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4. The Sdp-SH3b2 domain contained in Lactobacillus johnsonii N6.2-derived extracellular vesicles inhibit murine norovirus replication.

Author

da Silva, Danilo R., Sharjeel, Asra B., Beliakoff, Reagan, Teixeira, Leandro D., Kima, Peter E., Jones, Melissa K., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
EXTRACELLULAR vesicles, VIRUS diseases, LACTOBACILLUS, LIPOSOMES, INVECTIVE
Abstract

The internalization of Lactobacillus johnsonii N6.2 extracellular vesicles (EVs) by cells results in a significant induction of the 2',5'-oligoadenylate synthetase (OAS) pathway. It also induces expression of IFI44L, MX1, MX2 and DDX60. In this work, we evaluated whether the antiviral response induced by L. johnsonii N6.2-derived EVs, has an inhibitory effect on an RNA viral insult using murine norovirus (MNV-1) as the viral infection model. We found that RAW 264.7 Macrophages treated with EVs significantly decreased the levels of MNV-1 genome. These results were consistent with an increase in expression of Oas1b, Oas2, Oasl, Mx1, Mx2 and Ifi44l (6 hours post infection). Out of six proteins enriched in EVs, we found that SH3b2 domain of Sdp was the only protein effector molecule able to recapitulate the activation of the OAS pathway. In C57BL6 mice, the administration of live L. johnsonii N6.2, EVs, and Sdp-SH3b2/liposomes significantly decreased MNV-1 titers in the distal ileum, in contrast to the controls with PBS and liposomes alone that did not affect MNV-1. These results establish that the SH3b2 domain of Sdp, which is enriched in L. johnsonii derived EVs, is an effector molecule in EVs that can orchestrate the control of viral infections in vivo. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Erucic acid utilization by Lactobacillus johnsonii N6.2.

Author

Thompson, Sharon C., Beliakoff, Reagan, Garrett, Timothy J., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
MONOUNSATURATED fatty acids, LACTIC acid bacteria, PHOSPHATIDIC acids, RAPESEED oil, FATTY acids
Abstract

A multivariate nutritional analysis indicated that the consumption of erucic acid-rich food, a fatty acid (FA) found primarily in rapeseed and mustard oil, was positively correlated with higher counts of lactic acid bacteria (LAB). Furthermore, we showed Lactobacillus johnsonii N6.2, as well as other species of LAB tested from the former Lactobacillus genus, were able to efficiently use erucic acid (EA) as the source of FA. In this work, we identified significant changes induced in the FA profiles of L. johnsonii cultured with EA as the source of FA. We performed global transcriptomics to identify genes and pathways involved in EA utilization. It was found that L. johnsonii incorporates external fatty acids via a FakA/FakB and the plsX/plsY/plsC pathway for phosphatidic acid synthesis. It was found that cells grown in MRS with EA (MRS-E) significantly upregulated fakB2 and fakB4 when compared to cells grown in standard MRS with tween 80 as the source of FA. Additionally, in MRS-E, L. johnsonii N6.2 induced the expression of plsY2, plsC2 and plsC4 while the expression of pslX was constitutive during short term EA exposure. LC–MS analyses revealed that L. johnsonii N6.2 rapidly incorporates EA and synthesizes a variety of long chain fatty acids, including the health-relevant omega-9 monounsaturated fatty acids such as nervonic and gondoic acids. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Assessment of unconventional antimicrobial compounds for the control of ‘Candidatus Liberibacter asiaticus’, the causative agent of citrus greening disease

Author

Gardner, Christopher L., da Silva, Danilo R., Pagliai, Fernando A., Pan, Lei, Padgett-Pagliai, Kaylie A., Blaustein, Ryan A., Merli, Marcelo L., Zhang, Dan, Pereira, Cécile, Teplitski, Max, Chaparro, Jose X., Folimonova, Svetlana Y., Conesa, Ana, Gezan, Salvador, Lorca, Graciela L., and Gonzalez, Claudio F.

Published
2020
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10. Internalization of extracellular vesicles fromLactobacillus johnsonii N6.2 elicit an RNA sensory response in human pancreatic cell lines.

Author

da Silva, Danilo R., Gonzalez, Claudio F., and Lorca, Graciela

Subjects
*EXTRACELLULAR vesicles, *CELL lines, *RNA, *GENE expression, *BACTERIAL cells, *GOAT milk
Abstract

Cells of all domains of life can secrete extracellular vesicles (EV). These secreted vesicles have been indicated as vehicles carrying molecules that facilitate intra- and inter-species interaction. Lactobacillus johnsonii N6.2, a bacterium used in probiotic preparations, has been shown to produce nano-sized EV. In the present work we used L. johnsonii N6.2 EV, concentrated from exosome-depleted MRS supernatant, to identify the uptake mechanisms of EV and the impact of the RNA cargo in the EV on the upregulation of the cellular response of βlox5 human pancreatic cells. Using eukaryotic uptake inhibitors, it was found that EV are internalized by the clathrin/dynamin mediated endocytosis pathway. Further co-localization experiments with the endosome markers RAB5, RAB7 and LAMP1 as well as calcein indicated that EV escape the endosome shortly after RAB7 fusion. Using the expression of the 2',5'-oligoadenylate synthetase (OAS) host pathway, previously identified as targeted by L. johnsonii EV, we found that the host cellular response to the EV are dependent on the integrity of the external components of the EV as well as on the RNA cargo. Global transcriptome analysis was performed on EV and the bacterial whole cell. It was found that the RNA transcripts found within the EV largely represent the most abundantly transcribed genes in the bacterial cells such as those associated with protein synthesis and glycolysis. Further analysis showed an enrichment of smaller size transcripts as well as those encoding for membrane bound or extracellular proteins in L. johnsonii's EV. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Nanovesicles From Lactobacillus johnsonii N6.2 Reduce Apoptosis in Human Beta Cells by Promoting AHR Translocation and IL10 Secretion.

Author

Teixeira, Leandro D., Harrison, Natalie A., da Silva, Danilo R., Mathews, Clayton E., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
PANCREATIC beta cells, ARYL hydrocarbon receptors, ISLANDS of Langerhans, SECRETION, LACTOBACILLUS
Abstract

L. johnsonii N6.2 releases nano-sized vesicles (NVs) with distinct protein and lipid contents. We hypothesized that these NVs play a central role in the delivery of bioactive molecules that may act as mechanistic effectors in immune modulation. In this report, we observed that addition of NVs to the human pancreatic cell line βlox5 reduced cytokine-induced apoptosis. Through RNAseq analyses, increased expression of CYP1A1, CYP1B1, AHRR , and TIPARP genes in the aryl hydrocarbon receptor (AHR) pathways were found to be significantly induced in presence of NVs. AHR nuclear translocation was confirmed by confocal microscopy. The role of NVs on beta cell function was further evaluated using primary human pancreatic islets. It was found that NVs significantly increased insulin secretion in presence of high glucose concentrations. These increases positively correlated with increased GLUT6 and SREBF1 mRNA and coincided with reduced oxidative stress markers. Furthermore, incubation of NVs with THP-1 macrophages promoted the M2 tolerogenic phenotype through STAT3 activation, expression of AHR-dependent genes and secretion of IL10. Altogether, our findings indicate that bacterial NVs have the potential to modulate glucose homeostasis in the host by directly affecting insulin secretion by islets and through the induction of a tolerogenic immune phenotype. [ABSTRACT FROM AUTHOR]

Published
2022
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22. PrbP modulates biofilm formation in Liberibacter crescens.

Author

Pan, Lei, Gardner, Christopher L., Beliakoff, Reagan, da Silva, Danilo, Zuo, Ran, Pagliai, Fernando A., Padgett‐Pagliai, Kaylie A., Merli, Marcelo L., Bahadiroglu, Erol, Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
BACTERIAL DNA, CELL motility, TRANSCRIPTOMES, TRANSCRIPTION factors, CELL cycle, CITRUS greening disease, CELL cycle regulation, BIOFILMS
Abstract

Summary: In Liberibacter asiaticus, PrbP is a transcriptional regulatory protein involved in survival and persistence during host infection. Tolfenamic acid was previously found to inhibit interactions between PrbP and the promotor region of rplK, resulting in reduced survival of L. asiaticus in the citrus host. In this study, we performed transcriptome analyses to elucidate the PrbP regulon in L. crescens, as it is phylogenetically the closest related species to L. asiaticus that can be grown in laboratory conditions. Chemical inhibition of PrbP with tolfenamic acid revealed that PrbP is involved in the regulation of diverse cellular processes, including stress response, cell motility, cell cycle and biofilm formation. In vitro DNA binding and bacterial two‐hybrid assays also suggested that PrbP is a global regulator of multiple transcription factors (RpoH, VisN, PleD, MucR, MocR and CtrA) at both transcriptional and/or post‐transcriptional levels. Sub‐lethal concentrations of tolfenamic acid significantly reduced the attachment of L. crescens during biofilm formation and decreased long‐term persistence in biofilm structures. Overall, our findings show the importance of PrbP in regulating diverse biological processes through direct and indirect interactions with other transcriptional regulators in L. crescens. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Identification of Biomarkers for Systemic Distribution of Nanovesicles From Lactobacillus johnsonii N6.2.

Author

Harrison, Natalie A., Gardner, Christopher L., da Silva, Danilo R., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
BIOMOLECULES, BIOLOGICAL transport, SCANNING transmission electron microscopy, LACTOBACILLUS, CELL anatomy
Abstract

The ability of bacterial extracellular vesicles (EV) to transport biological molecules has increased the research to determine their potential as therapeutic agents. In this study, Lactobacillus johnsonii N6.2-derived nanovesicles (NV) were characterized to identify components that may serve as biomarkers in host-microbe interactions. Comparative proteomic and lipidomic analyses of L. johnsonii N6.2 NV and cell membrane (CM) were performed. The lipidomic profiles indicated that both fractions contained similar lipids, however, significant differences were observed in several classes. LC-MS/MS proteomic analysis indicated that NV contained several unique and differentially expressed proteins when compared to the CM. Analysis of Gene Ontology (GO) terms, based on cellular component, showed significant enrichment of proteins in the cytoplasm/intracellular space category for the NV fraction. Based on these results, the proteins T285_RS00825 (named Sdp), Eno3 and LexA were selected for studies of localization and as potential biomarkers for host-microbe interactions. Immunogold staining, followed by scanning and transmission electron microscopy (SEM and TEM, respectively), revealed that Sdp was preferentially localized along the cell wall/membrane, and on NV-like structures surrounding the bacteria. These results were confirmed using immunofluorescence staining in Caco-2 cells incubated with NV. Consequently, we evaluated the potential for NV surface-exposed proteins to generate an immune response in the host. Plasma from individuals administered L. johnsonii N6.2 showed that IgA and IgG antibodies were generated against NV and Sdp domains in vivo. Altogether, these results show that L. johnsonii N6.2 NV have the potential to mediate host interactions through immune modulation. [ABSTRACT FROM AUTHOR]

Published
2021
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24. ' Candidatus Liberibacter asiaticus' Multimeric LotP Mediates Citrus sinensis Defense Response Activation.

Author

Merli, Marcelo L., Padgett-Pagliai, Kaylie A., Cuaycal, Alexandra E., Garcia, Lucila, Marano, Maria Rosa, Lorca, Graciela L., and Gonzalez, Claudio F.

Subjects
CANDIDATUS liberibacter asiaticus, ORANGES, CITRUS greening disease, PLANT proteins, TRANSCRIPTION factors, PROTEOLYTIC enzymes
Abstract

' Candidatus Liberibacter asiaticus' is known as the most pathogenic organism associated with citrus greening disease. Since its publicized emergence in Florida in 2005, ' Ca. L. asiaticus' remains unculturable. Currently, a limited number of potential disease effectors have been identified through in silico analysis. Therefore, these potential effectors remain poorly characterized and do not fully explain the complexity of symptoms observed in citrus trees infected with ' Ca. L. asiaticus.' LotP has been identified as a potential effector and have been partially characterized. This protein retains structural homology to the substrate binding domain of the Lon protease. LotP interacts with chaperones like GroEL, Hsp40, DnaJ, and ClpX and may exercise its biological role through interactions with different proteins involved in proteostasis networks. Here, we evaluate the interactome of LotP—revealing a new protein–protein interaction target (Lon-serine protease) and its effect on citrus plant tissue integrity. We found that via protein–protein interactions, LotP can enhance Lon protease activity, increasing the degradation rate of its specific targets. Infiltration of purified LotP strained citrus plant tissue causing photoinhibition and chlorosis after several days. Proteomics analysis of LotP tissues recovering after the infiltration revealed a large abundance of plant proteins associated with the stabilization and processing of mRNA transcripts, a subset of important transcription factors; and pathways associated with innate plant defense were highly expressed. Furthermore, interactions and substrate binding module of LotP suggest potential interactions with plant proteins, most likely proteases. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Method Optimization: Analysis of Benzbromarone and Tolfenamic Acid in Citrus Tissues and Soil Using Liquid Chromatography Coupled With Triple-Quadrupole Mass Spectrometry.

Author

Zhang, Dan, da Silva, Danilo R., Garrett, Timothy J., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
MASS spectrometry, LIQUID chromatography, MASS analysis (Spectrometry), FORMIC acid, LIQUID-liquid extraction, THIN layer chromatography, HYDROPHILIC interaction liquid chromatography
Abstract

Herein, an analytical method was developed for extraction and quantification of benzbromarone and tolfenamic acid in citrus and soil matrices using liquid-liquid extraction followed by liquid chromatography-triple quadrupole-tandem mass spectrometry analysis. The compounds were extracted using 0.1% formic acid in 6:4 ethyl acetate and n-hexane solution, and the analytes were separated using a mixture of 0.1% formic acid in ultrapure water and 0.1% formic acid in acetonitrile as mobile phase. A six-point in-matrix calibration curve was constructed providing good linearity with coefficients of determination R 2 ≥ 0.98. The limits of detection and quantification for benzbromarone and tolfenamic acid were 3.0 and 10.0 μg/kg in roots, peel, juice, and soil, and 4.0 and 12.0 μg/kg for leaves samples, respectively. The method yielded excellent recoveries between 81.3 and 101.2%, with relative standard deviation ≤9.5% in the matrices. The developed technique provides a simple and sensitive method for the determination of the chemicals and can be applied to agricultural practices. [ABSTRACT FROM AUTHOR]

Published
2020
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26. Identification of flavonoids as regulators of YbeY activity in Liberibacter asiaticus.

Author

Zuo, Ran, Oliveira, Aline, Bullita, Enrica, Torino, Maria Ines, Padgett‐Pagliai, Kaylie A., Gardner, Christopher L., Harrison, Natalie A., da Silva, Danilo, Merli, Marcelo L., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
CITRUS greening disease, FLAVONES, CITRUS fruit industry, SITE-specific mutagenesis, FLAVONOLS, LUTEOLIN, GENE expression, CATALYTIC activity
Abstract

Summary: Liberibacter asiaticus is the prevalent causative pathogen of Huanglongbing or citrus greening disease, which has resulted in a devastating crisis in the citrus industry. A thorough understanding of this pathogen's physiology and mechanisms to control cell survival is critical in the identification of therapeutic targets. YbeY is a highly conserved bacterial RNase that has been implicated in multiple roles. In this study, we evaluated the biochemical characteristics of the L. asiaticus YbeY (CLIBASIA_01560) and assessed its potential as a target for antimicrobials. YbeYLas was characterized as an endoribonuclease with activity on 3′ and 5′ termini of 16S and 23S rRNAs, and the capacity to suppress the E. coli ΔybeY phenotype. We predicted the YbeYLas protein:ligand interface and subsequently identified a flavone compound, luteolin, as a selective inhibitor. Site‐directed mutagenesis was subsequently used to identify key residues involved in the catalytic activity of YbeYLas. Further evaluation of naturally occurring flavonoids in citrus trees indicated that both flavones and flavonols had potent inhibitory effects on YbeYLas. Luteolin was subsequently examined for efficacy against L. asiaticus in Huanglongbing‐infected citrus trees, where a significant reduction in L. asiaticus gene expression was observed. [ABSTRACT FROM AUTHOR]

Published
2019
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27. An expansin-like protein expands forage cell walls and synergistically increases hydrolysis, digestibility and fermentation of livestock feeds by fibrolytic enzymes.

Author

Pech-Cervantes, Andres A., Ogunade, Ibukun M., Jiang, Yun, Irfan, Muhammad, Arriola, Kathy G., Amaro, Felipe X., Gonzalez, Claudio F., DiLorenzo, Nicolas, Bromfield, John J., Vyas, Diwakar, and Adesogan, Adegbola T.

Subjects
CELLULASE, ANIMAL feeds, SILAGE, FERMENTATION of feeds, CARBOXYMETHYLCELLULOSE, BACTERIAL proteins, COTTON fibers
Abstract

Bacterial expansin-like proteins have synergistically increased cellulose hydrolysis by cellulolytic enzymes during the initial stages of biofuel production, but they have not been tested on livestock feeds. The objectives of this study were to: isolate and express an expansin-like protein (BsEXLX1), to verify its disruptive activity (expansion) on cotton fibers by immunodetection (Experiment 1), and to determine the effect of dose, pH and temperature for BsEXLX1 and cellulase to synergistically hydrolyze filter paper (FP) and carboxymethyl cellulose (CMC) under laboratory (Experiment 2) and simulated ruminal (Experiment 3) conditions. In addition, we determined the ability of BsEXLX1 to synergistically increase hydrolysis of corn and bermudagrass silages by an exogenous fibrolytic enzyme (EFE) (Experiment 4) and how different doses of BsEXLX1 and EFE affect the gas production (GP), in vitro digestibility and fermentation of a diet for dairy cows (Experiment 5). In Experiment 1, immunofluorescence-based examination of cotton microfiber treated without or with recombinant expansin-like protein expressed from Bacillus subtilis (BsEXLX1) increased the surface area by > 100% compared to the untreated control. In Experiment 2, adding BsEXLX1 (100 μg/g FP) to cellulase (0.0148 FPU) increased release of reducing sugars compared to cellulase alone by more than 40% (P < 0.01) at optimal pH (4.0) and temperature (50°C) after 24 h. In Experiment 3 and 4, adding BsEXLX1 to cellulase or EFE, synergistically increased release of reducing sugars from FP, corn and bermudagrass silages under simulated ruminal conditions (pH 6.0, 39°C). In Experiment 5, increasing the concentration of BsEXLX1 linearly increased (P < 0.01) GP from fermentation of a diet for dairy cows by up to 17.8%. Synergistic effects between BsEXLX1 and EFE increased in vitro NDF digestibility of the diet by 23.3% compared to the control. In vitro digestibility of hemicellulose and butyrate concentration were linearly increased by BsEXLX1 compared to the control. This study demonstrated that BsEXLX1 can improve the efficacy of cellulase and EFE at hydrolyzing pure substrates and dairy cow feeds, respectively. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Sex Modulates Lactobacillus johnsonii N6.2 and Phytophenol Effectiveness in Reducing High Fat Diet Induced mTOR Activation in Sprague-Dawley Rats.

Author

Kling, Danielle N., DeBose-Scarlett, Evon M., Teixeira, Leandro D., Gezan, Salvador A., Lorca, Graciela L., and Gonzalez, Claudio F.

Abstract

Metabolic syndrome (MetS) is the underlying cause of some devastating diseases, including type 2 diabetes and cardiovascular disease. These diseases have been associated with over-activation of the mechanistic Target of Rapamycin (mTOR) pathway. This study utilizes a high fat diet (HFD) to induce MetS and to dissect the effects of a beneficial bacterium, L. johnsonii N6.2, and natural phenolics on mTOR complex 1 (mTORC1) expression compared to a reduced energy density diet (REDD). HFD significantly elevated MetS markers in males, as noted through an increase in weight, glucose levels, and triglyceride levels. Treatments were effective in reducing mTORC1-activating phosphorylation of pAKT-T308 and pAKT-S473 (p = 0.0012 and 0.0049, respectively) in HFD-fed females, with the combined treatments of L. johnsonii and phytophenols reducing phosphorylation below REDD-fed control levels, and significantly below HFD-fed control levels. Meanwhile, diet was the significant factor influencing male mTORC1-activating phosphorylation (p < 0.0001), as treatments were only effective in reducing phosphorylation in REDD-fed animals. Downstream analysis of mTORC1 activated genes phosphogluconate dehydrogenase (pgd) and phosphofructose kinase (pfk) followed this similar trend, enforcing the significant effect sex has on a treatments' ability to modulate diet induced abnormalities. Analyzing mTORC1 stimulators such as insulin, inflammatory cytokines, and tryptophan, revealed no significant differences among groups. These results indicate that the effects observed on mTORC1 are a direct consequence of the treatments, and not exerted indirectly via the modulation of stimuli. This study highlights the potential use of commensal microorganisms and natural compounds in reducing the onset of metabolic diseases through mTORC1. [ABSTRACT FROM AUTHOR]

Published
2018
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29. Understanding the Physiology of Liberibacter asiaticus: An Overview of the Demonstrated Molecular Mechanisms.

Author

Coyle, Janelle F., Lorca, Graciela L., and Gonzalez, Claudio F.

Subjects
CITRUS greening disease, CULTIVARS, PLANT diseases, MICROBIOLOGY, MOLECULAR mechanisms of immunosuppression
Abstract

Citrus greening disease, or huanglongbing, may entirely eradicate all varieties of citrus cultivars worldwide in the near future. This disease is caused by non-cultivable bacteria of the genus Liberibacter; among them, the more pathogenic being Liberibacter asiaticus. The complexity of the host–pathogen relationship, associated with the impossibility of performing research using axenic cultures, has severely hindered the basic research on microbiology. Since its genome sequence was published in 2009, most of the scientific publications in the field were dedicated to in silico analysis and selection of targets to design early detection methods. The knowledge gained with these approaches felt short to articulate effective methods to control the disease progression. There is a critical need to understand the basic biology of bacteria to design effective strategies to inactivate central mechanisms of pathogenesis. In this review, we summarize the scientific progress made by studying L. asiaticus' biology through direct experimentation. The evidence collected thus far is not enough to understand L. -asiaticus' fundamental biology. It is imperiously necessary to increase the basic research to identify relevant biological clues to control citrus greening. The gained knowledge may also help to prevent potential catastrophic diseases in other crops of significant importance caused by other unculturable Liberibacter species. [ABSTRACT FROM AUTHOR]

Published
2018
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30. Zinc is an inhibitor of the LdtR transcriptional activator.

Author

Pagliai, Fernando A., Pan, Lei, Silva, Danilo, Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
GENE expression, ACTIVATOR protein-2 transcription factors, ZINC, CITRUS greening disease, CELLULAR signal transduction
Abstract

LdtR is a master regulator of gene expression in Liberibacter asiaticus, one of the causative agents of citrus greening disease. LdtR belongs to the MarR-family of transcriptional regulators and it has been linked to the regulation of more than 180 genes in Liberibacter species, most of them gathered in the following Clusters of Orthologous Groups: cell motility, cell wall envelope, energy production, and transcription. Our previous transcriptomic evidence suggested that LdtR is directly involved in the modulation of the zinc uptake system genes (znu) in the closely related L. crescens. In this report, we show that LdtR is involved in the regulation of one of the two encoded zinc uptake mechanisms in L. asiaticus, named znu2. We also show that LdtR binds zinc with higher affinity than benzbromarone, a synthetic effector inhibitory molecule, resulting in the disruption of the LdtR:promoter interactions. Using site-directed mutagenesis, electrophoretic mobility shift assays (EMSAs), and isothermal titration calorimetry, we identified that residues C28 and T43 in LdtR, located in close proximity to the Benz1 pocket, are involved in the interaction with zinc. These results provided new evidence of a high-affinity effector molecule targeting a key player in L. asiaticus’ physiology and complemented our previous findings about the mechanisms of signal transduction in members of the MarR-family. [ABSTRACT FROM AUTHOR]

Published
2018
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31. Identification of the Tolfenamic Acid Binding Pocket in PrbP from Liberibacter asiaticus.

Author

Lei Pan, Gardner, Christopher L., Pagliai, Fernando A., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
DNA-binding proteins, TRANSCRIPTIONAL repressor CTCF, RNA polymerases
Abstract

In Liberibacter asiaticus, PrbP is an important transcriptional accessory protein that was found to regulate gene expression through interactions with the RNA polymerase β-subunit and a specific sequence on the promoter region. It was found that inactivation of PrbP, using the inhibitor tolfenamic acid, resulted in a significant decrease in the overall transcriptional activity of L. asiaticus, and the suppression of L. asiaticus infection in HLB symptomatic citrus seedlings. The molecular interactions between PrbP and tolfenamic acid, however, were yet to be elucidated. In this study, we modeled the structure of PrbP and identified a ligand binding pocket, TaP, located at the interface of the predicted RNA polymerase interaction domain (N-terminus) and the DNA binding domain (C-terminus). The molecular interactions of PrbP with tolfenamic acid were predicted using in silico docking. Site-directed mutagenesis of specific amino acids was followed by electrophoresis mobility shift assays and in vitro transcription assays, where residues N107, G109, and E148 were identified as the primary amino acids involved in interactions with tolfenamic acid. These results provide insight into the binding mechanism of PrbP to a small inhibitory molecule, and a starting scaffold for the identification and development of therapeutics targeting PrbP and other homologs in the CarD_CdnL_TRCF family. [ABSTRACT FROM AUTHOR]

Published
2017
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32. LdtR is a master regulator of gene expression in Liberibacter asiaticus.

Author

Pagliai, Fernando A., Coyle, Janelle F., Kapoor, Sharan, Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
CITRUS greening disease, CELL motility, LIGANDS (Biochemistry), GENES, MESSENGER RNA, CHARTS, diagrams, etc.
Abstract

Huanglongbing or citrus greening disease is causing devastation to the citrus industry. Liberibacter asiaticus, an obligate intracellular pathogen of citrus, is one the causative agents of the disease. Most of the knowledge about this bacterium has been deduced from the in silico exploration of its genomic sequence. L. asiaticus differentially expresses genes during its transmission from the psyllid vector, Diaphorina citri, to the plant. However, the regulatory mechanisms for the adaptation of the bacterium into either hosts remain unknown. Here we show that LdtR, a MarR family transcriptional regulator, activates or represses transcription genome-wide. We performed a double approach to identify the components of the LdtR regulon: a transcriptome analysis in both the related bacterium Liberibacter crescens and citrus-infected leaves, strengthened with an in silico prediction of LdtR regulatory sites. Our results demonstrated that LdtR controls the expression of nearly 180 genes in L. asiaticus, distributed in processes such as cell motility, cell wall biogenesis, energy production, and transcription. These results provide new evidence about the regulatory network of L. asiaticus, where the differential expression of genes from these functional categories could be of great importance during the adaptation of the bacterium to either hosts. [ABSTRACT FROM AUTHOR]

Published
2017
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33. Lactobacillus johnsonii N6.2 Modulates the Host Immune Responses: a Double-Blind, Randomized Trial in Healthy Adults.

Author

Marcial, Guillermo E., Ford, Amanda L., Haller, Michael J., Gezan, Salvador A., Harrison, Natalie A., Dan Cai, Meyer, Julie L., Perry, Daniel J., Atkinson, Mark A., Wasserfall, Clive H., Garrett, Timothy, Gonzalez, Claudio F., Brusko, Todd M., Dahl, Wendy J., and Lorca, Graciela L.

Subjects
LACTOBACILLUS, IMMUNE system, IMMUNOPHENOTYPING
Abstract

Lactobacillus johnsonii N6.2 mitigates the onset of type 1 diabetes (T1D) in biobreeding diabetes-prone rats, in part, through changes in kynurenine:tryptophan (K:T) ratios. The goal of this pilot study was to determine the safety, tolerance, and general immunological response of L. johnsonii N6.2 in healthy subjects. A double-blind, randomized clinical trial in 42 healthy individuals with no known risk factors for T1D was undertaken to evaluate subject responses to the consumption of L. johnsonii N6.2. Participants received 1 capsule/day containing 108 colony-forming units of L. johnsonii N6.2 or placebo for 8 weeks. Comprehensive metabolic panel (CMP), leukocyte subpopulations by complete blood count (CBC) and flow cytometry, serum cytokines, and relevant metabolites in the indoleamine-2,3-dioxygenase pathway were assessed. L. johnsonii N6.2 survival and intestinal microbiota was analyzed. Daily and weekly questionnaires were assessed for potential effects of probiotic treatment on general wellness. The administration of L. johnsonii N6.2 did not modify the CMP or CBC of participants suggesting general safety. In fact, L. johnsonii N6.2 administration significantly decreased the occurrence of abdominal pain, indigestion, and cephalic syndromes. As predicted, increased serum tryptophan levels increased resulting in a decreased K:T ratio was observed in the L. johnsonii N6.2 group. Interestingly, immunophenotyping assays revealed that monocytes and natural killer cell numbers were increased significantly after washout (12 weeks). Moreover, an increase of circulating effector Th1 cells (CD45RO+CD183+CD196-) and cytotoxic CD8+ T cells subset was observed in the L. johnsonii N6.2 group. Consumption of L. johnsonii N6.2 is well tolerated in adult control subjects, demonstrates systemic impacts on innate and adaptive immune populations, and results in a decreased K:T ratio. These data provide support for the safety and feasibility of using L. johnsonii N6.2 in prevention trials in subjects at risk for T1D. [ABSTRACT FROM AUTHOR]

Published
2017
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34. Functional characterization of LotP from Liberibacter asiaticus.

Author

Loto, Flavia, Coyle, Janelle F., Padgett, Kaylie A., Pagliai, Fernando A., Gardner, Christopher L., Lorca, Graciela L., and Gonzalez, Claudio F.

Subjects
JUMPING plant-lice, PROTEOBACTERIA, INSECTS as carriers of disease, PLANT diseases, IMMUNOPRECIPITATION
Abstract

Liberibacter asiaticus is an unculturable parasitic bacterium of the alphaproteobacteria group hosted by both citrus plants and a psyllid insect vector ( Diaphorina citri). In the citrus tree, the bacteria thrive only inside the phloem, causing a systemically incurable and deadly plant disease named citrus greening or Huanglongbing. Currently, all commercial citrus cultivars in production are susceptible to L. asiaticus, representing a serious threat to the citrus industry worldwide. The technical inability to isolate and culture L. asiaticus has hindered progress in understanding the biology of this bacterium directly. Consequently, a deep understanding of the biological pathways involved in the regulation of host-pathogen interactions becomes critical to rationally design future and necessary strategies of control. In this work, we used surrogate strains to evaluate the biochemical characteristics and biological significance of CLIBASIA_03135. This gene, highly induced during early stages of plant infection, encodes a 23 kDa protein and was renamed in this work as LotP. This protein belongs to an uncharacterized family of proteins with an overall structure resembling the LON protease N-terminus. Co-immunoprecipitation assays allowed us to identify the Liberibacter chaperonin Gro EL as the main LotP-interacting protein. The specific interaction between LotP and Gro EL was reconstructed and confirmed using a two-hybrid system in Escherichia coli. Furthermore, it was demonstrated that LotP has a native molecular weight of 44 kDa, corresponding to a dimer in solution with ATPase activity in vitro. In Liberibacter crescens, LotP is strongly induced in response to conditions with high osmolarity but repressed at high temperatures. Electrophoretic mobility shift assay ( EMSA) results suggest that LotP is a member of the LdtR regulon and could play an important role in tolerance to osmotic stress. [ABSTRACT FROM AUTHOR]

Published
2017
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35. Drug Repurposing: Tolfenamic Acid Inactivates PrbP, a Transcriptional Accessory Protein in Liberibacter asiaticus.

Author

Gardner, Christopher L., Pagliai, Fernando A., Pan, Lei, Bojilova, Lora, Torino, Maria I., Lorca, Graciela L., and Gonzalez, Claudio F.

Subjects
CARRIER proteins, BACTERIAL diseases of plants, CITRUS diseases & pests
Abstract

CLIBASIA_01510, PrbP, is a predicted RNA polymerase binding protein in Liberibacter asiaticus. PrbP was found to regulate expression of a small subset of ribosomal genes through interactions with the β-subunit of the RNA polymerase and a short, specific sequence on the promoter region. Molecular screening assays were performed to identify small molecules that interact with PrbP in vitro. Chemical hits were analyzed for therapeutic efficacy against L. asiaticus via an infected leaf assay, where the transcriptional activity of L. asiaticus was found to decrease significantly after exposure to tolfenamic acid. Similarly, tolfenamic acid was found to inhibit L. asiaticus infection in highly symptomatic citrus seedlings. Our results indicate that PrbP is an important transcriptional regulator for survival of L. asiaticus in planta, and the chemicals identified by molecular screening assays could be used as a therapeutic treatment for huanglongbing disease. [ABSTRACT FROM AUTHOR]

Published
2016
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36. Functional Analysis of the Citrate Activator CitO from Enterococcus faecalis Implicates a Divalent Metal in Ligand Binding.

Author

Blancato, Víctor S., Pagliai, Fernando A., Magni, Christian, Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
ENTEROCOCCUS faecalis, CITRATES, BINDING sites
Abstract

The regulator of citrate metabolism, CitO, from Enterococcus faecalis belongs to the FCD family within the GntR superfamily. In the presence of citrate, CitO binds to cis-acting sequences located upstream of the cit promoters inducing the expression of genes involved in citrate utilization. The quantification of the molecular binding affinities, performed by isothermal titration calorimetry (ITC), indicated that CitO has a high affinity for citrate (KD = 1.2 ± 0.2μM), while it did not recognize other metabolic intermediates. Based on a structural model of CitO where a putative small molecule and a metal binding site were identified, it was hypothesized that the metal ion is required for citrate binding. In agreement with this model, citrate binding to CitO sharply decreased when the protein was incubated with EDTA. This effect was reverted by the addition of Ni2+, and Zn2+ to a lesser extent. Structure-based site-directed mutagenesis was conducted and it was found that changes to alanine in residues Arg97 and His191 resulted in decreased binding affinities for citrate, as determined by EMSA and ITC. Further assays using lacZ fusions confirmed that these residues in CitO are involved in sensing citrate in vivo. These results indicate that the molecular modifications induced by a ligand and a metal binding in the C-terminal domain of CitO are required for optimal DNA binding activity, and consequently, transcriptional activation. [ABSTRACT FROM AUTHOR]

Published
2016
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37. The Escherichia coli yjfP Gene Encodes a Carboxylesterase Involved in Sugar Utilization during Diauxie.

Author

Johns, Nat, Wrench, Algevis, Loto, Flavia, Valladares, Ricardo, Lorca, Graciela, and Gonzalez, Claudio F.

Subjects
ESCHERICHIA coli, COLIFORMS, CARBOXYLESTERASES, ENTEROBACTERIACEAE, SUGAR
Abstract

Background: Acetylation and efflux of carbohydrates during cellular metabolism is a well-described phenomenon associated with a detoxification process to prevent metabolic congestion. It is still unclear why cells discard important metabolizable energy sources in the form of acetylated compounds. Methods: We describe the purification and characterization of an approximately 28-kDa intracellular carboxylesterase (YjfP) and the analysis of gene and protein expression by qRT-PCR and Western blot. Results: qRT-PCR and Western blot, respectively, showed that yjfP is upregulated during the diauxic lag in cells growing with a mixture of glucose and lactose. The β-galactosidase activity in the ΔyjfP strain was both delayed and half the magnitude of that of the wild-type strain. YjfP-hyperproducing strains displayed a long lag phase when cultured with glucose and then challenged to grow with lactose or galactose as the sole carbon source. Conclusion: Our results suggest that YjfP controls the intracellular concentration of acetyl sugars by redirecting them to the main metabolic circuits. Instead of detoxification, we propose that sugar acetylation is utilized by the cell for protection and to prevent the metabolism of a necessary minimal intracellular sugar pool. Those sugars can eventually be exported as a side effect of these mechanisms. © 2016 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2016
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38. Identification of a Ligand Binding Pocket in LdtR from Liberibacter asiaticus.

Author

Pagliai, Fernando A., Gonzalez, Claudio F., Lorca, Graciela L., Jacob-Dubuisson, Françoise, Stevenson, Clare Elizabeth Mary, and Rubio, Vicente

Subjects
FREMYELLA diplosiphon, MORPHOGENESIS, CYANOBACTERIA
Abstract

LdtR is a transcriptional activator involved in the regulation of a putative L,D transpeptidase in Liberibacter asiaticus, an unculturable pathogen and one of the causative agents of Huanglongbing disease. Using small molecule screens we identified benzbromarone as an inhibitor of LdtR activity, which was confirmed using in vivo and in vitro assays. Based on these previous results, the objective of this work was to identify the LdtR ligand binding pocket and characterize its interactions with benzbromarone. A structural model of LdtR was constructed and the molecular interactions with the ligand were predicted using the SwissDock interface. Using site-directed mutagenesis, these residues were changed to alanine. Electrophoretic mobility shift assays, thermal denaturation, isothermal titration calorimetry experiments, and in vivo assays were used to identify residues T43, L61, and F64 in the Benz1 pocket of LdtR as the amino acids most likely involved in the binding to benzbromarone. These results provide new information on the binding mechanism of LdtR to a modulatory molecule and provide a blue print for the design of therapeutics for other members of the MarR family of transcriptional regulators involved in pathogenicity. [ABSTRACT FROM AUTHOR]

Published
2015
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39. H2O2 production rate in Lactobacillus johnsonii is modulated via the interplay of a heterodimeric flavin oxidoreductase with a soluble 28 Kd PAS domain containing protein.

Author

Valladares, Ricardo B., Graves, Christina, Wright, Kaitlyn, Gardner, Christopher L., Lorca, Graciela L., Gonzalez, Claudio F., Spano, Giuseppe, and Tyagi, Amit Kumar

Subjects
LACTOBACILLUS, OXIDOREDUCTASES, HYDROGEN peroxide
Abstract

Host and commensals crosstalk, mediated by reactive oxygen species (ROS), has triggered a growing scientific interest to understand the mechanisms governing such interaction. However, the majority of the scientific studies published do not evaluate the ROS production by commensals bacteria. In this context we recently showed that Lactobacillus johnsonii N6.2, a strain of probiotic value, modulates the activity of the critical enzymes 2,3-indoleamine dioxygenase via H2O2 production. L. johnsonii N6.2 by decreasing IDO activity, is able to modify the tryptophan/kynurenine ratio in the host blood with further systemic consequences. Understanding the mechanisms of H2O2 production is critical to predict the probiotic value of these strains and to optimize bacterial biomass production in industrial processes. We performed a transcriptome analysis to identify genes differentially expressed in L. johnsonii N6.2 cells collected from cultures grown under different aeration conditions. Herein we described the biochemical characteristics of a heterodimeric FMN reductase (FRedA/B) whose in vitro activity is controlled by LjPAS protein with a typical Per-Arnst-Sim (PAS) sensor domain. Interestingly, LjPAS is fused to the FMN reductase domains in other lactobacillaceae. In L. johnsonii, LjPAS is encoded by an independent gene which expression is repressed under anaerobic conditions (>3 fold). Purified LjPAS was able to slow down the FRedA/B initial activity rate when the holoenzyme precursors (FredA, FredB, and FMN) were mixed in vitro. Altogether the results obtained suggest that LjPAS module regulates the H2O2 production helping the cells to minimize oxidative stress in response to environmental conditions. [ABSTRACT FROM AUTHOR]

Published
2015
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40. A dual role of the transcriptional regulator TstR provides insights into cyanide detoxification in L actobacillus brevis.

Author

Pagliai, Fernando A., Murdoch, Caitlin C., Brown, Sara M., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
CYANIDES, DETOXIFICATION (Alternative medicine), LACTOBACILLUS brevis, GENETIC transcription regulation, THIOSULFATES, THIOSULFATE sulfurtransferase, BACTERIAL operons
Abstract

In this study we uncover two genes in L actobacillus brevis ATCC 367, tstT and tstR, encoding for a rhodanese and a transcriptional regulator involved in cyanide detoxification. TstT ( LVIS_0852) belongs to a new class of thiosulphate:cyanide sulphurtransferases. We found that TstR ( LVIS_0853) modulates both the expression and the activity of the downstream-encoded tstT. The TstR binding site was identified at −1 to +33, from tstR transcriptional start site. EMSA revealed that sulphite, a product of the reaction catalysed by TstT, improved the interaction between TstR: PtstR, while Fe( III) disrupted this interaction. Site-directed mutagenesis in TstR identified M64 as a key residue in sulphite recognition, while residues H136- H139- C167- M171 formed a pocket for ferric iron co-ordination. In addition to its role as a transcriptional repressor, TstR is also involved in regulating the thiosulphate:cyanide sulphurtransferase activity of TstT. A threefold increase in TstT activity was observed in the presence of TstR, which was enhanced by the addition of Fe( III). Overexpression of the tstRT operon was found to increase the cyanide tolerance of L . brevis and E scherichia coli. The protein-protein interaction between TstR and TstT described herein represents a novel mechanism for regulation of enzymatic activity by a transcriptional regulator. [ABSTRACT FROM AUTHOR]

Published
2014
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41. The Transcriptional Activator LdtR from ‘Candidatus Liberibacter asiaticus’ Mediates Osmotic Stress Tolerance.

Author

Pagliai, Fernando A., Gardner, Christopher L., Bojilova, Lora, Sarnegrim, Amanda, Tamayo, Cheila, Potts, Anastasia H., Teplitski, Max, Folimonova, Svetlana Y., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
REGULONS, CANDIDATUS liberibacter asiaticus, BACTERIAL cell walls, GENETIC transcription in bacteria, EFFECT of stress on bacteria, BACTERIAL enzymes, LIGANDS (Biochemistry)
Abstract

The causal agent of Huanglongbing disease, ‘Candidatus Liberibacter asiaticus’, is a non-culturable, gram negative, phloem-limited α-proteobacterium. Current methods to control the spread of this disease are still limited to the removal and destruction of infected trees. In this study, we identified and characterized a regulon from ‘Ca. L. asiaticus’ involved in cell wall remodeling, that contains a member of the MarR family of transcriptional regulators (ldtR), and a predicted L,D-transpeptidase (ldtP). In Sinorhizobium meliloti, mutation of ldtR resulted in morphological changes (shortened rod-type phenotype) and reduced tolerance to osmotic stress. A biochemical approach was taken to identify small molecules that modulate LdtR activity. The LdtR ligands identified by thermal shift assays were validated using DNA binding methods. The biological impact of LdtR inactivation by the small molecules was then examined in Sinorhizobium meliloti and Liberibacter crescens, where a shortened-rod phenotype was induced by growth in presence of the ligands. A new method was also developed to examine the effects of small molecules on the viability of ‘Ca. Liberibacter asiaticus’, using shoots from HLB-infected orange trees. Decreased expression of ldtRLas and ldtPLas was observed in samples taken from HLB-infected shoots after 6 h of incubation with the LdtR ligands. These results provide strong proof of concept for the use of small molecules that target LdtR, as a potential treatment option for Huanglongbing disease. [ABSTRACT FROM AUTHOR]

Published
2014
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42. MglA/SspA Complex Interactions Are Modulated by Inorganic Polyphosphate.

Author

Wrench, Algevis P., Gardner, Christopher L., Siegel, Sara D., Pagliai, Fernando A., Malekiha, Mahsa, Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
PROTEIN-protein interactions, POLYPHOSPHATES, TRANSCRIPTION factors, FRANCISELLA, ISOTHERMAL titration calorimetry, RNA polymerases, GENETIC regulation
Abstract

The transcription factors MglA and SspA of Francisella tularensis form a heterodimer complex and interact with the RNA polymerase to regulate the expression of the Francisella pathogenicity island (FPI) genes. These genes are essential for this pathogen’s virulence and survival within host cells. Our goal was to determine if an intracellular metabolite modulate these protein/protein interactions. In this study, we identified inorganic polyphosphate (polyP) as a signal molecule that promotes the interaction of MglA and SspA from F. tularensis SCHU S4. Analysis of the Mgla/SspA interaction was carried out using a two-hybrid system. The Escherichia coli reporter strain contained a deletion on the ppK-ppX operon, inhibiting polyP synthesis. The interaction between MglA and SspA was significantly impaired, as was the interaction between the MglA/SspA complex and the regulatory protein, FevR, indicating the stabilizing effect of polyP. In F. tularensis, chromatin immune precipitation studies revealed that in the absence of polyP, binding of the MglA/SspA complex to the promoter region of the pdpD, iglA, fevR and ppK genes is decreased. Isothermal titration calorimetry (ITC) indicated that polyP binds directly to the MglA/SspA complex with high affinity (KD = 0.3 µM). These observations directly correlated with results obtained from calorimetric scans (DSC), where a strong shift in the mid-transition temperature (Tm) of the MglA/SspA complex was observed in the presence of polyP. [ABSTRACT FROM AUTHOR]

Published
2013
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43. Lactobacillus johnsonii inhibits indoleamine 2,3-dioxygenase and alters tryptophan metabolite levels in BioBreeding rats.

Author

Valladares, Ricard, Bojilova, Lora, Potts, Anastasia H., Cameron, Evan, Gardner, Christopher, Lorca, Graciela, and Gonzalez, Claudio F.

Subjects
LACTOBACILLUS, INDOLEAMINE 2,3-dioxygenase, TRYPTOPHAN, METABOLITES, LABORATORY rats
Abstract

In our previous work, we found that feeding Lactobacillus johnsonii to BioBreeding diabetes-prone (BBDP) rats decreased the incidence of diabetes development. The aim of this study was to investigate host pathways affected by L. johnsonii, with specific focus on the rate-limiting enzyme of tryptophan catabolism, indoleamine 2,3-dioxygenase (IDO). Suspensions of L. johnsonii or an equal volume of vehicle were orally administered to BBDP rats. Tissue IDO was investigated using quantitative RT-PCR and Western blot, whereas tryptophan, kynurenine, and 5-hydroxytryptamine (5-HT) concentrations were quantified by HPLC and ELISA. IDO activity was also investigated using L. johnsonii culture cell-free supernatant (CFS) with affinity-purified IDO and HT-29 intestinal epithelial cells. L. johnsonii feeding resulted in a 17% reduction in serum kynurenine compared with that in vehicle-fed controls, correlating with a 1.4-fold elevation in 5-HT levels. H2O2 produced by L. johnsonii abolished IDO activity in vitro, and L. johnsonii feeding resulted in a 3.9-fold increase in ileum lumen H2O2. L. johnsonii CFS significantly reduced IDO activity in HT-29 intestinal epithelial cells (47% reduction) compared with that in vehicle-treated controls, an effect abolished by catalase treatment. These data support the role of H2O2 in commensal bacteria-host interactions and highlight the influence of commensal bacteria-derived H2O2 on host physiology. [ABSTRACT FROM AUTHOR]

Published
2013
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44. Identification of a Small Molecule That Modifies MglA/SspA Interaction and Impairs Intramacrophage Survival of Francisella tularensis.

Author

Wrench, Algevis P., Gardner, Christopher L., Gonzalez, Claudio F., and Lorca, Graciela L.

Subjects
FRANCISELLA tularensis, RNA polymerases, MICROBIAL virulence, CHROMATOGRAPHIC analysis, QUINACRINE, TULAREMIA
Abstract

The transcription factors MglA and SspA of Francisella tularensis form a heterodimer complex and interact with the RNA polymerase to regulate the expression of the Francisella pathogenicity island (FPI) genes. These genes are essential for this pathogen's virulence and survival within host cells. In this study, we used a small molecule screening to identify quinacrine as a thermal stabilizing compound for F. tularensis SCHU S4 MglA and SspA. A bacterial two-hybrid system was used to analyze the in vivo effect of quinacrine on the heterodimer complex. The results show that quinacrine affects the interaction between MglA and SspA, indicated by decreased β-galactosidase activity. Further in vitro analyses, using size exclusion chromatography, indicated that quinacrine does not disrupt the heterodimer formation, however, changes in the alpha helix content were confirmed by circular dichroism. Structure-guided site-directed mutagenesis experiments indicated that quinacrine makes contact with amino acid residues Y63 in MglA, and K97 in SspA, both located in the "cleft" of the interacting surfaces. In F. tularensis subsp. novicida, quinacrine decreased the transcription of the FPI genes, iglA, iglD, pdpD and pdpA. As a consequence, the intramacrophage survival capabilities of the bacteria were affected. These results support use of the MglA/SspA interacting surface, and quinacrine's chemical scaffold, for the design of high affinity molecules that will function as therapeutics for the treatment of Tularemia. [ABSTRACT FROM AUTHOR]

Published
2013
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45. Structure and activity of the cold-active and anion-activated carboxyl esterase OLEI01171 from the oil-degrading marine bacterium Oleispira antarctica.

Author

LEMAK, Sofia, TCHIGVINTSEV, Anatoli, PETIT, Pierre, FLICK, Robert, SINGER, Alexander U., BROWN, Greg, EVDOKIMOVA, Elena, EGOROVA, Olga, GONZALEZ, Claudio F., CHERNIKOVA, Tatyana N., YAKIMOV, Michail M., KUBE, Michael, REINHARDT, Richard, GOLYSHIN, Peter N., SAVCHENKO, Alexei, and YAKUNIN, Alexander F.

Subjects
CARBOXYLATION, ESTERASES, MARINE bacteria, COLD (Temperature), ANIONS, RECOMBINANT proteins, HYDROLYSIS
Abstract

The uncharacterized α/ß-hydrolase protein OLEI01171 from the psychrophilic marine bacterium Oleispira antarctica belongs to the PF00756 family of putative esterases, which also includes human esterase D. In the present paper we show that purified recombinant OLEI01171 exhibits high esterase activity against the model esterase substrate a-naphthyl acetate at 5 - 30℃ with maximal activity at 15-20℃. The esterase activity of OLEI01171 was stimulated 3-8-fold by the addition of chloride or several other anions (0.1-1.0 M). Compared with mesophilic PF00756 esterases, OLEI01171 exhibited a lower overall protein thermostability. Two crystal structures of OLEI01171 were solved at 1.75 and 2.1 Å resolution and revealed a classical serine hydrolase catalytic triad and the presence of a chloride or bromide ion bound in the active site close to the catalytic Ser148. Both anions were found to co-ordinate a potential catalytic water molecule located in the vicinity of the catalytic triad His257. The results of the present study suggest that the bound anion perhaps contributes to the polarization of the catalytic water molecule and increases the rate of the hydrolysis of an acyl-enzyme intermediate. Alanine replacementmutagenesis of OLEI01171 identified ten amino acid residues important for esterase activity. The replacement of Asn225 by lysine had no significant effect on the activity or thermostability of OLEI01171, but resulted in a detectable increase of activity at 35-45℃. The present study has provided insight into the molecular mechanisms of activity of a cold-active and anionactivated carboxyl esterase. [ABSTRACT FROM AUTHOR]

Published
2012
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46. Structure and activity of the Pseudomonas aeruginosa hotdog-fold thioesterases PA5202 and PA2801.

Author

GONZALEZ, Claudio F., TCHIGVINTSEV, Anatoli, BROWN, Greg, FLICK, Robert, EVDOKIMOVA, Elena, Xiaohui XU, OSIPIUK, Jerzy, CUFF, Marianne E., LYNCH, Susan, JOACHIMIAK, Andrzej, SAVCHENKO, Alexei, and YAKUNIN, Alexander F.

Subjects
*PSEUDOMONAS aeruginosa, *THIOESTERASE, *PROTEIN folding, *BACTERIAL proteins, *PATHOGENIC bacteria, *CRYSTAL structure
Abstract

The hotdog fold is one of the basic protein folds widely present in bacteria, archaea and eukaryotes. Many of these proteins exhibit thioesterase activity against fatty acyl-CoAs and play important roles in lipid metabolism, cellular signalling and degradation of xenobiotics. The genome of the opportunistic pathogen Pseudomonas aeruginosa contains over 20 genes encoding predicted hotdog-fold proteins, none of which have been experimentally characterized. We have found that two P. aeruginosa hotdog proteins display high thioesterase activity against 3-hydroxy-3-methylglutaryl-CoA and glutaryl- CoA (PA5202), and octanoyl-CoA (PA2801). Crystal structures of these proteins were solved (at 1.70 and 1.75 Å for PA5202 and PA2801 respectively) and revealed a hotdog fold with a potential catalytic carboxylate residue located on the long a-helix (Asp57 in PA5202 and Glu35 in PA2801). Alanine residue replacement mutagenesis of PA5202 identified four residues (Asn42, Arg43, Asp57 and Thr76) that are critical for its activity and are located in the active site. A P. aeruginosa PA5202 deletion strain showed an increased secretion of the antimicrobial pigment pyocyanine and an increased expression of genes involved in pyocyanin biosynthesis, suggesting a functional link between PA5202 activity and pyocyanin production. Thus the P. aeruginosa hotdog thioesterases PA5202 and PA2801 have similar structures, but exhibit different substrate preferences and functions. [ABSTRACT FROM AUTHOR]

Published
2012
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47. An Inserted &agr;/&bgr; Subdomain Shapes the Catalytic Pocket of Lactobacillus johnsonii Cinnamoyl Esterase.

Author

Kin-Kwan Lai, Stogios, Peter J., Clara Vu, Xiaohui Xu, Hong Cui, Molloy, Sara, Savchenko, Alexei, Yakunin, Alexander, and Gonzalez, Claudio F.

Subjects
LACTOBACILLUS, CINNAMOYL compounds, CATALYTIC activity, MICROBIAL enzymes, GASTROINTESTINAL system, PROBIOTICS, BIOACTIVE compounds, PHENOLS, MICROBIOLOGICAL chemistry, CRYSTALLOGRAPHY
Abstract

Background: Microbial enzymes produced in the gastrointestinal tract are primarily responsible for the release and biochemical transformation of absorbable bioactive monophenols. In the present work we described the crystal structure of LJ0536, a serine cinnamoyl esterase produced by the probiotic bacterium Lactobacillus johnsonii N6.2. Methodology/Principal Findings: We crystallized LJ0536 in the apo form and in three substrate-bound complexes. The structure showed a canonical &agr;/&bgr;fold characteristic of esterases, and the enzyme is dimeric. Two classical serine esterase motifs (GlyXSerXGly) can be recognized from the amino acid sequence, and the structure revealed that the catalytic triad of the enzyme is formed by Ser106, His225, and Asp197, while the other motif is non-functional. In all substrate-bound complexes, the aromatic acyl group of the ester compound was bound in the deepest part of the catalytic pocket. The binding pocket also contained an unoccupied area that could accommodate larger ligands. The structure revealed a prominent inserted &agr;/&bgr;subdomain of 54 amino acids, from which multiple contacts to the aromatic acyl groups of the substrates are made. Inserts of this size are seen in other esterases, but the secondary structure topology of this subdomain of LJ0536 is unique to this enzyme and its closest homolog (Est1E) in the Protein Databank. Conclusions: The binding mechanism characterized (involving the inserted &agr;/&bgr; subdomain) clearly differentiates LJ0536 from enzymes with similar activity of a fungal origin. The structural features herein described together with the activity profile of LJ0536 suggest that this enzyme should be clustered in a new group of bacterial cinnamoyl esterases. [ABSTRACT FROM AUTHOR]

Published
2011
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48. Determination of Francisella tularensis AcpB Acid Phosphatase Substrate Preferences.

Author

Crowe, Evan, Valladares, Ricardo, Vu, Clara, Kuznetsova, Ekaterina, and Gonzalez, Claudio F.

Subjects
PHOSPHATASES, FRANCISELLA tularensis, ENZYMES, HYDROLYSIS, BIOCHEMISTRY, LYSOSOMES, VITAMIN B1
Abstract

The Francisella speciesencode 4 main acid phosphatases (Acp) that are potentially involved in pathogenesis through currently unknown mechanisms. Only 2 of these enzymes, AcpA and AcpC, have been biochemically characterized to date. In this work we describe the catalytic properties of Francisella tularensis AcpB utilizing an array of 120 phosphorylated substrates. In contrast to most acid phosphatases, the purified enzyme showed a narrow range of substrate preferences, with the highest affinity towards thiamine phosphate (Km = 150 μM). Francisella species do not possess a thiamine biosynthetic pathway even though vitamin B1 is indispensable in numerous cellular functions. Consequently, thiamine should be incorporated from the environment, in this case, from the host cell. Our results suggested that AcpB could provide the hydrolytic activity necessary to transform the nontransportable phosphorylated vitamin B1 present in tissues to a form that can be absorbed by the intracellular pathogen. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2011
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49. Lactobacillus johnsonii N6.2 Mitigates the Development of Type 1 Diabetes in BB-DP Rats.

Author

Valladares, Ricardo, Sankar, Dhyana, Nan Li, Williams, Emily, Kin-Kwan Lai, Abdelgeliel, Asmaa Sayed, Gonzalez, Claudio F., Wasserfall, Clive H., Larkin III, Joseph, Schatz, Desmond, Atkinson, Mark A., Triplett, Eric W., Neu, Josef, and Lorca, Graciela L.

Subjects
LACTOBACILLUS, DIABETES, RATS, EPITHELIUM, INTESTINAL diseases, IMMUNOLOGY, GASTROINTESTINAL diseases, GASTROINTESTINAL hormones, CYTOKINES, INFLAMMATION
Abstract

Background: The intestinal epithelium is a barrier that composes one of the most immunologically active surfaces of the body due to constant exposure to microorganisms as well as an infinite diversity of food antigens. Disruption of intestinal barrier function and aberrant mucosal immune activation have been implicated in a variety of diseases within and outside of the gastrointestinal tract. With this model in mind, recent studies have shown a link between diet, composition of intestinal microbiota, and type 1 diabetes pathogenesis. In the BioBreeding rat model of type 1 diabetes, comparison of the intestinal microbial composition of diabetes prone and diabetes resistant animals found Lactobacillus species were negatively correlated with type 1 diabetes development. Two species, Lactobacillus johnsonii and L. reuteri, were isolated from diabetes resistant rats. In this study diabetes prone rats were administered pure cultures of L. johnsonii or L. reuteri isolated from diabetes resistant rats to determine the effect on type 1 diabetes development. Methodology/Principal: Findings Results Rats administered L. johnsonii, but not L. reuteri, post-weaning developed type 1 diabetes at a protracted rate. Analysis of the intestinal ileum showed administration of L. johnsonii induced changes in the native microbiota, host mucosal proteins, and host oxidative stress response. A decreased oxidative intestinal environment was evidenced by decreased expression of several oxidative response proteins in the intestinal mucosa (Gpx1, GR, Cat). In L. johnsonii fed animals low levels of the pro-inflammatory cytokine IFNc were correlated with low levels of iNOS and high levels of Cox2. The administration of L. johnsonii also resulted in higher levels of the tight junction protein claudin. Conclusions: It was determined that the administration of L. johnsonii isolated from BioBreeding diabetes resistant rats delays or inhibits the onset of type 1 diabetes in BioBreeding diabetes prone rats. Taken collectively, these data suggest that the gut and the gut microbiota are potential agents of influence in type 1 diabetes development. These data also support therapeutic efforts that seek to modify gut microbiota as a means to modulate development of this disorder. [ABSTRACT FROM AUTHOR]

Published
2010
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