Your search keyword '"Barry EM"' showing total 89 results

1. Recombinant Salmonella enterica serovar Typhi in a prime-boost strategy

Author

VINDURAMPULLE, C, Cuberos, LF, Barry, EM, Pasetti, MF, Levine, MM, VINDURAMPULLE, C, Cuberos, LF, Barry, EM, Pasetti, MF, and Levine, MM

Published

2004

2. Maternal haploids are preferentially induced by CENH3-tailswap transgenic complementation in maize

Author

Timothy eKelliher, Dakota eStarr, Wenling eWang, Jamie eMcCuiston, Heng eZhong, Michael L. Nuccio, and Barry eMartin

Subjects

RNA Interference, centromeres, doubled haploids, haploid induction, CENH3, Mutant complementation, Plant culture, SB1-1110

Abstract

Doubled haploid plants are invaluable breeding tools but many crop species are recalcitrant to available haploid induction techniques. To test if haploid inducer lines can be engineered into crops, CENH3 -/- and CENH3:RNAi lines were complemented by AcGREEN-tailswap-CENH3 or AcGREEN-CENH3 transgenes. Haploid induction rates were determined following testcrosses to wild-type plants after independently controlling for inducer parent sex and transgene zygosity. CENH3 fusion proteins were localized to centromeres and did not cause vegetative defects or male sterility. CENH3:RNAi lines did not demonstrate consistent knockdown and rarely produced haploids. In contrast, many of the complemented CENH3 -/- lines produced haploids at low frequencies. The rate of gynogenic haploid induction reached a maximum of 3.6% in several hemizygous individuals when backcrossed as males. These results demonstrate that CENH3-tailswap transgenes can be used to engineer in vivo haploid induction systems into maize plants.

Published

2016

3. Individualised internal and external training load relationships in elite wheelchair rugby players

Author

Thomas Andrew William Paulson, Barry eMason, James eRhodes, and Victoria Louise Goosey-Tolfrey

Subjects

Heart Rate, Training Support, Performance monitoring, speed, Paralympic, Physiology, QP1-981

Abstract

Aim: The quantification and longitudinal monitoring of athlete training load (TL) provides a scientific explanation for changes in performance and helps manage injury/illness risk. The aim of the present study was to establish the relationship between measures of internal (heart rate (HR) and session RPE (sRPE)) and external TL specific to wheelchair rugby (WR). Methods: Fourteen international WR athletes (age = 29 ± 7 yrs; body mass = 58.9 ± 10.9 kg) were monitored during 18 training sessions over a 3 month period. Activity profiles were collected during each training session using a radio-frequency based indoor tracking system. External TL was quantified by total distance (m) covered as well as time spent and distance covered in a range of classification-specific arbitrary speed zones. Banister’s TRIMP, Edwards’s summated HR zone (SHRZ) and Lucia’s TRIMP methods were used to quantify physiological internal TL. sRPE was calculated as the product of session duration multiplied by perceived exertion using the Borg CR10 scale. Relationships between external and internal TL were examined using correlation coefficients and the 90% confidence intervals (90% CI). Results: sRPE (r=0.59) and all HR-based (r >0.80) methods showed large and very large relationships with the total distance covered during training sessions, respectively. Large and very large correlations (r =0.56-0.82) were also observed between all measures of internal TL and times spent and distances covered in low and moderate intensity speed zones. HR-based methods showed very large relationships with time (r=0.71-0.75) and distance (r=0.70-0.73) in the very high speed zone and a large relationship with the number of high intensity activities performed (r=0.56-0.62). Weaker relationships (r=0.32–0.35) were observed between sRPE and all measures of high intensity activity. A large variation of individual correlation co-efficient was observed between sRPE and all external TL measures. Conclusion: The current findings suggest that sRPE and HR-based internal TL measures provide a valid tool for quantifying volume of external TL during WR training but may underestimate high intensity activities. It is recommended both internal and external TL measures are employed for the monitoring of overall TL during court-based training in elite WR athletes.

Published

2015

4. Erratum: Transcription and replication result in distinct epigenetic marks following repression of early gene expression

Author

Les eKallestad, Emily eWoods, Kendra eChristensen, Amanda eGefroh, Lata eBalakrishnan, and Barry eMilavetz

Subjects

Replication Origin, transcription, SV40, H3K9, H3K4, Viral Epigenetics, Genetics, QH426-470

Published

2013

5. Transcription and Replication Result in Distinct Epigenetic Marks Following Repression of Early Gene Expression

Author

Les eKallestad, Emily eWoods, Kendra eChristensen, Amanda eGefroh, Lata eBalakrishnan, and Barry eMilavetz

Subjects

replication, transcription, Simian Virus 40 (SV40), H3K9, H3K4, Viral Epigenetics, Genetics, QH426-470

Abstract

Simian Virus 40 (SV40) early transcription is repressed when the product of early transcription, T-antigen, binds to its cognate regulatory sequence, Site I, in the promoter of the SV40 minichromosome. Because SV40 minichromosomes undergo replication and transcription potentially repression could occur during active transcription or during DNA replication. Since repression is frequently epigenetically marked by the introduction of specific forms of methylated histone H3, we characterized the methylation of H3 tails during transcription and replication in wild-type SV40 minichromosomes and mutant minichromosomes which did not repress T-antigen expression. While repressed minichromosomes following replication were clearly marked with H3K9me1 and H3K4me1, minichromosomes repressed during early transcription were not similarly marked. Instead repression of early transcription was marked by a significant reduction in the level of H3K9me2. The replication dependent introduction of H3K9me1 and H3K4me1 into wild-type SV40 minichromosomes was also observed when replication was inhibited with aphidicolin. The results indicate that the histone modifications associated with repression can differ significantly depending upon whether the chromatin being repressed is undergoing transcription or replication.

Published

2013

6. About making a CHO production cell line 'research-friendly' by genetic engineering

Author

Voedisch Bernd, Patoux Agnès, Sterkenburgh Jildou, Buchs Mirjam, Barry Emily, Allard Cyril, and Geisse Sabine

Subjects

Medicine, Science

Published

2011

7. The 2022 Vaccines Against Shigella and Enterotoxigenic Escherichia coli (VASE) Conference: Summary of abstract-based presentations.

Author

Banerjee S, Barry EM, Baqar S, Louis Bourgeois A, Campo JJ, Choy RKM, Chakraborty S, Clifford A, Deal C, Estrada M, Fleckenstein J, Hasso-Agopsowicz M, Hausdorff W, Khalil I, Maier N, Mubanga C, Platts-Mills JA, Porter C, Qadri F, Simuyandi M, Walker R, and White JA

Subjects

Humans, Diarrhea epidemiology, Dysentery, Bacillary, Enterotoxigenic Escherichia coli, Escherichia coli Infections, Escherichia coli Vaccines, Oligopeptides, Shigella, Shigella Vaccines

Abstract

The global nonprofit organization PATH hosted the third Vaccines Against Shigella and Enterotoxigenic Escherichia coli (VASE) Conference in Washington, DC, on November 29 to December 1, 2022. With a combination of plenary sessions and posters, keynote presentations, and breakout workshops, the 2022 VASE Conference featured key updates on research related to the development of vaccines against neglected diarrheal pathogens including Shigella, enterotoxigenic Escherichia coli (ETEC), Campylobacter, and Salmonella. The presentations and discussions highlighted the significant impact of these diarrheal pathogens, particularly on the health of infants and young children in low- and middle-income countries, reflecting the urgent need for the development and licensure of new enteric vaccines. Oral and poster presentations at the VASE Conference explored a range of topics, including: the global burden and clinical presentation of disease, epidemiology, and the impact of interventions; the assessment of the value of vaccines against enteric pathogens; preclinical evaluations of vaccine candidates and models of enteric diseases; vaccine candidates in clinical trials and human challenge models; host parameters and genomics that predict responses to infection and disease; the application of new omics technologies for characterization of emerging pathogens and host responses; novel adjuvants, vaccine delivery platforms, and immunization strategies; and strategies for combination/co-administered vaccines. The conference agenda also featured ten breakout workshop sessions on topics of importance to the enteric vaccine field, which are summarized separately. This article reviews key points and highlighted research presented in each of the plenary conference sessions and poster presentations at the 2022 VASE Conference., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

8. Genomic, transcriptomic, and phenotypic differences among archetype Shigella flexneri strains of serotypes 2a, 3a, and 6.

Author

Gabor CE, Hazen TH, Delaine-Elias BC, Rasko DA, and Barry EM

Subjects

Serogroup, Gene Expression Profiling, Vaccines, Combined, Shigella flexneri genetics, Genomics

Abstract

Importance: Given the genomic diversity between S. flexneri serotypes and the paucity of data to support serotype-specific phenotypic differences, we applied in silico and in vitro functional analyses of archetype strains of 2457T ( Sf 2a), J17B ( Sf 3a), and CH060 ( Sf 6). These archetype strains represent the three leading S. flexneri serotypes recommended for inclusion in multivalent vaccines. Characterizing the genomic and phenotypic variation among these clinically prevalent serotypes is an important step toward understanding serotype-specific host-pathogen interactions to optimize the efficacy of multivalent vaccines and therapeutics. This study underpins the importance for further large-scale serotype-targeted analyses., Competing Interests: The authors declare no conflict of interest.

Published

2023

9. The role of the minor colonization factor CS14 in adherence to intestinal cell models by geographically diverse ETEC isolates.

Author

Smith EM, Papadimas A, Gabor C, Cooney C, Wu T, Rasko D, and Barry EM

Subjects

Child, Humans, Child, Preschool, Diarrhea microbiology, Fimbriae Proteins genetics, Travel, Adhesins, Bacterial genetics, Antibodies, Enterotoxigenic Escherichia coli genetics, Escherichia coli Infections microbiology, Vaccines

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a primary causative agent of diarrhea in travelers and young children in low- to middle-income countries. ETEC adheres to small intestinal epithelia via colonization factors (CFs) and secretes heat-stable toxin and/or heat-labile toxin, causing dysregulated ion transport and water secretion. There are over 30 CFs identified, including major CFs associated with moderate-to-severe diarrhea (MSD) and minor CFs for which a role in pathogenesis is less clear. The Global Enteric Multicenter Study identified CS14, a class 5a fimbriae, as the only minor CF significantly associated with MSD and was recommended for inclusion in ETEC vaccines. Despite detection of CS14 in ETEC isolates, the sequence conservation of the CS14 operon, its role in adherence, and functional cross-reactivity to other class 5a fimbriae like CFA/I and CS4 are not understood. Sequence analysis determined that the CS14 operon is >99.9% identical among seven geographically diverse isolates with expanded sequence analysis demonstrating SNPs exclusively in the gene encoding the tip adhesin CsuD. Western blots and electron microscopy demonstrated that CS14 expression required the growth of isolates on CFA agar with the iron chelator deferoxamine mesylate. CS14 expression resulted in significantly increased adherence to cultured intestinal cells and human enteroids. Anti-CS14 antibodies and anti-CS4 antibodies, but not anti-CFA/I antibodies, inhibited the adherence of a subset of ETEC isolates, demonstrating CS14-specific inhibition with partial cross-reactivity within the class 5a fimbrial family. These data provide support for CS14 as an important fimbrial CF and its consideration as a vaccine antigen in future strategies. IMPORTANCE Enterotoxigenic Escherichia coli (ETEC) infection causes profuse watery diarrhea in adults and children in low- to middle-income countries and is a leading cause of traveler's diarrhea. Despite increased use of rehydration therapies, young children especially can suffer long-term effects including gastrointestinal dysfunction as well as stunting and malnutrition. As there is no licensed vaccine for ETEC, there remains a need to identify and understand specific antigens for inclusion in vaccine strategies. This study investigated one adhesin named CS14. This adhesin is expressed on the bacterial surface of ETEC isolates and was recently recognized for its significant association with diarrheal disease. We demonstrated that CS14 plays a role in bacterial adhesion to human target cells, a critical first step in the disease process, and that adherence could be blocked by CS14-specific antibodies. This work will significantly impact the ETEC field by supporting inclusion of CS14 as an antigen for ETEC vaccines., Competing Interests: The authors declare no conflict of interest.

Published

2023

10. The role of CFA/I in adherence and toxin delivery by ETEC expressing multiple colonization factors in the human enteroid model.

Author

Smith EM, Grassel CL, Papadimas A, Foulke-Abel J, and Barry EM

Subjects

Child, Child, Preschool, Diarrhea prevention & control, Enterotoxins genetics, Enterotoxins metabolism, Humans, Enterotoxigenic Escherichia coli genetics, Escherichia coli Infections prevention & control, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Fimbriae Proteins genetics, Fimbriae Proteins metabolism

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a primary causative agent of diarrhea in travelers and young children in low-to-middle-income countries (LMICs). ETEC adhere to intestinal epithelia via colonization factors (CFs) and secrete heat-stable toxin (ST) and/or heat-labile toxin (LT), causing dysregulated cellular ion transport and water secretion. ETEC isolates often harbor genes encoding more than one CF that are targets as vaccine antigens. CFA/I is a major CF that is associated with ETEC that causes moderate-to-severe diarrhea and plays an important role in pathogenesis. The Global Enteric Multicenter Study finding that 78% of CFA/I-expressing ETEC also encode the minor CF CS21 prompted investigation of the combined role of these two CFs. Western blots and electron microscopy demonstrated growth media-dependent and strain-dependent differences in CFA/I and CS21 expression. The critical role of CFA/I in adherence by ETEC strains expressing CFA/I and CS21 was demonstrated using the human enteroid model and a series of CFA/I- and CS21-specific mutants. Furthermore, only anti-CFA/I antibodies inhibited adherence by global ETEC isolates expressing CFA/I and CS21. Delivery of ST and resulting cGMP secretion was measured in supernatants from infected enteroid monolayers, and strain-specific ST delivery and time-dependent cGMP production was observed. Interestingly, cGMP levels were similar across wildtype and CF-deficient strains, reflecting a limitation of this static aerobic infection model. Despite adherence by ETEC and delivery of ST, the enteroid monolayer integrity was not disrupted, as shown by the lack of decrease in transepithelial electrical resistance and the lack of IL-8 cytokines produced during infection. Taken together, these data demonstrate that targeting CFA/I in global clinical CFA/I-CS21 strains is sufficient for adherence inhibition, supporting a vaccine strategy that focuses on blocking major CFs. In addition, the human enteroid model has significant utility for the study of ETEC pathogenesis and evaluation of vaccine-induced functional antibody responses., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

11. Pathogenomic analyses of Shigella isolates inform factors limiting shigellosis prevention and control across LMICs.

Author

Bengtsson RJ, Simpkin AJ, Pulford CV, Low R, Rasko DA, Rigden DJ, Hall N, Barry EM, Tennant SM, and Baker KS

Subjects

Child, Child, Preschool, Ciprofloxacin pharmacology, Ciprofloxacin therapeutic use, Drug Resistance, Bacterial, Dysentery, Bacillary drug therapy, Dysentery, Bacillary epidemiology, Evolution, Molecular, Genome, Bacterial, Global Health, Humans, Shigella classification, Shigella drug effects, Shigella sonnei pathogenicity, Whole Genome Sequencing, Developing Countries statistics & numerical data, Dysentery, Bacillary microbiology, Dysentery, Bacillary prevention & control, Shigella genetics, Shigella pathogenicity

Abstract

Shigella spp. are the leading bacterial cause of severe childhood diarrhoea in low- and middle-income countries (LMICs), are increasingly antimicrobial resistant and have no widely available licenced vaccine. We performed genomic analyses of 1,246 systematically collected shigellae sampled from seven countries in sub-Saharan Africa and South Asia as part of the Global Enteric Multicenter Study (GEMS) between 2007 and 2011, to inform control and identify factors that could limit the effectiveness of current approaches. Through contemporaneous comparison among major subgroups, we found that S. sonnei contributes ≥6-fold more disease than other Shigella species relative to its genomic diversity, and highlight existing diversity and adaptative capacity among S. flexneri that may generate vaccine escape variants in <6 months. Furthermore, we show convergent evolution of resistance against ciprofloxacin, the current WHO-recommended antimicrobial for the treatment of shigellosis, among Shigella isolates. This demonstrates the urgent need to integrate existing genomic diversity into vaccine and treatment plans for Shigella, providing a framework for the focused application of comparative genomics to guide vaccine development, and the optimization of control and prevention strategies for other pathogens relevant to public health policy considerations., (© 2022. The Author(s).)

Published

2022

12. The O-Ag Antibody Response to Francisella Is Distinct in Rodents and Higher Animals and Can Serve as a Correlate of Protection.

Author

Shoudy LE, Namjoshi P, Giordano G, Kumar S, Bowling JD, Gelhaus C, Barry EM, Hazlett AJ, Hazlett BA, Cooper KL, Pittman PR, Reed DS, and Hazlett KRO

Abstract

Identifying correlates of protection (COPs) for vaccines against lethal human (Hu) pathogens, such as Francisella tularensis ( Ft ), is problematic, as clinical trials are currently untenable and the relevance of various animal models can be controversial. Previously, Hu trials with the live vaccine strain (LVS) demonstrated ~80% vaccine efficacy against low dose (~50 CFU) challenge; however, protection deteriorated with higher challenge doses (~2000 CFU of SchuS4) and no COPs were established. Here, we describe our efforts to develop clinically relevant, humoral COPs applicable to high-dose, aerosol challenge with S4. First, our serosurvey of LVS-vaccinated Hu and animals revealed that rabbits (Rbs), but not rodents, recapitulate the Hu O-Ag dependent Ab response to Ft . Next, we assayed Rbs immunized with distinct S4-based vaccine candidates (S4Δ clpB , S4Δ guaBA , and S4Δ aroD ) and found that, across multiple vaccines, the %O-Ag dep Ab trended with vaccine efficacy. Among S4Δ guaBA -vaccinated Rbs, the %O-Ag dep Ab in pre-challenge plasma was significantly higher in survivors than in non-survivors; a cut-off of >70% O-Ag dep Ab predicted survival with high sensitivity and specificity. Finally, we found this COP in 80% of LVS-vaccinated Hu plasma samples as expected for a vaccine with 80% Hu efficacy. Collectively, the %O-Ag dep Ab response is a bona fide COP for S4Δ guaBA -vaccinated Rb and holds significant promise for guiding vaccine trials with higher animals.

Published

2021

13. Sequence variations in the ETEC CS6 operon affect transcript and protein expression.

Author

Moon J and Barry EM

Subjects

Diarrhea microbiology, Enterotoxins, Operon, Travel, Antigens, Bacterial genetics, Antigens, Bacterial metabolism, Enterotoxigenic Escherichia coli genetics, Escherichia coli Infections microbiology, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a leading cause of diarrheal disease in developing nations where it accounts for a significant disease burden in children between the ages of 0 to 59 months. It is also the number one bacterial causative agent of traveler's diarrhea. ETEC infects hosts through the fecal-oral route and utilizes colonization factors (CF) to adhere within the small intestine. Over 25 CFs have been identified; 7 are considered major CFs and a vaccine targeting these is predicted to provide protection against up to 66% of ETEC associated disease. Coli Surface Antigen 6 (CS6) is a major CF and is associated with disease-causing ETEC isolates. Analysis of the CS6 operon sequence led to the identification of two regions of variability among clinical isolates which we predicted exert effects on CS6 transcript and protein expression. A total of 7 recombinant E. coli strains were engineered to encode the CS6 operon in wild-type, hybrid, and mutant configurations. Western blot analysis and RT-qPCR provided evidence to support the importance of an intergenic hairpin structure on CS6 expression. Our results reveal the significance of CS6 sequence selection regarding ETEC vaccine development and present novel information regarding CS6 sequence variation in WT ETEC strains.

Published

2021

14. Evaluation of a Live Attenuated S. sonnei Vaccine Strain in the Human Enteroid Model.

Author

Pilla G, Wu T, Grassel C, Moon J, Foulke-Abel J, Tang CM, and Barry EM

Abstract

Shigella is a leading cause of bacillary dysentery worldwide, responsible for high death rates especially among children under five in low-middle income countries. Shigella sonnei prevails in high-income countries and is becoming prevalent in industrializing countries, where multi-drug resistant strains have emerged, as a significant public health concern. One strategy to combat drug resistance in S. sonnei is the development of effective vaccines. There is no licensed vaccine against Shigella, and development has been hindered by the lack of an effective small-animal model. In this work, we used human enteroids, for the first time, as a model system to evaluate a plasmid-stabilized S. sonnei live attenuated vaccine strain, CVD 1233-SP, and a multivalent derivative, CVD 1233-SP::CS2-CS3, which expresses antigens from enterotoxigenic Escherichia coli . The strains were also tested for immunogenicity and protective capacity in the guinea pig model, demonstrating their ability to elicit serum and mucosal antibody responses as well as protection against challenge with wild-type S. sonnei . These promising results highlight the utility of enteroids as an innovative preclinical model to evaluate Shigella vaccine candidates, constituting a significant advance for the development of preventative strategies against this important human pathogen.

Published

2021

15. Deletion Mutants of Francisella Phagosomal Transporters FptA and FptF Are Highly Attenuated for Virulence and Are Protective Against Lethal Intranasal Francisella LVS Challenge in a Murine Model of Respiratory Tularemia.

Author

Hobbs BE, Matson CA, Theofilou VI, Webb TJ, Younis RH, and Barry EM

Abstract

Francisella tularensis ( Ft ) is a Gram-negative, facultative intracellular bacterium that is a Tier 1 Select Agent of concern for biodefense for which there is no licensed vaccine. A subfamily of 9 Francisella phagosomal transporter ( fpt ) genes belonging to the Major Facilitator Superfamily of transporters was identified as critical to pathogenesis and potential targets for attenuation and vaccine development. We evaluated the attenuation and protective capacity of LVS derivatives with deletions of the fptA and fptF genes in the C57BL/6J mouse model of respiratory tularemia. LVSΔ fptA and LVSΔ fptF were highly attenuated with LD 50 values of >20 times that of LVS when administered intranasally and conferred 100% protection against lethal challenge. Immune responses to the fpt mutant strains in mouse lungs on day 6 post-infection were substantially modified compared to LVS and were associated with reduced organ burdens and reduced pathology. The immune responses to LVSΔ fptA and LVSΔf ptF were characterized by decreased levels of IL-10 and IL-1β in the BALF versus LVS, and increased numbers of B cells, αβ and γδ T cells, NK cells, and DCs versus LVS. These results support a fundamental requirement for FptA and FptF in the pathogenesis of Ft and the modulation of the host immune response.

Published

2021

16. Tick extracellular vesicles enable arthropod feeding and promote distinct outcomes of bacterial infection.

Author

Oliva Chávez AS, Wang X, Marnin L, Archer NK, Hammond HL, Carroll EEM, Shaw DK, Tully BG, Buskirk AD, Ford SL, Butler LR, Shahi P, Morozova K, Clement CC, Lawres L, Neal AJO, Mamoun CB, Mason KL, Hobbs BE, Scoles GA, Barry EM, Sonenshine DE, Pal U, Valenzuela JG, Sztein MB, Pasetti MF, Levin ML, Kotsyfakis M, Jay SM, Huntley JF, Miller LS, Santambrogio L, and Pedra JHF

Subjects

Anaplasma phagocytophilum pathogenicity, Animals, Arthropods metabolism, Arthropods microbiology, Arthropods physiology, Cell Line, Dermacentor metabolism, Dermacentor microbiology, Dermacentor physiology, Extracellular Vesicles ultrastructure, Francisella tularensis pathogenicity, Gene Ontology, Humans, Inflammation immunology, Inflammation metabolism, Inflammation parasitology, Intravital Microscopy, Ixodes metabolism, Ixodes microbiology, Ixodes physiology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Microscopy, Electron, Transmission, Proteomics, R-SNARE Proteins metabolism, Skin immunology, Skin microbiology, T-Lymphocytes metabolism, Tandem Mass Spectrometry, Vesicle-Associated Membrane Protein 2 metabolism, Bacterial Infections immunology, Bacterial Infections metabolism, Extracellular Vesicles metabolism, Skin parasitology, Ticks metabolism, Ticks microbiology

Abstract

Extracellular vesicles are thought to facilitate pathogen transmission from arthropods to humans and other animals. Here, we reveal that pathogen spreading from arthropods to the mammalian host is multifaceted. Extracellular vesicles from Ixodes scapularis enable tick feeding and promote infection of the mildly virulent rickettsial agent Anaplasma phagocytophilum through the SNARE proteins Vamp33 and Synaptobrevin 2 and dendritic epidermal T cells. However, extracellular vesicles from the tick Dermacentor andersoni mitigate microbial spreading caused by the lethal pathogen Francisella tularensis. Collectively, we establish that tick extracellular vesicles foster distinct outcomes of bacterial infection and assist in vector feeding by acting on skin immunity. Thus, the biology of arthropods should be taken into consideration when developing strategies to control vector-borne diseases.

Published

2021

17. Identification of an Attenuated Substrain of Francisella tularensis SCHU S4 by Phenotypic and Genotypic Analyses.

Author

Lovchik JA, Reed DS, Hutt JA, Xia F, Stevens RL, Modise T, Barry EM, and Wu TH

Abstract

Pneumonic tularemia is a highly debilitating and potentially fatal disease caused by inhalation of Francisella tularensis. Most of our current understanding of its pathogenesis is based on the highly virulent F. tularensis subsp. tularensis strain SCHU S4. However, multiple sources of SCHU S4 have been maintained and propagated independently over the years, potentially generating genetic variants with altered virulence. In this study, the virulence of four SCHU S4 stocks (NR-10492, NR-28534, NR-643 from BEI Resources and FTS-635 from Battelle Memorial Institute) along with another virulent subsp. tularensis strain, MA00-2987, were assessed in parallel. In the Fischer 344 rat model of pneumonic tularemia, NR-643 and FTS-635 were found to be highly attenuated compared to NR-10492, NR-28534, and MA00-2987. In the NZW rabbit model of pneumonic tularemia, NR-643 caused morbidity but not mortality even at a dose equivalent to 500x the LD 50 for NR-10492. Genetic analyses revealed that NR-10492 and NR-28534 were identical to each other, and nearly identical to the reference SCHU S4 sequence. NR-643 and FTS-635 were identical to each other but were found to have nine regions of difference in the genomic sequence when compared to the published reference SCHU S4 sequence. Given the genetic differences and decreased virulence, NR-643/FTS-635 should be clearly designated as a separate SCHU S4 substrain and no longer utilized in efficacy studies to evaluate potential vaccines and therapeutics against tularemia.

Published

2021

18. Anti-CfaE nanobodies provide broad cross-protection against major pathogenic enterotoxigenic Escherichia coli strains, with implications for vaccine design.

Author

Amcheslavsky A, Wallace AL, Ejemel M, Li Q, McMahon CT, Stoppato M, Giuntini S, Schiller ZA, Pondish JR, Toomey JR, Schneider RM, Meisinger J, Heukers R, Kruse AC, Barry EM, Pierce BG, Klempner MS, Cavacini LA, and Wang Y

Subjects

Animals, Antibodies, Bacterial administration & dosage, Antibodies, Bacterial immunology, Antibodies, Neutralizing administration & dosage, Antibodies, Neutralizing immunology, Caco-2 Cells, Camelids, New World, Cross Protection, Diarrhea immunology, Diarrhea microbiology, Disease Models, Animal, Drug Design, Epitope Mapping, Epitopes immunology, Escherichia coli Infections immunology, Escherichia coli Proteins antagonists & inhibitors, Escherichia coli Proteins immunology, Escherichia coli Vaccines immunology, Fimbriae Proteins antagonists & inhibitors, Fimbriae Proteins immunology, Humans, Immunoconjugates administration & dosage, Immunoconjugates immunology, Male, Mice, Single-Domain Antibodies immunology, Diarrhea prevention & control, Enterotoxigenic Escherichia coli immunology, Escherichia coli Infections prevention & control, Escherichia coli Vaccines administration & dosage, Single-Domain Antibodies administration & dosage

Abstract

Enterotoxigenic Escherichia coli (ETEC) is estimated to cause approximately 380,000 deaths annually during sporadic or epidemic outbreaks worldwide. Development of vaccines against ETEC is very challenging due to the vast heterogeneity of the ETEC strains. An effective vaccines would have to be multicomponent to provide coverage of over ten ETEC strains with genetic variabilities. There is currently no vaccine licensed to prevent ETEC. Nanobodies are successful new biologics in treating mucosal infectious disease as they recognize conserved epitopes on hypervariable pathogens. Cocktails consisting of multiple nanobodies could provide even broader epitope coverage at a lower cost compared to monoclonal antibodies. Identification of conserved epitopes by nanobodies can also assist reverse engineering of an effective vaccine against ETEC. By screening nanobodies from immunized llamas and a naïve yeast display library against adhesins of colonization factors, we identified single nanobodies that show cross-protective potency against eleven major pathogenic ETEC strains in vitro. Oral administration of nanobodies led to a significant reduction of bacterial colonization in animals. Moreover, nanobody-IgA fusion showed extended inhibitory activity in mouse colonization compared to commercial hyperimmune bovine colostrum product used for prevention of ETEC-induced diarrhea. Structural analysis revealed that nanobodies recognized a highly-conserved epitope within the putative receptor binding region of ETEC adhesins. Our findings support further rational design of a pan-ETEC vaccine to elicit robust immune responses targeting this conserved epitope.

Published

2021

19. Characterization of Schu S4 aro mutants as live attenuated tularemia vaccine candidates.

Author

Cunningham AL, Mann BJ, Qin A, Santiago AE, Grassel C, Lipsky M, Vogel SN, and Barry EM

Subjects

Animals, Bacterial Vaccines administration & dosage, Disease Models, Animal, Female, Gene Deletion, Macrophages microbiology, Mice, Mice, Inbred C57BL, Vaccines, Attenuated immunology, Virulence, Antibodies, Bacterial blood, Bacterial Vaccines immunology, Cytokines immunology, Francisella tularensis genetics, Francisella tularensis immunology, Macrophages immunology

Abstract

There is a need for development of an effective vaccine against Francisella tularensis , as this potential bioweapon has a high mortality rate and low infectious dose when delivered via the aerosol route. Moreover, this Tier 1 agent has a history of weaponization. We engineered targeted mutations in the Type A strain F. tularensis subspecies tularensis Schu S4 in aro genes encoding critical enzymes in aromatic amino acid biosynthesis. F. tularensis Schu S4 ΔaroC , Schu S4Δ aroD , and Schu S4Δ aroC Δ aroD mutant strains were attenuated for intracellular growth in vitro and for virulence in vivo and, conferred protection against pulmonary wild-type (WT) F. tularensis Schu S4 challenge in the C57BL/6 mouse model. F. tularensis Schu S4Δ aroD was identified as the most promising vaccine candidate, demonstrating protection against high-dose intranasal challenge; it protected against 1,000 CFU Schu S4, the highest level of protection tested to date. It also provided complete protection against challenge with 92 CFU of a F. tularensis subspecies holarctica strain (Type B). Mice responded to vaccination with Schu S4Δ aroD with systemic IgM and IgG2c, as well as the production of a functional T cell response as measured in the splenocyte-macrophage co-culture assay. This vaccine was further characterized for dissemination, histopathology, and cytokine/chemokine gene induction at defined time points following intranasal vaccination which confirmed its attenuation compared to WT Schu S4. Cytokine, chemokine, and antibody induction patterns compared to wild-type Schu S4 distinguish protective vs . pathogenic responses to F. tularensis and elucidate correlates of protection associated with vaccination against this agent.

Published

2020

20. Research in a time of enteroids and organoids: how the human gut model has transformed the study of enteric bacterial pathogens.

Author

Ranganathan S, Smith EM, Foulke-Abel JD, and Barry EM

Subjects

Bacteria classification, Gastrointestinal Diseases microbiology, Gastrointestinal Diseases pathology, Gastrointestinal Tract cytology, Host-Pathogen Interactions, Humans, Organoids cytology, Bacteria pathogenicity, Gastrointestinal Tract microbiology, Models, Biological, Organoids microbiology

Abstract

Enteric bacterial pathogens cause significant morbidity and mortality globally. Studies in tissue culture and animal models shaped our initial understanding of these host-pathogen interactions. However, intrinsic shortcomings in these models limit their application, especially in translational applications like drug screening and vaccine development. Human intestinal enteroid and organoid models overcome some limitations of existing models and advance the study of enteric pathogens. In this review, we detail the use of human enteroids and organoids to investigate the pathogenesis of invasive bacteria Shigella, Listeria , and Salmonella , and noninvasive bacteria pathogenic Escherichia coli, Clostridium difficile , and Vibrio cholerae . We highlight how these studies confirm previously identified mechanisms and, importantly, reveal novel ones. We also discuss the challenges for model advancement, including platform engineering to integrate environmental conditions, innate immune cells and the resident microbiome, and the potential for pre-clinical testing of recently developed antimicrobial drugs and vaccines.

Published

2020

21. A bivalent vaccine confers immunogenicity and protection against Shigella flexneri and enterotoxigenic Escherichia coli infections in mice.

Author

Medeiros PHQS, Bolick DT, Ledwaba SE, Kolling GL, Costa DVS, Oriá RB, Lima AÂM, Barry EM, and Guerrant RL

Abstract

Vaccine studies for Shigella flexneri and enterotoxigenic Escherichia coli have been impaired by the lack of optimal animal models. We used two murine models to show that a S. flexneri 2a bivalent vaccine (CVD 1208S-122) expressing enterotoxigenic Escherichia coli colonization factor antigen-I (CFA/I) and the binding subunits A2 and B of heat labile-enterotoxin (LTb) is immunogenic and protects against weight loss and diarrhea. These findings document the immunogenicity and pre-clinical efficacy effects of CVD 1208S-122 vaccine and suggest that further work can help elucidate relevant immune responses and ultimately its clinical efficacy in humans., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2020.)

Published

2020

22. A tale of two bacterial enteropathogens and one multivalent vaccine.

Author

Barry EM and Levine MM

Subjects

Diarrhea microbiology, Dysentery, Bacillary metabolism, Dysentery, Bacillary pathology, Enterotoxigenic Escherichia coli genetics, Enterotoxigenic Escherichia coli pathogenicity, Escherichia coli Infections metabolism, Escherichia coli Infections pathology, Host Microbial Interactions, Humans, Phylogeny, Shigella genetics, Shigella pathogenicity, Shigella ultrastructure, Enterotoxigenic Escherichia coli immunology, Escherichia coli Infections immunology, Escherichia coli Vaccines immunology, Shigella immunology, Shigella Vaccines immunology

Abstract

Shigella and enterotoxigenic Escherichia coli (ETEC) are among the top four enteric pathogens that cause diarrheal illness in young children in developing countries and are major etiologic agents of travellers' diarrhoea. A single vaccine that could target both of these pathogens would have significant public health impact. In this review, we highlight the many pivotal contributions of Phillippe Sansonetti to the identification of molecular mechanisms of pathogenesis of Shigella that paved the way for the development of rationally designed, novel vaccines candidates. The CVD developed a series of live attenuated Shigella vaccine strains based on the most prevalent serotypes associated with disease. Shigella vaccine strains were engineered to express critical ETEC antigens to form a broadly protective Shigella-ETEC multivalent vaccine., (© 2019 John Wiley & Sons Ltd.)

Published

2019

23. Development, Characterization, and Standardization of a Nose-Only Inhalation Exposure System for Exposure of Rabbits to Small-Particle Aerosols Containing Francisella tularensis.

Author

O'Malley KJ, Bowling JD, Barry EM, Hazlett KRO, and Reed DS

Subjects

Aerosols, Animals, Bacterial Vaccines immunology, Depsipeptides, Female, Francisella tularensis immunology, Inhalation Exposure, Male, Particle Size, Rabbits, Reproducibility of Results, Tularemia mortality, Tularemia physiopathology, Vaccination, Disease Models, Animal, Tularemia etiology

Abstract

Inhalation of Francisella tularensis causes pneumonic tularemia in humans, a severe disease with a 30 to 60% mortality rate. The reproducible delivery of aerosolized virulent bacteria in relevant animal models is essential for evaluating medical countermeasures. Here we developed optimized protocols for infecting New Zealand White (NZW) rabbits with aerosols containing F. tularensis We evaluated the relative humidity, aerosol exposure technique, and bacterial culture conditions to optimize the spray factor (SF), a central metric of aerosolization. This optimization reduced both inter- and intraday variability and was applicable to multiple isolates of F. tularensis Further improvements in the accuracy and precision of the inhaled pathogen dose were achieved through enhanced correlation of the bacterial culture optical density and the number of CFU. Plethysmograph data collected during exposures found that respiratory function varied considerably between rabbits, was not a function of weight, and did not improve with acclimation to the system. Live vaccine strain (LVS)-vaccinated rabbits were challenged via aerosol with human-virulent F. tularensis SCHU S4 that had been cultivated in either Mueller-Hinton broth (MHB) or brain heart infusion (BHI) broth. LVS-vaccinated animals challenged with SCHU S4 that had been cultivated in MHB experienced short febrile periods (median, 3.2 days), limited weight loss (<5%), and longer median survival times (∼18 days) that were significantly different from those for unvaccinated controls. In contrast, LVS-vaccinated rabbits challenged with SCHU S4 that had been cultivated in BHI experienced longer febrile periods (median, 5.5 days) and greater weight loss (>10%) than the unvaccinated controls and median survival times that were not significantly different from those for the unvaccinated controls. These studies highlight the importance of careful characterization and optimization of protocols for aerosol challenge with pathogenic agents., (Copyright © 2019 American Society for Microbiology.)

Published

2019

24. Experimental Infection of Human Volunteers with the Heat-Stable Enterotoxin-Producing Enterotoxigenic Escherichia coli Strain TW11681.

Author

Todnem Sakkestad S, Steinsland H, Skrede S, Kleppa E, Lillebø K, Sævik M, Søyland H, Rykkje Heien A, Gjerde Tellevik M, Barry EM, Sommerfelt H, and Hanevik K

Abstract

Infection with enterotoxigenic Escherichia coli (ETEC) producing the heat-stable enterotoxin (ST) is one of the most important causes of childhood diarrhoea in low- and middle-income countries. Here, we undertook a controlled human infection model (CHIM) study to investigate whether ST-producing ETEC strain TW11681 would be suitable for testing the protective efficacy of new ST-based vaccine candidates in vaccine challenge models. In groups of three, nine volunteers ingested 1 × 10 6 , 1 × 10 7 , or 1 × 10 8 colony-forming units (CFU) of TW11681. Flow cytometry-based assays were used to measure CD4+ T cell responses and antibody levels targeting virulence factors expressed by the strain. We found that infection with TW11681 elicited few and mild symptoms, including mild diarrhoea in two volunteers, both of whom ingested 1 × 10 6 CFU. Averaged across all volunteers, the CD4+ T cell responses specific for E. coli YghJ mucinase peaked 10 days after infection (3.2-fold (p = 0.016)), while the CD4+ T cell responses specific for Colonization Factor Antigen I (CFA/I) major fimbrial subunit (CfaB) peaked after 28 days (3.6-fold (p = 0.063)). The serum CfaB-specific anti-IgA and anti-IgG/IgM levels were significantly increased and peaked 3 months after infection. Both remained elevated for the duration of the 12-month follow-up. The corresponding anti-YghJ serological response was strongest after 10 days, although a significant increase was seen only for IgA levels (3.2-fold (p = 0.008)). In conclusion, due to its low diarrhoea attack risk, TW11681 is probably not suitable for testing the efficacy of new vaccines in human challenge studies at doses 1 × 10 6 to 1 × 10 8 . However, the strain may still be useful in CHIMs for studying ETEC host-pathogen interactions.

Published

2019

25. Evaluating Shigella flexneri Pathogenesis in the Human Enteroid Model.

Author

Ranganathan S, Doucet M, Grassel CL, Delaine-Elias B, Zachos NC, and Barry EM

Subjects

Cells, Cultured, Humans, Intestines microbiology, Models, Biological, Organoids growth & development, Organoids metabolism, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Shigella flexneri genetics, Shigella flexneri growth & development, Shigella flexneri pathogenicity, Stem Cells cytology, Stem Cells metabolism, Virulence, Dysentery, Bacillary microbiology, Intestines cytology, Organoids microbiology, Shigella flexneri physiology

Abstract

The enteric pathogen Shigella is one of the leading causes of moderate-to-severe diarrhea and death in young children in developing countries. Transformed cell lines and animal models have been widely used to study Shigella pathogenesis. In addition to altered physiology, transformed cell lines are composed of a single cell type that does not sufficiently represent the complex multicellular environment of the human colon. Most available animal models do not accurately mimic human disease. The human intestinal enteroid model, derived from LGR5 + stem cell-containing intestinal crypts from healthy subjects, represents a technological leap in human gastrointestinal system modeling and provides a more physiologically relevant system that includes multiple cell types and features of the human intestine. We established the utility of this model for studying basic aspects of Shigella pathogenesis and host responses. In this study, we show that Shigella flexneri is capable of infecting and replicating intracellularly in human enteroids derived from different segments of the intestine. Apical invasion by S. flexneri is very limited but increases ∼10-fold when enteroids are differentiated to include M cells. Invasion via the basolateral surface was at least 2-log 10 units more efficient than apical infection. Increased secretion of interleukin-8 and higher expression levels of the mucin glycoprotein Muc2 were observed in the enteroids following S. flexneri infection. The human enteroid model promises to bridge some of the gaps between traditional cell culture, animal models, and human infection., (Copyright © 2019 Ranganathan et al.)

Published

2019

26. Genome and Functional Characterization of Colonization Factor Antigen I- and CS6-Encoding Heat-Stable Enterotoxin-Only Enterotoxigenic Escherichia coli Reveals Lineage and Geographic Variation.

Author

Hazen TH, Nagaraj S, Sen S, Permala-Booth J, Del Canto F, Vidal R, Barry EM, Bitoun JP, Chen WH, Tennant SM, and Rasko DA

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a significant cause of childhood diarrhea and is a leading cause of traveler's diarrhea. ETEC strains encoding the heat-stable enterotoxin (ST) are more often associated with childhood diarrhea than ETEC strains that encode only the heat-labile enterotoxin (LT). Colonization factors (CFs) also have a demonstrated role in ETEC virulence, and two of the most prevalent CFs among ETEC that have caused diarrhea are colonization factor antigen I (CFA/I) and CS6. In the current report, we describe the genomes of 269 CS6- or CFA/I-encoding ST-only ETEC isolates that were associated with human diarrhea. While the CS6 and CFA/I ETEC were identified in at least 13 different ETEC genomic lineages, a majority (85%; 229/269) were identified in only six lineages. Complete genome sequencing of selected isolates demonstrated that a conserved plasmid contributed to the dissemination of CFA/I whereas at least five distinct plasmids were involved in the dissemination of ST and/or CS6. Additionally, there were differences in gene content between CFA/I and CS6 ETEC at the phylogroup and lineage levels and in association with their geographic location of isolation as well as lineage-related differences in ST production. Thus, we demonstrate that genomically diverse E. coli strains have acquired ST, as well as CFA/I or CS6, via one or more plasmids and that, in some cases, isolates of a particular lineage or geographic location have undergone additional modifications to their genome content. These findings will aid investigations of virulence and the development of improved diagnostics and vaccines against this important human diarrheal pathogen. IMPORTANCE Comparative genomics and functional characterization were used to analyze a global collection of CFA/I and CS6 ST-only ETEC isolates associated with human diarrhea, demonstrating differences in the genomic content of CFA/I and CS6 isolates related to CF type, lineage, and geographic location of isolation and also lineage-related differences in ST production. Complete genome sequencing of selected CFA/I and CS6 isolates enabled descriptions of a highly conserved ST-positive (ST + ) CFA/I plasmid and of at least five diverse ST and/or CS6 plasmids among the CS6 ETEC isolates. There is currently no approved vaccine for ST-only ETEC, or for any ETEC for that matter, and as such, the current report provides functional verification of ST and CF production and antimicrobial susceptibility testing and an in-depth genomic characterization of a collection of isolates that could serve as representatives of CFA/I- or CS6-encoding ST-only ETEC strains for future studies of ETEC pathogenesis, vaccine studies, and/or clinical trials.

Published

2019

27. A roadmap for enterotoxigenic Escherichia coli vaccine development based on volunteer challenge studies.

Author

Levine MM, Barry EM, and Chen WH

Subjects

Antibodies, Bacterial immunology, Drug Development history, Drug Development trends, Escherichia coli Proteins immunology, Escherichia coli Vaccines immunology, History, 20th Century, Human Experimentation history, Humans, Travel, Virulence, Diarrhea prevention & control, Enterotoxigenic Escherichia coli immunology, Escherichia coli Infections prevention & control, Escherichia coli Vaccines administration & dosage, Human Experimentation statistics & numerical data, Volunteers

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a major cause of travelers' diarrhea and of diarrhea among young children in developing countries. Experimental challenge studies in adult volunteers have played a pivotal role in establishing ETEC as an enteric pathogen, elucidating its pathogenesis by identifying specific virulence attributes, characterizing the human immune response to clinical and sub-clinical ETEC infection and assessing preliminarily the clinical acceptability, immunogenicity and efficacy of prototype ETEC vaccines. This review provides a historical perspective of experimental challenge studies with ETEC. It summarizes pioneering early studies carried out by investigators at the University of Maryland School of Medicine to show how those studies provided key information that influenced the directions taken by many research groups to develop vaccines to prevent ETEC. In addition, key experimental challenge studies undertaken at other institutions will also be cited.

Published

2019

28. A murine model of diarrhea, growth impairment and metabolic disturbances with Shigella flexneri infection and the role of zinc deficiency.

Author

Q S Medeiros PH, Ledwaba SE, Bolick DT, Giallourou N, Yum LK, Costa DVS, Oriá RB, Barry EM, Swann JR, Lima AÂM, Agaisse H, and Guerrant RL

Subjects

Animals, Anti-Bacterial Agents administration & dosage, Body Weight, Colon metabolism, Colon microbiology, Colon pathology, Diarrhea drug therapy, Diarrhea metabolism, Diarrhea microbiology, Dysentery, Bacillary drug therapy, Dysentery, Bacillary metabolism, Dysentery, Bacillary microbiology, Feces enzymology, Feces microbiology, Intestinal Mucosa microbiology, Intestinal Mucosa pathology, Metabolome, Mice, Inbred C57BL, Mutation, Shigella flexneri genetics, Shigella flexneri growth & development, Type III Secretion Systems genetics, Diarrhea pathology, Disease Models, Animal, Dysentery, Bacillary pathology, Shigella flexneri pathogenicity, Zinc deficiency

Abstract

Shigella is one of the major enteric pathogens worldwide. We present a murine model of S. flexneri infection and investigate the role of zinc deficiency (ZD). C57BL/6 mice fed either standard chow (HC) or ZD diets were pretreated with an antibiotic cocktail and received S. flexneri strain 2457T orally. Antibiotic pre-treated ZD mice showed higher S. flexneri colonization than non-treated mice. ZD mice showed persistent colonization for at least 50 days post-infection (pi). S. flexneri -infected mice showed significant weight loss, diarrhea and increased levels of fecal MPO and LCN in both HC and ZD fed mice. S. flexneri preferentially colonized the colon, caused epithelial disruption and inflammatory cell infiltrate, and promoted cytokine production which correlated with weight loss and histopathological changes. Infection with S. flexneri ΔmxiG (critical for type 3 secretion system) did not cause weight loss or diarrhea, and had decreased stool shedding duration and tissue burden. Several biochemical changes related to energy, inflammation and gut-microbial metabolism were observed. Zinc supplementation increased weight gains and reduced intestinal inflammation and stool shedding in ZD infected mice. In conclusion, young antibiotic-treated mice provide a new model of oral S. flexneri infection, with ZD promoting prolonged infection outcomes.

Published

2019

29. Correction for Giuntini et al., "Identification and Characterization of Human Monoclonal Antibodies for Immunoprophylaxis against Enterotoxigenic Escherichia coli Infection".

Author

Giuntini S, Stoppato M, Sedic M, Ejemel M, Pondish JR, Wisheart D, Schiller ZA, Thomas WD Jr, Barry EM, Cavacini LA, Klempner MS, and Wang Y

Published

2018

30. White and infrared light continuous photobioreactors for resource recovery from poultry processing wastewater - A comparison.

Author

Hülsen T, Hsieh K, Tait S, Barry EM, Puyol D, and Batstone DJ

Subjects

Animals, Biological Oxygen Demand Analysis, Bioreactors, Poultry, Waste Disposal, Fluid, Photobioreactors, Wastewater

Abstract

Concentrated wastewaters from agricultural industries represent a key opportunity for the upcycling of organics, nitrogen and phosphorus to higher value products such as microbial protein. Phototrophic or photosynthetic microbes very effectively capture input organics and nutrients as microbial protein. This study compares purple phototrophic bacteria (PPB) and microalgae (photosynthesis) for this purpose, treating real, high strength poultry processing wastewater in continuous photo bioreactors utilising infrared (IR) and white light (WL) respectively. Both reactors could effectively treat the wastewaters, and at similar loading rates (4 kgCOD m -3 d -1 ). The infrared reactor (IRR) was irradiated at 18 W m -2 and the white light reactor (WLR) reactor at 1.5-2 times this. The IRR could remove up to 90% total chemical oxygen demand (TCOD), 90% total nitrogen (TN) and 45% total phosphorus (TP) at 1.0 d hydraulic retention time (HRT) and recover around 190 kg of crude protein per tonne of influent COD at 7.0 kWh per dry tonne -1 light input, with PPB dominating all samples. In comparison, the WLR removed up to 98% COD, 94% TN and 44% TP at 43-90% higher irradiance compared to the PPB reactor. Microalgae did not dominate the WLR and the community was instead a mix of microbes (algae, bacteria, zooplankton and detritus - ALBAZOD) with a production of approximately 140 kg crude protein per tonne influent COD., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

31. Aerosol prime-boost vaccination provides strong protection in outbred rabbits against virulent type A Francisella tularensis.

Author

O'Malley KJ, Bowling JD, Stinson E, Cole KS, Mann BJ, Namjoshi P, Hazlett KRO, Barry EM, and Reed DS

Subjects

Animals, Animals, Outbred Strains, Antibodies, Bacterial blood, Blood Sedimentation, Dose-Response Relationship, Immunologic, Immunoglobulin G blood, Rabbits, Survival Analysis, Tularemia blood, Tularemia microbiology, Virulence, Weight Loss, Aerosols therapeutic use, Bacterial Vaccines immunology, Francisella tularensis pathogenicity, Immunization, Secondary, Tularemia immunology, Tularemia prevention & control, Vaccination

Abstract

Tularemia, also known as rabbit fever, is a severe zoonotic disease in humans caused by the gram-negative bacterium Francisella tularensis (Ft). While there have been a number of attempts to develop a vaccine for Ft, few candidates have advanced beyond experiments in inbred mice. We report here that a prime-boost strategy with aerosol delivery of recombinant live attenuated candidate Ft S4ΔaroD offers significant protection (83% survival) in an outbred animal model, New Zealand White rabbits, against aerosol challenge with 248 cfu (11 LD50) of virulent type A Ft SCHU S4. Surviving rabbits given two doses of the attenuated strains by aerosol did not exhibit substantial post-challenge fevers, changes in erythrocyte sedimentation rate or in complete blood counts. At a higher challenge dose (3,186 cfu; 139 LD50), protection was still good with 66% of S4ΔaroD-vaccinated rabbits surviving while 50% of S4ΔguaBA vaccinated rabbits also survived challenge. Pre-challenge plasma IgG titers against Ft SCHU S4 corresponded with survival time after challenge. Western blot analysis found that plasma antibody shifted from predominantly targeting Ft O-antigen after the prime vaccination to other antigens after the boost. These results demonstrate the superior protection conferred by a live attenuated derivative of virulent F. tularensis, particularly when given in an aerosol prime-boost regimen., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

32. A Novel Shigella Proteome Microarray Discriminates Targets of Human Antibody Reactivity following Oral Vaccination and Experimental Challenge.

Author

Ndungo E, Randall A, Hazen TH, Kania DA, Trappl-Kimmons K, Liang X, Barry EM, Kotloff KL, Chakraborty S, Mani S, Rasko DA, and Pasetti MF

Subjects

Administration, Oral, Humans, Microarray Analysis, Shigella chemistry, Shigella Vaccines administration & dosage, Vaccines, Inactivated administration & dosage, Vaccines, Inactivated immunology, Antibodies, Bacterial blood, Antigens, Bacterial analysis, Dysentery, Bacillary immunology, Protein Array Analysis, Proteome analysis, Shigella immunology, Shigella Vaccines immunology

Abstract

Shigella spp. are a major cause of diarrhea and dysentery in children under 5 years old in the developing world. The development of an effective vaccine remains a public health priority, necessitating improved understanding of immune responses to Shigella and identification of protective antigens. We report the development of a core Shigella proteome microarray consisting of 2,133 antigen targets common to all Shigella species. We evaluated the microarray with serum samples from volunteers immunized with either an inactivated whole-cell S. flexneri serotype 2a (Sf2aWC) vaccine or a live attenuated S. flexneri 2a vaccine strain (CVD 1204) or challenged with wild-type S. flexneri 2a (Sf2a challenge). Baseline reactivities to most antigens were detected postintervention in all three groups. Similar immune profiles were observed after CVD 1204 vaccination and Sf2a challenge. Antigens with the largest increases in mean reactivity postintervention were members of the type three secretion system (T3SS), some of which are regarded as promising vaccine targets: these are the invasion plasmid antigens (Ipas) IpaB, IpaC, and IpaD. In addition, new immunogenic targets (IpaA, IpaH, and SepA) were identified. Importantly, immunoreactivities to antigens in the microarray correlated well with antibody titers determined by enzyme-linked immunosorbent assay (ELISA), validating the use of the microarray platform. Finally, our analysis uncovered an immune signature consisting of three conserved proteins (IpaA, IpaB, and IpaC) that was predictive of protection against shigellosis. In conclusion, the Shigella proteome microarray is a robust platform for interrogating serological reactivity to multiple antigens at once and identifying novel targets for the development of broadly protective vaccines. IMPORTANCE Each year, more than 180 million cases of severe diarrhea caused by Shigella occur globally. Those affected (mostly children in poor regions) experience long-term sequelae that severely impair quality of life. Without a licensed vaccine, the burden of disease represents a daunting challenge. An improved understanding of immune responses to Shigella is necessary to support ongoing efforts to identify a safe and effective vaccine. We developed a microarray containing >2,000 proteins common to all Shigella species. Using sera from human adults who received a killed whole-cell or live attenuated vaccine or were experimentally challenged with virulent organisms, we identified new immune-reactive antigens and defined a T3SS protein signature associated with clinical protection., (Copyright © 2018 Ndungo et al.)

Published

2018

33. Identification and Characterization of Human Monoclonal Antibodies for Immunoprophylaxis against Enterotoxigenic Escherichia coli Infection.

Author

Giuntini S, Stoppato M, Sedic M, Ejemel M, Pondish JR, Wisheart D, Schiller ZA, Thomas WD Jr, Barry EM, Cavacini LA, Klempner MS, and Wang Y

Subjects

Animals, Humans, Mice, Antibodies, Monoclonal blood, Antibodies, Monoclonal genetics, Enterotoxigenic Escherichia coli genetics, Enterotoxigenic Escherichia coli immunology, Escherichia coli Infections immunology, Escherichia coli Infections prevention & control, Escherichia coli Vaccines immunology

Abstract

Enterotoxigenic Escherichia coli (ETEC) causes diarrheal illness in infants in the developing world and travelers to countries where the disease is endemic, including military personnel. ETEC infection of the host involves colonization of the small intestinal epithelium and toxin secretion, leading to watery diarrhea. There is currently no vaccine licensed to prevent ETEC infection. CFA/I is one of the most common colonization factor antigens (CFAs). The CFA/I adhesin subunit, CfaE, is required for ETEC adhesion to host intestinal cells. Human antibodies against CfaE have the potential to block colonization of ETEC and serve as an immunoprophylactic against ETEC-related diarrhea. Mice transgenic for human immunoglobulin genes were immunized with CfaE to generate a panel of human monoclonal IgG1 antibodies (HuMAbs). The most potent IgG1 antibodies identified in the in vitro functional assays were selected and isotype switched to secretory IgA (sIgA) and tested in animal colonization assays via oral administration. Over 300 unique anti-CfaE IgG1 HuMAbs were identified. The lead IgG1 anti-CfaE HuMAbs completely inhibited hemagglutination and blocked adhesion of ETEC to Caco-2 cells. Epitope mapping studies revealed that HuMAbs recognized epitopes in the N-terminal domain of CfaE near the putative receptor binding site. Oral administration of anti-CfaE antibodies in either IgG or sIgA isotypes inhibited intestinal colonization in mice challenged with ETEC. A 2- to 4-log decrease in CFU was observed in comparison to mice challenged with irrelevant isotype controls. We identified fully human monoclonal antibodies against the CfaE adhesion domain that can be potentially employed as an immunoprophylactic to prevent ETEC-related diarrhea., (Copyright © 2018 Giuntini et al.)

Published

2018

34. Critical Role of Zinc in a New Murine Model of Enterotoxigenic Escherichia coli Diarrhea.

Author

Bolick DT, Medeiros PHQS, Ledwaba SE, Lima AAM, Nataro JP, Barry EM, and Guerrant RL

Subjects

Animals, Diarrhea microbiology, Disease Models, Animal, Mice, Mice, Inbred C57BL, Bacterial Toxins metabolism, Diarrhea physiopathology, Enterotoxigenic Escherichia coli metabolism, Escherichia coli Infections physiopathology, Zinc metabolism

Abstract

Enterotoxigenic Escherichia coli (ETEC) is a major cause of traveler's diarrhea as well as of endemic diarrhea and stunting in children in developing areas. However, a small-mammal model has been badly needed to better understand and assess mechanisms, vaccines, and interventions. We report a murine model of ETEC diarrhea, weight loss, and enteropathy and investigate the role of zinc in the outcomes. ETEC strains producing heat-labile toxins (LT) and heat-stable toxins (ST) that were given to weaned C57BL/6 mice after antibiotic disruption of normal microbiota caused growth impairment, watery diarrhea, heavy stool shedding, and mild to moderate intestinal inflammation, the latter being worse with zinc deficiency. Zinc treatment promoted growth in zinc-deficient infected mice, and subinhibitory levels of zinc reduced expression of ETEC virulence genes cfa1 , cexE , sta2 , and degP but not of eltA in vitro Zinc supplementation increased shedding and the ileal burden of wild-type (WT) ETEC but decreased shedding and the tissue burden of LT knockout (LTKO) ETEC. LTKO ETEC-infected mice had delayed disease onset and also had less inflammation by fecal myeloperoxidase (MPO) assessment. These findings provide a new murine model of ETEC infection that can help elucidate mechanisms of growth, diarrhea, and inflammatory responses as well as potential vaccines and interventions., (Copyright © 2018 Bolick et al.)

Published

2018

35. Deletion of the Major Facilitator Superfamily Transporter fptB Alters Host Cell Interactions and Attenuates Virulence of Type A Francisella tularensis.

Author

Balzano PM, Cunningham AL, Grassel C, and Barry EM

Subjects

Animals, Bacterial Proteins metabolism, Female, Francisella tularensis metabolism, Gene Deletion, Humans, Male, Membrane Transport Proteins metabolism, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Multigene Family, Sequence Deletion, Virulence, Bacterial Proteins genetics, Francisella tularensis genetics, Francisella tularensis pathogenicity, Host-Pathogen Interactions, Membrane Transport Proteins genetics, Tularemia microbiology

Abstract

Francisella tularensis is a Gram-negative, facultative, intracellular coccobacillus that can infect a wide variety of hosts. In humans, F. tularensis causes the zoonosis tularemia following insect bites, ingestion, inhalation, and the handling of infected animals. The fact that a very small inoculum delivered by the aerosol route can cause severe disease, coupled with the possibility of its use as an aerosolized bioweapon, has led to the classification of Francisella tularensis as a category A select agent and has renewed interest in the formulation of a vaccine. To this end, we engineered a type A strain SchuS4 derivative containing a targeted deletion of the major facilitator superfamily (MFS) transporter fptB Based on the attenuating capacity of this deletion in the F. tularensis LVS background, we hypothesized that the deletion of this transporter would alter the intracellular replication and cytokine induction of the type A strain and attenuate virulence in the stringent C57BL/6J mouse model. Here we demonstrate that the deletion of fptB significantly alters the intracellular life cycle of F. tularensis , attenuating intracellular replication in both cell line-derived and primary macrophages and inducing a novel cytosolic escape delay. Additionally, we observed prominent differences in the in vitro cytokine profiles in human macrophage-like cells. The mutant was highly attenuated in the C57BL/6J mouse model and provided partial protection against virulent type A F. tularensis challenge. These results indicate a fundamental necessity for this nutrient transporter in the timely progression of F. tularensis through its replication cycle and in pathogenesis., (Copyright © 2018 Balzano et al.)

Published

2018

36. Bioactive Immune Components of Anti-Diarrheagenic Enterotoxigenic Escherichia coli Hyperimmune Bovine Colostrum Products.

Author

Sears KT, Tennant SM, Reymann MK, Simon R, Konstantopoulos N, Blackwelder WC, Barry EM, and Pasetti MF

Subjects

Animals, Cattle, Colostrum chemistry, Cytokines analysis, Cytokines immunology, Diarrhea prevention & control, Enterotoxins immunology, Escherichia coli Infections prevention & control, Female, Fimbriae Proteins immunology, Humans, Immunoglobulin A, Immunoglobulin G, Intercellular Signaling Peptides and Proteins analysis, Intercellular Signaling Peptides and Proteins immunology, Lactoferrin analysis, Lactoferrin immunology, Pregnancy, Serum Bactericidal Antibody Assay, Antibodies, Bacterial immunology, Colostrum immunology, Enterotoxigenic Escherichia coli immunology, Escherichia coli Proteins immunology, Immunologic Factors analysis

Abstract

Diarrhea is a common illness among travelers to resource-limited countries, the most prevalent attributable agent being enterotoxigenic Escherichia coli (ETEC). At this time, there are no vaccines licensed specifically for the prevention of ETEC-induced traveler's diarrhea (TD), and this has propelled investigation of alternative preventive methods. Colostrum, the first milk expressed after birthing, is rich in immunoglobulins and innate immune components for protection of newborns against infectious agents. Hyperimmune bovine colostrum (HBC) produced by immunization of cows during gestation (and containing high levels of specific antibodies) is a practical and effective prophylactic tool against gastrointestinal illnesses. A commercial HBC product, Travelan, is available for prevention of ETEC-induced diarrhea. Despite its demonstrated clinical efficacy, the underlying immune components and antimicrobial activity that contribute to protection remain undefined. We investigated innate and adaptive immune components of several commercial HBC products formulated to reduce the risk of ETEC-induced diarrhea, including Travelan and IMM-124E, a newer product that has broader gastrointestinal health benefits. The immune components measured included total and ETEC-specific IgG, total IgA, cytokines, growth factors, and lactoferrin. HBC products contained high levels of IgG specific for multiple ETEC antigens, including O-polysaccharide 78 and colonization factor antigen I (CFA/I) present in the administered vaccines. Antimicrobial activity was measured in vitro using novel functional assays. HBC greatly reduced ETEC motility in soft agar and exhibited bactericidal activity in the presence of complement. We have identified immune components and antimicrobial activity potentially involved in the prevention of ETEC infection by HBC in vivo ., (Copyright © 2017 Sears et al.)

Published

2017

37. Differential Growth of Francisella tularensis , Which Alters Expression of Virulence Factors, Dominant Antigens, and Surface-Carbohydrate Synthases, Governs the Apparent Virulence of Ft SchuS4 to Immunized Animals.

Author

Holland KM, Rosa SJ, Kristjansdottir K, Wolfgeher D, Franz BJ, Zarrella TM, Kumar S, Sunagar R, Singh A, Bakshi CS, Namjoshi P, Barry EM, Sellati TJ, Kron SJ, Gosselin EJ, Reed DS, and Hazlett KRO

Abstract

The gram-negative bacterium Francisella tularensis ( Ft ) is both a potential biological weapon and a naturally occurring microbe that survives in arthropods, fresh water amoeba, and mammals with distinct phenotypes in various environments. Previously, we used a number of measurements to characterize Ft grown in Brain-Heart Infusion (BHI) broth as (1) more similar to infection-derived bacteria, and (2) slightly more virulent in naïve animals, compared to Ft grown in Mueller Hinton Broth (MHB). In these studies we observed that the free amino acids in MHB repress expression of select Ft virulence factors by an unknown mechanism. Here, we tested the hypotheses that Ft grown in BHI (BHI- Ft ) accurately displays a full protein composition more similar to that reported for infection-derived Ft and that this similarity would make BHI- Ft more susceptible to pre-existing, vaccine-induced immunity than MHB- Ft . We performed comprehensive proteomic analysis of Ft grown in MHB, BHI, and BHI supplemented with casamino acids (BCA) and compared our findings to published "omics" data derived from Ft grown in vivo . Based on the abundance of ~1,000 proteins, the fingerprint of BHI- Ft is one of nutrient-deprived bacteria that-through induction of a stringent-starvation-like response-have induced the FevR regulon for expression of the bacterium's virulence factors, immuno-dominant antigens, and surface-carbohydrate synthases. To test the notion that increased abundance of dominant antigens expressed by BHI- Ft would render these bacteria more susceptible to pre-existing, vaccine-induced immunity, we employed a battery of LVS-vaccination and S4-challenge protocols using MHB- and BHI-grown Ft S4. Contrary to our hypothesis, these experiments reveal that LVS-immunization provides a barrier to infection that is significantly more effective against an MHB-S4 challenge than a BHI-S4 challenge. The differences in apparent virulence to immunized mice are profoundly greater than those observed with primary infection of naïve mice. Our findings suggest that tularemia vaccination studies should be critically evaluated in regard to the growth conditions of the challenge agent.

Published

2017

38. A mechanistic model for anaerobic phototrophs in domestic wastewater applications: Photo-anaerobic model (PAnM).

Author

Puyol D, Barry EM, Hülsen T, and Batstone DJ

Subjects

Anaerobiosis, Animals, Bacteria, Anaerobic metabolism, Biomass, Hydrogen metabolism, Models, Theoretical, Bioreactors, Wastewater

Abstract

Purple phototrophic bacteria (PPB) have been recently proposed as a key potential mechanism for accumulative biotechnologies for wastewater treatment with total nutrient recovery, low greenhouse gas emissions, and a neutral to positive energy balance. Purple phototrophic bacteria have a complex metabolism which can be regulated for process control and optimization. Since microbial processes governing PPB metabolism differ from traditional processes used for wastewater treatment (e.g., aerobic and anaerobic functional groups in ASM and ADM1), a model basis has to be developed to be used as a framework for further detailed modelling under specific situations. This work presents a mixed population phototrophic model for domestic wastewater treatment in anaerobic conditions. The model includes photoheterotrophy, which is divided into acetate consumption and other organics consumption, chemoheterotrophy (including simplified fermentation and anaerobic oxidation) and photoautotrophy (using hydrogen as an electron donor), as microbial processes, as well as hydrolysis and biomass decay as biochemical processes, and is single-biomass based. The main processes have been evaluated through targeted batch experiments, and the key kinetic and stoichiometric parameters have been determined. The process was assessed by analyzing a continuous reactor simulation scenario within a long-term wastewater treatment system in a photo-anaerobic membrane bioreactor., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

39. Analysis of Shigella flexneri Resistance, Biofilm Formation, and Transcriptional Profile in Response to Bile Salts.

Author

Nickerson KP, Chanin RB, Sistrunk JR, Rasko DA, Fink PJ, Barry EM, Nataro JP, and Faherty CS

Subjects

Bacterial Proteins genetics, Gene Expression Profiling, HT29 Cells, HeLa Cells, Humans, Microscopy, Electron, Mutation, O Antigens genetics, Sequence Analysis, RNA, Shigella flexneri genetics, Virulence genetics, Bacterial Proteins metabolism, Bile Acids and Salts pharmacology, Biofilms drug effects, O Antigens metabolism, Shigella flexneri drug effects, Shigella flexneri pathogenicity

Abstract

The Shigella species cause millions of cases of watery or bloody diarrhea each year, mostly in children in developing countries. While many aspects of Shigella colonic cell invasion are known, crucial gaps in knowledge regarding how the bacteria survive, transit, and regulate gene expression prior to infection remain. In this study, we define mechanisms of resistance to bile salts and build on previous research highlighting induced virulence in Shigella flexneri strain 2457T following exposure to bile salts. Typical growth patterns were observed within the physiological range of bile salts; however, growth was inhibited at higher concentrations. Interestingly, extended periods of exposure to bile salts led to biofilm formation, a conserved phenotype that we observed among members of the Enterobacteriaceae Characterization of S. flexneri 2457T biofilms determined that both bile salts and glucose were required for formation, dispersion was dependent upon bile salts depletion, and recovered bacteria displayed induced adherence to HT-29 cells. RNA-sequencing analysis verified an important bile salt transcriptional profile in S. flexneri 2457T, including induced drug resistance and virulence gene expression. Finally, functional mutagenesis identified the importance of the AcrAB efflux pump and lipopolysaccharide O-antigen synthesis for bile salt resistance. Our data demonstrate that S. flexneri 2457T employs multiple mechanisms to survive exposure to bile salts, which may have important implications for multidrug resistance. Furthermore, our work confirms that bile salts are important physiological signals to activate S. flexneri 2457T virulence. This work provides insights into how exposure to bile likely regulates Shigella survival and virulence during host transit and subsequent colonic infection., (Copyright © 2017 American Society for Microbiology.)

Published

2017

40. Monophosphoryl Lipid A Enhances Efficacy of a Francisella tularensis LVS-Catanionic Nanoparticle Subunit Vaccine against F. tularensis Schu S4 Challenge by Augmenting both Humoral and Cellular Immunity.

Author

Richard K, Mann BJ, Qin A, Barry EM, Ernst RK, and Vogel SN

Subjects

Animals, Antibodies, Bacterial blood, Bacterial Vaccines administration & dosage, Bronchoalveolar Lavage Fluid chemistry, Disease Models, Animal, Female, Immunoglobulin A analysis, Immunoglobulin G analysis, Interferon-gamma metabolism, Lipid A administration & dosage, Macrophages immunology, Mice, Inbred C57BL, Nanoparticles administration & dosage, Survival Analysis, T-Lymphocytes immunology, Tularemia immunology, Vaccines, Subunit administration & dosage, Vaccines, Subunit immunology, Adjuvants, Immunologic administration & dosage, Bacterial Vaccines immunology, Francisella tularensis immunology, Immunity, Cellular, Immunity, Humoral, Lipid A analogs & derivatives, Tularemia prevention & control

Abstract

Francisella tularensis , a bacterial biothreat agent, has no approved vaccine in the United States. Previously, we showed that incorporating lysates from partially attenuated F. tularensis LVS or fully virulent F. tularensis Schu S4 strains into catanionic surfactant vesicle (V) nanoparticles (LVS-V and Schu S4-V, respectively) protected fully against F. tularensis LVS intraperitoneal (i.p.) challenge in mice. However, we achieved only partial protection against F. tularensis Schu S4 intranasal (i.n.) challenge, even when employing heterologous prime-boost immunization strategies. We now extend these findings to show that both LVS-V and Schu S4-V immunization (i.p./i.p.) elicited similarly high titers of anti- F. tularensis IgG and that the titers could be further increased by adding monophosphoryl lipid A (MPL), a nontoxic Toll-like receptor 4 (TLR4) adjuvant that is included in several U.S. FDA-approved vaccines. LVS-V+MPL immune sera also detected more F. tularensis antigens than LVS-V immune sera and, after passive transfer to naive mice, significantly delayed the time to death against F. tularensis Schu S4 subcutaneous (s.c.) but not i.n. challenge. Active immunization with LVS-V+MPL (i.p./i.p.) also increased the frequency of gamma interferon (IFN-γ)-secreting activated helper T cells, IFN-γ production, and the ability of splenocytes to control intramacrophage F. tularensis LVS replication ex vivo Active LVS-V+MPL immunization via heterologous routes (i.p./i.n.) significantly elevated IgA and IgG levels in bronchoalveolar lavage fluid and significantly enhanced protection against i.n. F. tularensis Schu S4 challenge (to ∼60%). These data represent a significant step in the development of a subunit vaccine against the highly virulent type A strains., (Copyright © 2017 American Society for Microbiology.)

Published

2017

41. The synthesis of OspD3 (ShET2) in Shigella flexneri is independent of OspC1.

Author

Faherty CS, Wu T, Morris CR, Grassel CL, Rasko DA, Harper JM, Shea-Donohue T, Fasano A, and Barry EM

Subjects

Bacterial Proteins genetics, Humans, Plasmids genetics, Plasmids metabolism, Promoter Regions, Genetic, Shigella flexneri genetics, Virulence Factors biosynthesis, Virulence Factors genetics, Bacterial Proteins biosynthesis, Dysentery, Bacillary microbiology, Gene Expression Regulation, Bacterial, Shigella flexneri metabolism

Abstract

Shigella flexneri is a Gram-negative pathogen that invades the colonic epithelium and causes millions of cases of watery diarrhea or bacillary dysentery predominately in children under the age of 5 years in developing countries. The effector Shigella enterotoxin 2 (ShET2), or OspD3, is encoded by the sen or ospD3 gene on the virulence plasmid. Previous literature has suggested that ospD3 is in an operon downstream of the ospC1 gene, and expression of both genes is controlled by a promoter upstream of ospC1. Since the intergenic region is 328 bases in length and contains several putative promoter regions, we hypothesized the genes are independently expressed. Here we provide data that ospD3 and ospC1 are not co-transcribed and that OspC1 is not required for OspD3/ShET2 function. Most importantly, we identified strong promoter activity in the intergenic region and demonstrate that OspD3/ShET2 can be expressed and secreted independently of OspC1. This work increases our understanding of the synthesis of a unique virulence factor and provides further insights into Shigella pathogenesis.

Published

2016

42. Respiratory and oral vaccination improves protection conferred by the live vaccine strain against pneumonic tularemia in the rabbit model.

Author

Stinson E, Smith LP, Cole KS, Barry EM, and Reed DS

Subjects

Administration, Oral, Animals, Antibodies, Bacterial blood, Antibodies, Bacterial immunology, Blood Cell Count, Disease Models, Animal, Female, Immunization, Nasal Sprays, Rabbits, Tularemia immunology, Tularemia mortality, Bacterial Vaccines immunology, Francisella tularensis immunology, Tularemia prevention & control, Vaccines, Attenuated immunology

Abstract

Tularemia is a severe, zoonotic disease caused by a gram-negative bacterium, Francisella tularensis We have previously shown that rabbits are a good model of human pneumonic tularemia when exposed to aerosols containing a virulent, type A strain, SCHU S4. We further demonstrated that the live vaccine strain (LVS), an attenuated type B strain, extended time to death when given by scarification. Oral or aerosol vaccination has been previously shown in humans to offer superior protection to parenteral vaccination against respiratory tularemia challenge. Both oral and aerosol vaccination with LVS were well tolerated in the rabbit with only minimal fever and no weight loss after inoculation. Plasma antibody titers against F. tularensis were higher in rabbits that were vaccinated by either oral or aerosol routes compared to scarification. Thirty days after vaccination, all rabbits were challenged with aerosolized SCHU S4. LVS given by scarification extended time to death compared to mock-vaccinated controls. One orally vaccinated rabbit did survive aerosol challenge, however, only aerosol vaccination extended time to death significantly compared to scarification. These results further demonstrate the utility of the rabbit model of pneumonic tularemia in replicating what has been reported in humans and macaques as well as demonstrating the utility of vaccination by oral and respiratory routes against an aerosol tularemia challenge., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

43. Domestic wastewater treatment with purple phototrophic bacteria using a novel continuous photo anaerobic membrane bioreactor.

Author

Hülsen T, Barry EM, Lu Y, Puyol D, Keller J, and Batstone DJ

Subjects

Bacteria, Bacteria, Anaerobic, Biomass, Carbon, Waste Disposal, Fluid, Bioreactors microbiology, Wastewater microbiology

Abstract

A key future challenge of domestic wastewater treatment is nutrient recovery while still achieving acceptable discharge limits. Nutrient partitioning using purple phototrophic bacteria (PPB) has the potential to biologically concentrate nutrients through growth. This study evaluates the use of PPB in a continuous photo-anaerobic membrane bioreactor (PAnMBR) for simultaneous organics and nutrient removal from domestic wastewater. This process could continuously treat domestic wastewater to discharge limits (<50 mgCOD L(-1), 5 mgN L(-1), 1.0 mgP L(-1)). Approximately 6.4 ± 1.3 gNH4-N and 1.1 ± 0.2 gPO4-P for every 100 gSCOD were removed at a hydraulic retention time of 8-24 h and volumetric loading rates of 0.8-2.5 COD kg m(3) d(-1). Thus, a minimum of 200 mg L(-1) of ethanol (to provide soluble COD) was required to achieve these discharge limits. Microbial community through sequencing indicated dominance of >60% of PPB, though the PPB community was highly variable. The outcomes from the current work demonstrate the potential of PPB for continuous domestic (and possibly industrial) wastewater treatment and nutrient recovery. Technical challenges include the in situ COD supply in a continuous reactor system, as well as efficient light delivery. Addition of external (agricultural or fossil) derived organics is not financially nor environmentally justified, and carbon needs to be sourced internally from the biomass itself to enable this technology. Reduced energy consumption for lighting is technically feasible, and needs to be addressed as a key objective in scaleup., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

44. Low temperature treatment of domestic wastewater by purple phototrophic bacteria: Performance, activity, and community.

Author

Hülsen T, Barry EM, Lu Y, Puyol D, and Batstone DJ

Subjects

Anaerobiosis, Bacteria, Bacteria, Anaerobic, Bioreactors microbiology, Cold Temperature, Sewage microbiology, Waste Disposal, Fluid, Temperature, Wastewater

Abstract

Low wastewater temperatures affect microbial growth rates and microbial populations, as well as physical chemical characteristics of the wastewater. Wastewater treatment plant design needs to accommodate changing temperatures, and somewhat limited capacity is a key criticism of low strength anaerobic treatment such as Anaerobic Membrane Bioreactors (AnMBR). This study evaluates the applicability of an alternative platform utilizing purple phototrophic bacteria for low temperature domestic wastewater treatment. Two photo-anaerobic membrane bioreactors (PAnMBR) at ambient (22 °C) and low temperatures (10 °C) were compared to fully evaluate temperature response of critical processes. The results show good functionality at 10 °C in comparison with ambient operation. This enabled operation at 10 °C to discharge limits (TCOD < 100 mg L(-1); TN < 10 mg L(-1) and TP < 1 mg L(-1)) at a HRT < 1 d. While capacity of the system was not limited, microbial community showed a strong shift to a far narrower diversity, almost complete dominance by PPB, and of a single Rhodobacter spp. compared to a more diverse community in the ambient reactor. The outcomes of the current work enable applicability of PPB for domestic wastewater treatment to a broad range of regions., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

45. Characterization of a multicomponent live, attenuated Shigella flexneri vaccine.

Author

DeLaine BC, Wu T, Grassel CL, Shimanovich A, Pasetti MF, Levine MM, and Barry EM

Subjects

Animals, Antibodies, Bacterial blood, Antibodies, Bacterial immunology, Bacterial Proteins genetics, Bacterial Proteins immunology, Cell Line, Cytotoxicity, Immunologic, Disease Models, Animal, Dysentery, Bacillary metabolism, Enzyme-Linked Immunosorbent Assay, Guinea Pigs, Humans, Immunization, Macrophages immunology, Macrophages metabolism, Mutation, Plasmids genetics, Virulence, Dysentery, Bacillary immunology, Dysentery, Bacillary prevention & control, Shigella Vaccines immunology, Shigella flexneri immunology, Vaccines, Attenuated immunology, Vaccines, Synthetic immunology

Abstract

Shigella flexneri is a leading cause of diarrheal disease in children under five in developing countries. There is currently no licensed vaccine and broad spectrum protection requires coverage of multiple serotypes. The live attenuated vaccines CVD 1213 and CVD 1215 were derived from two prominent S. flexneri serotypes: S. flexneri 3a and S. flexneri 6. To provide broad-spectrum immunity, they could be combined with CVD 1208S, a S. flexneri 2a strain that demonstrated promising results in phase I and II clinical trials. Each strain contains a mutation in the guaBA operon. These vaccine candidates were tested in vitro and in vivo and were found to be auxotrophic for guanine and defective in intracellular replication, but capable of inducing cytokine production from both epithelial cells and macrophages. Both strains were attenuated for virulence in the guinea pig Serény test and induced robust serotype-specific antibody responses following immunization. Each strain induced homologous serotype protection against challenge and a mixed inoculum of the three S. flexneri vaccines conferred protection against all three virulent wild-type strains. These data support the use of CVD 1213, CVD 1215 and CVD 1208S in a multivalent vaccine to confer broad protection against disease caused by Shigella flexneri., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

46. Simple method for purification of enterotoxigenic Escherichia coli fimbriae.

Author

Curtis B, Grassel C, Laufer RS, Sears KT, Pasetti MF, Barry EM, and Simon R

Subjects

Antibodies, Bacterial blood, Chemical Precipitation, Chromatography, Gel, Chromatography, High Pressure Liquid, Chromatography, Ion Exchange, Escherichia coli Proteins chemistry, Escherichia coli Proteins immunology, Escherichia coli Vaccines immunology, Fimbriae Proteins chemistry, Fimbriae Proteins immunology, Fimbriae, Bacterial, Humans, Immunoglobulin G blood, Ultracentrifugation, Enterotoxigenic Escherichia coli immunology, Escherichia coli Proteins isolation & purification, Fimbriae Proteins isolation & purification

Abstract

Enterotoxigenic Escherichia coli (ETEC) are endemic pathogens in the developing world. They frequently cause illness in travelers, and are among the most prevalent causes of diarrheal disease in children. Pathogenic ETEC strains employ fimbriae as adhesion factors to bind the luminal surface of the intestinal epithelium and establish infection. Accordingly, there is marked interest in immunoprophylactic strategies targeting fimbriae to protect against ETEC infections. Multiple strategies have been reported for purification of ETEC fimbriae, however none is ideal. Purification has typically involved the use of highly virulent wild-type strains. We report here a simple and improved method to purify ETEC fimbriae, which was applied to obtain two different Class 5 fimbriae types of clinical relevance (CFA/I and CS4) expressed recombinantly in E. coli production strains. Following removal from cells by shearing, fimbriae proteins were purified by orthogonal purification steps employing ultracentrifugation, precipitation, and ion-exchange membrane chromatography. Purified fimbriae demonstrated the anticipated size and morphology by electron microscopy analysis, contained negligible levels of residual host cell proteins, nucleic acid, and endotoxin, and were recognized by convalescent human anti-sera., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

47. Genomic diversity of EPEC associated with clinical presentations of differing severity.

Author

Hazen TH, Donnenberg MS, Panchalingam S, Antonio M, Hossain A, Mandomando I, Ochieng JB, Ramamurthy T, Tamboura B, Qureshi S, Quadri F, Zaidi A, Kotloff KL, Levine MM, Barry EM, Kaper JB, Rasko DA, and Nataro JP

Subjects

Enteropathogenic Escherichia coli isolation & purification, Genes, Bacterial, Genomics, Humans, Phylogeny, Virulence Factors genetics, Diarrhea microbiology, Diarrhea pathology, Enteropathogenic Escherichia coli classification, Enteropathogenic Escherichia coli genetics, Escherichia coli Infections microbiology, Escherichia coli Infections pathology, Genetic Variation

Abstract

Enteropathogenic Escherichia coli (EPEC) are diarrhoeagenic E. coli, and are a significant cause of gastrointestinal illness among young children in developing countries. Typical EPEC are identified by the presence of the bundle-forming pilus encoded by a virulence plasmid, which has been linked to an increased severity of illness, while atypical EPEC lack this feature. Comparative genomics of 70 total EPEC from lethal (LI), non-lethal symptomatic (NSI) or asymptomatic (AI) cases of diarrhoeal illness in children enrolled in the Global Enteric Multicenter Study was used to investigate the genomic differences in EPEC isolates obtained from individuals with various clinical outcomes. A comparison of the genomes of isolates from different clinical outcomes identified genes that were significantly more prevalent in EPEC isolates of symptomatic and lethal outcomes than in EPEC isolates of asymptomatic outcomes. These EPEC isolates exhibited previously unappreciated phylogenomic diversity and combinations of virulence factors. These comparative results highlight the diversity of the pathogen, as well as the complexity of the EPEC virulence factor repertoire.

Published

2016

48. Characterization of Francisella tularensis Schu S4 defined mutants as live-attenuated vaccine candidates.

Author

Santiago AE, Mann BJ, Qin A, Cunningham AL, Cole LE, Grassel C, Vogel SN, Levine MM, and Barry EM

Subjects

Animals, Bacterial Vaccines administration & dosage, Bacterial Vaccines genetics, Disease Models, Animal, Francisella tularensis growth & development, Francisella tularensis physiology, Gene Deletion, Genes, Bacterial, Lethal Dose 50, Macrophages microbiology, Mice, Inbred C57BL, Microbial Viability, Survival Analysis, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated genetics, Vaccines, Attenuated immunology, Virulence, Bacterial Vaccines immunology, Francisella tularensis genetics, Francisella tularensis immunology

Abstract

Francisella tularensis (Ft), the etiological agent of tularemia and a Tier 1 select agent, has been previously weaponized and remains a high priority for vaccine development. Ft tularensis (type A) and Ft holarctica (type B) cause most human disease. We selected six attenuating genes from the live vaccine strain (LVS; type B), F. novicida and other intracellular bacteria: FTT0507, FTT0584, FTT0742, FTT1019c (guaA), FTT1043 (mip) and FTT1317c (guaB) and created unmarked deletion mutants of each in the highly human virulent Ft strain Schu S4 (Type A) background. FTT0507, FTT0584, FTT0742 and FTT1043 Schu S4 mutants were not attenuated for virulence in vitro or in vivo. In contrast, Schu S4 gua mutants were unable to replicate in murine macrophages and were attenuated in vivo, with an i.n. LD50 > 10(5) CFU in C57BL/6 mice. However, the gua mutants failed to protect mice against lethal challenge with WT Schu S4, despite demonstrating partial protection in rabbits in a previous study. These results contrast with the highly protective capacity of LVS gua mutants against a lethal LVS challenge in mice, and underscore differences between these strains and the animal models in which they are evaluated, and therefore have important implications for vaccine development., (© FEMS 2015.)

Published

2015

49. Shigella isolates from the global enteric multicenter study inform vaccine development.

Author

Livio S, Strockbine NA, Panchalingam S, Tennant SM, Barry EM, Marohn ME, Antonio M, Hossain A, Mandomando I, Ochieng JB, Oundo JO, Qureshi S, Ramamurthy T, Tamboura B, Adegbola RA, Hossain MJ, Saha D, Sen S, Faruque AS, Alonso PL, Breiman RF, Zaidi AK, Sur D, Sow SO, Berkeley LY, O'Reilly CE, Mintz ED, Biswas K, Cohen D, Farag TH, Nasrin D, Wu Y, Blackwelder WC, Kotloff KL, Nataro JP, and Levine MM

Subjects

Africa epidemiology, Agglutination Tests, Asia epidemiology, Bacterial Typing Techniques, Case-Control Studies, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, Serotyping, Drug Discovery methods, Dysentery, Bacillary epidemiology, Dysentery, Bacillary microbiology, Shigella classification, Shigella isolation & purification, Shigella Vaccines immunology, Shigella Vaccines isolation & purification

Abstract

Background: Shigella, a major diarrheal disease pathogen worldwide, is the target of vaccine development. The Global Enteric Multicenter Study (GEMS) investigated burden and etiology of moderate-to-severe diarrheal disease in children aged <60 months and matched controls without diarrhea during 3 years at 4 sites in Africa and 3 in Asia. Shigella was 1 of the 4 most common pathogens across sites and age strata. GEMS Shigella serotypes are reviewed to guide vaccine development., Methods: Subjects' stool specimens/rectal swabs were transported to site laboratories in transport media and plated onto xylose lysine desoxycholate and MacConkey agar. Suspect Shigella colonies were identified by biochemical tests and agglutination with antisera. Shigella isolates were shipped to the GEMS Reference Laboratory (Baltimore, MD) for confirmation and serotyping of S. flexneri; one-third of isolates were sent to the Centers for Disease Control and Prevention for quality control., Results: Shigella dysenteriae and S. boydii accounted for 5.0% and 5.4%, respectively, of 1130 Shigella case isolates; S. flexneri comprised 65.9% and S. sonnei 23.7%. Five serotypes/subserotypes comprised 89.4% of S. flexneri, including S. flexneri 2a, S. flexneri 6, S. flexneri 3a, S. flexneri 2b, and S. flexneri 1b., Conclusions: A broad-spectrum Shigella vaccine must protect against S. sonnei and 15 S. flexneri serotypes/subserotypes. A quadrivalent vaccine with O antigens from S. sonnei, S. flexneri 2a, S. flexneri 3a, and S. flexneri 6 can provide broad direct coverage against these most common serotypes and indirect coverage against all but 1 (rare) remaining subserotype through shared S. flexneri group antigens., (© The Author 2014. Published by Oxford University Press on behalf of the Infectious Diseases Society of America.)

Published

2014

50. Gut-Homing Conventional Plasmablasts and CD27(-) Plasmablasts Elicited after a Short Time of Exposure to an Oral Live-Attenuated Shigella Vaccine Candidate in Humans.

Author

Toapanta FR, Simon JK, Barry EM, Pasetti MF, Levine MM, Kotloff KL, and Sztein MB

Abstract

Currently, there is no licensed Shigella vaccine; however, various promising live-attenuated vaccine candidates have emerged, including CVD1208S (ΔguaBA, Δset, Δsen S. flexneri 2a), which was shown to be safe and immunogenic in Phase 1 clinical trials. Here, we report the immune responses elicited in an outpatient Phase 2 clinical trial in which subjects were vaccinated with CVD 1208S. Oral immunization with CVD 1208S elicited high anti-S. flexneri 2a LPS and IpaB antibody responses as well as an acute plasmablast (PB) infiltration in peripheral blood 7 days after immunization. PB sorted based on their expression of homing molecules confirmed that cells expressing integrin α4β7 alone or in combination with CD62L were responsible for antibody production (as measured by ELISpot). Furthermore, using high-color flow-cytometry, on day 7 after immunization, we observed the appearance of conventional PB (CPB, CD19(dim) CD20(-) CD27(+high) CD38(+high) CD3(-)), as well as a PB population that did not express CD27 (CD27(-) PB; pre-plasmablasts). The pattern of individual or simultaneous expression of homing markers (integrin α4β7, CD62L, CXCR3, and CXCR4) suggested that CPB cells homed preferentially to the inflamed gut mucosa. In contrast, ~50% CD27(-) PB cells appear to home to yet to be identified peripheral lymphoid organs or were in a transition state preceding integrin α4β7 upregulation. In sum, these observations demonstrate that strong immune responses, including distinct PB subsets with the potential to home to the gut and other secondary lymphoid organs, can be elicited after a short time of exposure to a shigella oral vaccine.

Published

2014