupled to magnetic beads. Our results show that, with this new method, it is possible to detect infection caused by the three main human brucellosis agents with high sensitivity and specificity. We additionally demonstrate that this assay allows the selection of different cutoff points so that the desired operating characteristics of the test in terms of diagnostic sensitivity and specificity can be adjusted according to the needs of the operator. We believe that the high accuracy, low cost and simplicity of this new test makes it an attractive diagnostic tool not only for clinics and brucellosis reference laboratories but also for locations with limited laboratory infrastructure and/or minimally trained community health workers. [ABSTRACT FROM AUTHOR]

Published
2013
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33. Brucella abortus Choloylglycine Hydrolase Affects Cell Envelope Composition and Host Cell Internalization.

Author

Marchesini, María Inés, Connolly, Joseph, Delpino, Mar#x00ED;a Victoria, Baldi, Pablo C., Mujer, Cesar V., DelVecchio, Vito G., and Comerci, Diego J.

Subjects
IMMUNOGLOBULINS, BRUCELLACEAE, BRUCELLA abortus, HYDROLASES, EPITHELIAL cells
Abstract

Choloylglycine hydrolase (CGH, E.C. 3.5.1.24) is a conjugated bile salt hydrolase that catalyses the hydrolysis of the amide bond in conjugated bile acids. Bile salt hydrolases are expressed by gastrointestinal bacteria, and they presumably decrease the toxicity of host's conjugated bile salts. Brucella species are the causative agents of brucellosis, a disease affecting livestock and humans. CGH confers Brucella the ability to deconjugate and resist the antimicrobial action of bile salts, contributing to the establishment of a successful infection through the oral route in mice. Additionally, cgh-deletion mutant was also attenuated in intraperitoneally inoculated mice, which suggests that CGH may play a role during systemic infection other than hydrolyzing conjugated bile acids. To understand the role CGH plays in B. abortus virulence, we infected phagocytic and epithelial cells with a cgh-deletion mutant (Δcgh) and found that it is defective in the internalization process. This defect along with the increased resistance of Δcgh to the antimicrobial action of polymyxin B, prompted an analysis of the cell envelope of this mutant. Two-dimensional electrophoretic profiles of Δcgh cell envelope-associated proteins showed an altered expression of Omp2b and different members of the Omp25/31 family. These results were confirmed by Western blot analysis with monoclonal antibodies. Altogether, the results indicate that Brucella CGH not only participates in deconjugation of bile salts but also affects overall membrane composition and host cell internalization. [ABSTRACT FROM AUTHOR]

Published
2011
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35. An Atypical Riboflavin Pathway Is Essential for Brucella abortus Virulence.

Author

Bonomi, Hernán Ruy, Marchesini, María Inés, Klinke, Sebastián, Ugalde, Juan E., Zylberman, Vanesa, Ugalde, Rodolfo A., Comerci, Diego J., and Goldbaum, Fernando Alberto

Subjects
BRUCELLOSIS, LIVESTOCK, VITAMIN B2, MICROBIAL virulence, AMINO acids, ANIMAL mutation, PHAGOCYTES, BIOCHEMISTRY, ISOENZYMES
Abstract

Brucellosis is a worldwide zoonosis that affects livestock and humans and is caused by closely related Brucella spp., which are adapted to intracellular life within cells of a large variety of mammals. Brucella can be considered a furtive pathogen that infects professional and non-professional phagocytes. In these cells Brucella survives in a replicative niche, which is characterized for having a very low oxygen tension and being deprived from nutrients such as amino acids and vitamins. Among these vitamins, we have focused on riboflavin (vitamin B2). Flavin metabolism has been barely implicated in bacterial virulence. We have recently described that Brucella and other Rhizobiales bear an atypical riboflavin metabolic pathway. In the present work we analyze the role of the flavin metabolism on Brucella virulence. Mutants on the two lumazine synthases (LS) isoenzymes RibH1 and RibH2 and a double RibH mutant were generated. These mutants and different complemented strains were tested for viability and virulence in cells and in mice. In this fashion we have established that at least one LS must be present for B. abortus survival and that RibH2 and not RibH1 is essential for intracellular survival due to its LS activity in vivo. In summary, we show that riboflavin biosynthesis is essential for Brucella survival inside cells or in mice. These results highlight the potential use of flavin biosynthetic pathway enzymes as targets for the chemotherapy of brucellosis. [ABSTRACT FROM AUTHOR]

Published
2010
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36. Brucella abortus Encodes an Active Rhomboid Protease: Proteome Response after Rhomboid Gene Deletion.

Author

Marchesini, María Inés, Poetsch, Ansgar, Guidolín, Leticia Soledad, and Comerci, Diego J.

Subjects
BRUCELLA abortus, DELETION mutation, CYTOCHROME oxidase, MEMBRANE proteins, NITRATE reductase, SERINE proteinases, BACTERIAL physiology
Abstract

Rhomboids are intramembrane serine proteases highly conserved in the three domains of life. Their key roles in eukaryotes are well understood but their contribution to bacterial physiology is still poorly characterized. Here we demonstrate that Brucella abortus, the etiological agent of the zoonosis called brucellosis, encodes an active rhomboid protease capable of cleaving model heterologous substrates like Drosophila melanogaster Gurken and Providencia stuartii TatA. To address the impact of rhomboid deletion on B. abortus physiology, the proteomes of mutant and parental strains were compared by shotgun proteomics. About 50% of the B. abortus predicted proteome was identified by quantitative proteomics under two experimental conditions and 108 differentially represented proteins were detected. Membrane associated proteins that showed variations in concentration in the mutant were considered as potential rhomboid targets. This class included nitric oxide reductase subunit C NorC (Q2YJT6) and periplasmic protein LptC involved in LPS transport to the outer membrane (Q2YP16). Differences in secretory proteins were also addressed. Differentially represented proteins included a putative lytic murein transglycosylase (Q2YIT4), nitrous-oxide reductase NosZ (Q2YJW2) and high oxygen affinity Cbb3-type cytochrome c oxidase subunit (Q2YM85). Deletion of rhomboid had no obvious effect in B. abortus virulence. However, rhomboid overexpression had a negative impact on growth under static conditions, suggesting an effect on denitrification enzymes and/or high oxygen affinity cytochrome c oxidase required for growth in low oxygen tension conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Genomic analysis of Campylobacter fetus subspecies: identification of candidate virulence determinants and diagnostic assay targets.

Author

Moolhuijzen, Paula M., Lew-Tabor, Ala E., Wlodek, Bartosz M., Agüero, Fernán G., Comerci, Diego J., Ugalde, Rodolfo A., Sanchez, Daniel O., Appels, Rudi, and Bellgard, Matthew

Subjects
CAMPYLOBACTER fetus, GENOMES, CAMPYLOBACTER, CAMPYLOBACTER infections, CATTLE diseases
Abstract

Background: Campylobacter fetus subspecies venerealis is the causative agent of bovine genital campylobacteriosis, asymptomatic in bulls the disease is spread to female cattle causing extensive reproductive loss. The microbiological and molecular differentiation of C. fetus subsp. venerealis from C. fetus subsp. fetus is extremely difficult. This study describes the analysis of the available C. fetus subsp. venerealis AZUL-94 strain genome (~75-80%) to identify elements exclusively found in C. fetus subsp. venerealis strains as potential diagnostic targets and the characterisation of subspecies virulence genes. Results: Eighty Kb of genomic sequence (22 contigs) was identified as unique to C. fetus subsp. venerealis AZUL-94 and consisted of type IV secretory pathway components, putative plasmid genes and hypothetical proteins. Of the 9 PCR assays developed to target C. fetus subsp. venerealis type IV secretion system genes, 4 of these were specific for C. fetus subsp. venerealis biovar venerealis and did not detect C. fetus subsp. venerealis biovar intermedius. Two assays were specific for C. fetus subsp. venerealis AZUL-94 strain, with a further single assay specific for the AZUL-94 strain and C. fetus subsp. venerealis biovar intermedius (and not the remaining C. fetus subsp. venerealis biovar venerealis strains tested). C. fetus subsp. fetus and C. fetus subsp. venerealis were found to share most common Campylobacter virulence factors such as SAP, chemotaxis, flagellar biosynthesis, 2-component systems and cytolethal distending toxin subunits (A, B, C). We did not however, identify in C. fetus the full complement of bacterial adherence candidates commonly found in other Campylobacter spp. Conclusion: The comparison of the available C. fetus subsp. venerealis genome sequence with the C. fetus subsp. fetus genome identified 80 kb of unique C. fetus subsp. venerealis AZUL94 sequence, with subsequent PCR confirmation demonstrating inconsistent amplification of these targets in all other C. fetus subsp. venerealis strains and biovars tested. The assays developed here highlight the complexity of targeting strain specific virulence genes for field studies for the molecular identification and epidemiology of C. fetus. [ABSTRACT FROM AUTHOR]

Published
2009
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38. Brucella Control of Dendritic Cell Maturation Is Dependent on the TIR-Containing Protein Btp1.

Author

Salcedo, Suzana P., Marchesini, María Ines, Lelouard, Hugues, Fugier, Emilie, Jolly, Gilles, Balor, Stephanie, Muller, Alexandre, Lapaque, Nicolas, Demaria, Olivier, Alexopoulou, Lena, Comerci, Diego J., Ugalde, Rodolfo A., Pierre, Philippe, and Gorvel, Jean-Pierre

Subjects
BRUCELLA, PATHOGENIC microorganisms, DENDRITIC cells, ANTIGEN presenting cells, CHRONIC diseases
Abstract

Brucella is an intracellular pathogen able to persist for long periods of time within the host and establish a chronic disease. We show that soon after Brucella inoculation in intestinal loops, dendritic cells from ileal Peyer's patches become infected and constitute a cell target for this pathogen. In vitro, we found that Brucella replicates within dendritic cells and hinders their functional activation. In addition, we identified a new Brucella protein Btp1, which down-modulates maturation of infected dendritic cells by interfering with the TLR2 signaling pathway. These results show that intracellular Brucella is able to control dendritic cell function, which may have important consequences in the development of chronic brucellosis. [ABSTRACT FROM AUTHOR]

Published
2008
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39. Integration host factor is involved in transcriptional regulation of theBrucella abortus virBoperon.

Author

Sieira, Rodrigo, Comerci, Diego J., xED;a I.#Pietrasanta, L&, and Ugalde, Rodolfo A.

Subjects
*BRUCELLA, *GENE expression, *BACTERIA, *MACROPHAGES, *INFECTION, *ORGANELLES
Abstract

Type IV secretion systems (T4SSs) are multicomponent machineries that play an essential role in pathogenicity of many facultative intracellular bacteria. ThevirBoperon ofBrucella abortuscodes for a T4SS essential for virulence and intracellular multiplication. Here, virB expression analyses carried out usinglacZtranscriptional fusions showed thatvirBpromoter (P virB) is temporally activated within J774 cells. Primer extension experiments revealed that virB transcription starts at 27 bp upstream of the first gene of thevirBoperon. Structural analyses showed that P virB and regulatory sequences involved in intracellular regulation span 430 bp upstream of the transcription start site. A protein able to bind P virB was isolated and identified. This protein, homologue to integration host factor (IHF), specifically interacts with P virB and induces a DNA bending with an angle of 50.36°. DNAse I footprinting experiments showed that IHF protects a 51 bp region that contains two overlapped IHF binding consensus motifs. VirB expression experiments carried out with P virB-lacZfusions showed that inB. abortusIHF participates in the regulation of P virB activity during the intracellular and vegetative growth in different media. A mutant strain with a 20 bp IHF binding site replacement failed to turn on thevirBoperon during the initial stages of macrophage infection and displayed severe intracellular multiplication defects. These data indicate that IHF plays a key role during intracellularvirBoperon expression being required for the biogenesis of the endoplasmic reticulum-derived replicative vacuole. [ABSTRACT FROM AUTHOR]

Published
2004
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40. Essential role of the VirB machinery in the maturation of the Brucella abortus-containing vacuole.

Author

Comerci, Diego J., Martínez-Lorenzo, Maria José, Sieira, Rodrigo, Gorvel, Jean-Pierre, and Ugalde, Rodolfo A.

Subjects
*BRUCELLA abortus, *EPITHELIAL cells, *ENDOPLASMIC reticulum, *DISEASES
Abstract

In epithelial cells, the intracellular pathogen Brucella abortus escapes from the endocytic pathway, exploits the autophagic machinery of the host cell and establishes a unique replication niche in the endoplasmic reticulum. The molecular mechanisms underlying these processes are still poorly understood. Recently, a B. abortus type IV-related secretion system encoded by the virB operon has been described as being involved in the intracellular trafficking of the bacteria. In this study, we have analysed the intracellular pathway of B. abortus virB10 mutant strains by confocal microscopy. We demonstrate that a functional virB operon is essential for the biogenesis of the Brucella-containing vacuole. Polar mutation preventing the transcription of virB10 and downstream sequences did not allow Brucella to bypass the endocytic pathway. Consequently, polar mutant-containing vacuoles fused with lysosomes in which bacteria underwent a degradation process. In contrast, virB10 non-polar mutants were capable of avoiding interactions with the endocytic pathway but, diverging to wild-type Brucella, were unable to reach the endoplasmic reticulum to establish their intracellular replication niche and seemed to be recycled to the cell surface. Based on the two particular phenotypes described in this work, a model of maturation of the Brucella-containing vacuole is proposed. [ABSTRACT FROM AUTHOR]

Published
2001
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41. Development of improved enzyme-based and lateral flow immunoassays for rapid and accurate serodiagnosis of canine brucellosis.

Author

Cortina, María E., Novak, Analía, Melli, Luciano J., Elena, Sebastián, Corbera, Natalia, Romero, Juan E., Nicola, Ana M., Ugalde, Juan E., Comerci, Diego J., and Ciocchini, Andrés E.

Subjects
*DIAGNOSIS of brucellosis, *SERODIAGNOSIS, *ENZYME-linked immunosorbent assay, *DOG breeding, *ENDOTOXINS, *ECONOMICS
Abstract

Brucellosis is a widespread zoonotic disease caused by Brucella spp. Brucella canis is the etiological agent of canine brucellosis, a disease that can lead to sterility in bitches and dogs causing important economic losses in breeding kennels. Early and accurate diagnosis of canine brucellosis is central to control the disease and lower the risk of transmission to humans. Here, we develop and validate enzyme and lateral flow immunoassays for improved serodiagnosis of canine brucellosis using as antigen the B. canis rough lipopolysaccharide (rLPS). The method used to obtain the rLPS allowed us to produce more homogeneous batches of the antigen that facilitated the standardization of the assays. To validate the assays, 284 serum samples obtained from naturally infected dogs and healthy animals were analyzed. For the B. canis -iELISA and B. canis -LFIA the diagnostic sensitivity was of 98.6%, and the specificity 99.5% and 100%, respectively. We propose the implementation of the B. canis -LFIA as a screening test in combination with the highly accurate laboratory g -iELISA. The B. canis -LFIA is a rapid, accurate and easy to use test, characteristics that make it ideal for the serological surveillance of canine brucellosis in the field or veterinary laboratories. Finally, a blind study including 1040 serum samples obtained from urban dogs showed a prevalence higher than 5% highlighting the need of new diagnostic tools for a more effective control of the disease in dogs and therefore to reduce the risk of transmission of this zoonotic pathogen to humans. [ABSTRACT FROM AUTHOR]

Published
2017
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42. Genome of Ochrobactrum anthropi ATCC 49188T, a Versatile Opportunistic Pathogen and Symbiont of Several Eukaryotic Hosts.

Author

Chain, Patrick S. G., Lang, Dorothy M., Comerci, Diego J., Malfatti, Stephanie A., Vergez, Lisa M., Shin, Maria, Ugalde, Rodolfo A., Garcia, Emilio, and Tolmasky, Marcelo E.

Subjects
*GENOMES, *GENETICS, *PATHOGENIC microorganisms, *ENDOCARDITIS, *ENDOCARDIUM diseases
Abstract

Ochrobactrum anthropi is a common soil alphaproteobacterium that colonizes a wide spectrum of organisms and is being increasingly recognized as an opportunistic human pathogen. Potentially life-threatening infections, such as endocarditis, are included in the list of reported O. anthropi infections. These reports, together with the scant number of studies and the organism's phylogenetic proximity to the highly pathogenic brucellae, make O. anthropi an attractive model of bacterial pathogenicity. Here we report the genome sequence of the type strain O. anthropi ATCC 49188, which revealed the presence of two chromosomes and four plasmids. [ABSTRACT FROM AUTHOR]

Published
2011
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43. Interaction Network and Localization of Brucella abortus Membrane Proteins Involved in the Synthesis, Transport, and Succinylation of Cyclic β-1,2-Glucans.

Author

Guidolin, Leticia S., Morrone Seijo, Susana M., Guaimas, Francisco F., Comerci, Diego J., and Ciocchini, Andrés E.

Subjects
*BRUCELLA abortus, *IMMUNOPRECIPITATION, *N-terminal residues, *BETA-glucans, *BIOSYNTHESIS, *MICROBIAL virulence
Abstract

Cyclic β-1,2-glucans (CβG) are periplasmic homopolysaccharides that play an important role in the virulence and interaction of Brucella with the host. Once synthesized in the cytoplasm by the CβG synthase (Cgs), CβG are transported to the periplasm by the CβG transporter (Cgt) and succinylated by the CβG modifier enzyme (Cgm). Here, we used a bacterial two-hybrid system and coimmunoprecipitation techniques to study the interaction network between these three integral inner membrane proteins. Our results indicate that Cgs, Cgt, and Cgm can form both homotypic and heterotypic interactions. Analyses carried out with Cgs mutants revealed that the N-terminal region of the protein (Cgs region 1 to 418) is required to sustain the interactions with Cgt and Cgm as well as with itself. We demonstrated by single-cell fluorescence analysis that in Brucella, Cgs and Cgt are focally distributed in the membrane, particularly at the cell poles, whereas Cgm is mostly distributed throughout the membrane with a slight accumulation at the poles colocalizing with the other partners. In summary, our results demonstrate that Cgs, Cgt, and Cgm form a membrane-associated biosynthetic complex. We propose that the formation of a membrane complex could serve as a mechanism to ensure the fidelity of CβG biosynthesis by coordinating their synthesis with the transport and modification. [ABSTRACT FROM AUTHOR]

Published
2015
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44. Identification and Characterization of a High-Affinity Choline Uptake System of Brucella abortus.

Author

Herrmann, Claudia K., Bukata, Lucas, Melli, Luciano, Marchesini, M. Ines, Caramelo, Julio J., and Comerci, Diego J.

Subjects
*LECITHIN, *EUKARYOTIC cells, *BRUCELLA abortus, *BRUCELLOSIS, *CHOLINE, *PROTEIN binding, *CATTLE
Abstract

Phosphatidylcholine (PC), a common phospholipid of the eukaryotic cell membrane, is present in the cell envelope of the intracellular pathogen Brucella abortus, the etiological agent of bovine brucellosis. In this pathogen, the biosynthesis of PC proceeds mainly through the phosphatidylcholine synthase pathway; hence, it relies on the presence of choline in the milieu. These observations imply that B. abortus encodes an as-yet-unknown choline uptake system. Taking advantage of the requirement of choline uptake for PC synthesis, we devised a method that allowed us to identify a homologue of ChoX, the high-affinity periplasmic binding protein of the ABC transporter ChoXWV. Disruption of the choX gene completely abrogated PC synthesis at low choline concentrations in the medium, thus indicating that it is a high-affinity transporter needed for PC synthesis via the PC synthase (PCS) pathway. However, the synthesis of PC was restored when the mutant was incubated in media with higher choline concentrations, suggesting the presence of an alternative low-affinity choline uptake activity. By means of a fluorescence-based equilibrium-binding assay and using the kinetics of radiolabeled choline uptake, we show that ChoX binds choline with an extremely high affinity, and we also demonstrate that its activity is inhibited by increasing choline concentrations. Cell infection assays indicate that ChoX activity is required during the first phase of B. abortus intracellular traffic, suggesting that choline concentrations in the early and intermediate Brucella-containing vacuoles are limited. Altogether, these results suggest that choline transport and PC synthesis are strictly regulated in B. abortus. [ABSTRACT FROM AUTHOR]

Published
2013
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45. A MarR-Type Regulator Directly Activates Transcription from the Brucella abortus virB Promoter by Sharing a Redundant Role with HutC.

Author

Sieira, Rodrigo, Arocena, Gastón M., Zorreguieta, Angeles, Comerci, Diego J., and Ugalde, Rodolfo A.

Subjects
*BRUCELLA abortus, *PROMOTERS (Genetics), *BACTERIAL cells, *CHROMOSOMAL translocation, *OPERONS, *BINDING sites
Abstract

Type IV secretion systems (T4SS) are multiprotein structures that direct the translocation of specific molecules across the bacterial cell envelope. As in other bacteria, pathogenicity of the genus Brucella essentially depends on the integrity of the T4SS-encoding virB operon, whose expression is regulated by multiple transcription factors belonging to different families. Previously, we identified IHF and HutC, two direct regulators of the virB genes that were isolated from total protein extracts of Brucella. Here, we report the identification of MdrA, a third regulatory element that was isolated using the same screening procedure. This transcription factor, which belongs to the MarR-family of transcriptional regulators, binds at two different sites of the virB promoter and regulates expression in a growth phase-dependent manner. Like other members of the MarR family, specific ligands were able to dissociate MdrA from DNA in vitro. Determination of the MdrA-binding sites by DNase I footprinting and analyses of protein-DNA complexes by electrophoresis mobility shift assays (EMSAs) showed that MdrA competes with IHF and HutC for the binding to the promoter because their target DNA sequences overlap. Unlike IHF, both MdrA and HutC bound to the promoter without inducing bending of DNA. Moreover, the two latter transcription factors activated virB expression to similar extents, and in doing so, they are functionally redundant. Taken together, our results show that MdrA is a regulatory element that directly modulates the activity of the virB promoter and is probably involved in coordinating gene expression in response to specific environmental signals. [ABSTRACT FROM AUTHOR]

Published
2012
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