Your search keyword '"Hayward MR"' showing total 18 results

1. Genotypic and phenotypic differences supporting the recently described species split between lactobacillus jensenii and lactobacillus mulieris

Author

Hayward MR, Pishchany IH, Hussain FA, Yuan E, Bergerat A, Young K, Marrazzo J, Rakoff-nahoum S, Kwon D, and Mitchell CM

Subjects

Obstetrics and Gynecology

Published

2023

2. “Extensive Transmission of Microbes along the Gastrointestinal Tract”

Author

Schmidt, TSB, primary, Hayward, MR, additional, Coelho, LP, additional, Li, SS, additional, Costea, PI, additional, Voigt, AY, additional, Wirbel, J, additional, Maistrenko, OM, additional, Alves, RJ, additional, Bergsten, E, additional, de Beaufort, C, additional, Sobhani, I, additional, Heintz-Buschart, A, additional, Sunagawa, S, additional, Zeller, G, additional, Wilmes, P, additional, and Bork, P, additional

Published

2018

3. HIV-associated gut microbial alterations are dependent on host and geographic context.

Author

Rocafort M, Gootenberg DB, Luévano JM Jr, Paer JM, Hayward MR, Bramante JT, Ghebremichael MS, Xu J, Rogers ZH, Munoz AR, Okello S, Kim JH, Sentongo R, Wagubi R, Lankowski A, Maruapula S, Zhao G, Handley SA, Mosepele M, Siedner MJ, and Kwon DS

Subjects

Male, Humans, Homosexuality, Male, Sexual Behavior, Bacteria, HIV Infections, Gastrointestinal Microbiome physiology, Sexual and Gender Minorities

Abstract

HIV-associated changes in intestinal microbiota are believed to be important drivers of disease progression. However, the majority of studies have focused on populations in high-income countries rather than in developing regions where HIV burden is greatest. To better understand the impact of HIV on fecal microbiota globally, we compare the fecal microbial community of individuals in the U.S., Uganda, and Botswana. We identify significant bacterial taxa alterations with both treated and untreated HIV infection with a high degree of uniqueness in each cohort. HIV-associated taxa alterations are also significantly different between populations that report men who have sex with men (MSM) behavior and non-MSM populations. Additionally, while we find that HIV infection is consistently associated with higher soluble markers of immune activation, most specific bacterial taxa associated with these markers in each region are not shared and none are shared across all three geographic locations in our study. Our findings demonstrate that HIV-associated changes in fecal microbiota are overall distinct among geographical locations and sexual behavior groups, although a small number of taxa shared between pairs of geographic locations warrant further investigation, highlighting the importance of considering host context to fully assess the impact of the gut microbiome on human health and disease., (© 2024. The Author(s).)

Published

2024

4. Alterations of oral microbiota and impact on the gut microbiome in type 1 diabetes mellitus revealed by integrated multi-omic analyses.

Author

Kunath BJ, Hickl O, Queirós P, Martin-Gallausiaux C, Lebrun LA, Halder R, Laczny CC, Schmidt TSB, Hayward MR, Becher D, Heintz-Buschart A, de Beaufort C, Bork P, May P, and Wilmes P

Subjects

Humans, Proteomics, Multiomics, Mouth microbiology, Enterobacteriaceae, Gastrointestinal Microbiome genetics, Diabetes Mellitus, Type 1 microbiology, Microbiota genetics

Abstract

Background: Alterations to the gut microbiome have been linked to multiple chronic diseases. However, the drivers of such changes remain largely unknown. The oral cavity acts as a major route of exposure to exogenous factors including pathogens, and processes therein may affect the communities in the subsequent compartments of the gastrointestinal tract. Here, we perform strain-resolved, integrated meta-genomic, transcriptomic, and proteomic analyses of paired saliva and stool samples collected from 35 individuals from eight families with multiple cases of type 1 diabetes mellitus (T1DM)., Results: We identified distinct oral microbiota mostly reflecting competition between streptococcal species. More specifically, we found a decreased abundance of the commensal Streptococcus salivarius in the oral cavity of T1DM individuals, which is linked to its apparent competition with the pathobiont Streptococcus mutans. The decrease in S. salivarius in the oral cavity was also associated with its decrease in the gut as well as higher abundances in facultative anaerobes including Enterobacteria. In addition, we found evidence of gut inflammation in T1DM as reflected in the expression profiles of the Enterobacteria as well as in the human gut proteome. Finally, we were able to follow transmitted strain-variants from the oral cavity to the gut at the individual omic levels, highlighting not only the transfer, but also the activity of the transmitted taxa along the gastrointestinal tract., Conclusions: Alterations of the oral microbiome in the context of T1DM impact the microbial communities in the lower gut, in particular through the reduction of "mouth-to-gut" transfer of Streptococcus salivarius. Our results indicate that the observed oral-cavity-driven gut microbiome changes may contribute towards the inflammatory processes involved in T1DM. Through the integration of multi-omic analyses, we resolve strain-variant "mouth-to-gut" transfer in a disease context. Video Abstract., (© 2022. The Author(s).)

Published

2022

5. Cysteine dependence of Lactobacillus iners is a potential therapeutic target for vaginal microbiota modulation.

Author

Bloom SM, Mafunda NA, Woolston BM, Hayward MR, Frempong JF, Abai AB, Xu J, Mitchell AJ, Westergaard X, Hussain FA, Xulu N, Dong M, Dong KL, Gumbi T, Ceasar FX, Rice JK, Choksi N, Ismail N, Ndung'u T, Ghebremichael MS, Relman DA, Balskus EP, Mitchell CM, and Kwon DS

Subjects

Cysteine metabolism, Female, Humans, Lactobacillus genetics, Lactobacillus metabolism, Metronidazole metabolism, Metronidazole pharmacology, Metronidazole therapeutic use, Vagina microbiology, Microbiota, Vaginosis, Bacterial drug therapy, Vaginosis, Bacterial microbiology

Abstract

Vaginal microbiota composition affects many facets of reproductive health. Lactobacillus iners-dominated microbial communities are associated with poorer outcomes, including higher risk of bacterial vaginosis (BV), compared with vaginal microbiota rich in L. crispatus. Unfortunately, standard-of-care metronidazole therapy for BV typically results in dominance of L. iners, probably contributing to post-treatment relapse. Here we generate an L. iners isolate collection comprising 34 previously unreported isolates from 14 South African women with and without BV and 4 previously unreported isolates from 3 US women. We also report an associated genome catalogue comprising 1,218 vaginal Lactobacillus isolate genomes and metagenome-assembled genomes from >300 women across 4 continents. We show that, unlike L. crispatus, L. iners growth is dependent on L-cysteine in vitro and we trace this phenotype to the absence of canonical cysteine biosynthesis pathways and a restricted repertoire of cysteine-related transport mechanisms. We further show that cysteine concentrations in cervicovaginal lavage samples correlate with Lactobacillus abundance in vivo and that cystine uptake inhibitors selectively inhibit L. iners growth in vitro. Combining an inhibitor with metronidazole promotes L. crispatus dominance of defined BV-like communities in vitro by suppressing L. iners growth. Our findings enable a better understanding of L. iners biology and suggest candidate treatments to modulate the vaginal microbiota to improve reproductive health for women globally., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

6. Comparison of the Vaginal Microbiota in Postmenopausal Black and White Women.

Author

Hudson PL, Ling W, Wu MC, Hayward MR, Mitchell AJ, Larson J, Guthrie KA, Reed SD, Kwon DS, and Mitchell CM

Subjects

Aged, Black People statistics & numerical data, Female, Humans, Lactobacillus crispatus, Middle Aged, Minnesota, RNA, Ribosomal, 16S genetics, White People statistics & numerical data, Black or African American, Microbiota, Postmenopause, Vagina microbiology

Abstract

Background: We compared vaginal microbial communities in postmenopausal black and white women., Methods: Shotgun sequencing of vaginal swabs from postmenopausal women self-identified as black or white was compared using MiRKAT., Results: Vaginal community dominance by Lactobacillus crispatus or Lactobacillusgasseri was more common in 44 postmenopausal black women (n = 12, 27%) than among 44 matched white women (n = 2, 5%; P = .01). No individual taxa were significantly more abundant in either group., Conclusions: We identified small overall differences in vaginal microbial communities of black and white postmenopausal women. L. crispatus dominance was more common in black women., Clinical Trials Registration: NCT02516202 (MsFLASH05) and NCT01418209 (MsFLASH03)., (© The Author(s) 2020. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2021

7. Correction to: Modeling the temporal dynamics of cervicovaginal microbiota identifies targets that may promote reproductive health.

Author

Munoz A, Hayward MR, Bloom SM, Rocafort M, Ngcapu S, Mafunda NA, Xu J, Xulu N, Dong M, Dong KL, Ismail N, Ndung'u T, Ghebremichael MS, and Kwon DS

Published

2021

8. Antigen Presenting Cells Link the Female Genital Tract Microbiome to Mucosal Inflammation, With Hormonal Contraception as an Additional Modulator of Inflammatory Signatures.

Author

Byrne EH, Farcasanu M, Bloom SM, Xulu N, Xu J, Hykes BL Jr, Mafunda NA, Hayward MR, Dong M, Dong KL, Gumbi T, Ceasar FX, Ismail N, Ndung'u T, Gosmann C, Ghebremichael MS, Handley SA, Mitchell CM, Villani AC, and Kwon DS

Subjects

Antigen-Presenting Cells, Female, Hormonal Contraception, Humans, Infant, Newborn, Inflammation, Pregnancy, Vagina, HIV Infections, Microbiota, Premature Birth

Abstract

The microbiome of the female genital tract (FGT) is closely linked to reproductive health outcomes. Diverse, anaerobe-dominated communities with low Lactobacillus abundance are associated with a number of adverse reproductive outcomes, such as preterm birth, cervical dysplasia, and sexually transmitted infections (STIs), including HIV. Vaginal dysbiosis is associated with local mucosal inflammation, which likely serves as a biological mediator of poor reproductive outcomes. Yet the precise mechanisms of this FGT inflammation remain unclear. Studies in humans have been complicated by confounding demographic, behavioral, and clinical variables. Specifically, hormonal contraception is associated both with changes in the vaginal microbiome and with mucosal inflammation. In this study, we examined the transcriptional landscape of cervical cell populations in a cohort of South African women with differing vaginal microbial community types. We also investigate effects of reproductive hormones on the transcriptional profiles of cervical cells, focusing on the contraceptive depot medroxyprogesterone acetate (DMPA), the most common form of contraception in sub-Saharan Africa. We found that antigen presenting cells (APCs) are key mediators of microbiome associated FGT inflammation. We also found that DMPA is associated with significant transcriptional changes across multiple cell lineages, with some shared and some distinct pathways compared to the inflammatory signature seen with dysbiosis. These results highlight the importance of an integrated, systems-level approach to understanding host-microbe interactions, with an appreciation for important variables, such as reproductive hormones, in the complex system of the FGT mucosa., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Byrne, Farcasanu, Bloom, Xulu, Xu, Hykes, Mafunda, Hayward, Dong, Dong, Gumbi, Ceasar, Ismail, Ndung’u, Gosmann, Ghebremichael, Handley, Mitchell, Villani and Kwon.)

Published

2021

9. Modeling the temporal dynamics of cervicovaginal microbiota identifies targets that may promote reproductive health.

Author

Munoz A, Hayward MR, Bloom SM, Rocafort M, Ngcapu S, Mafunda NA, Xu J, Xulu N, Dong M, Dong KL, Ismail N, Ndung'u T, Ghebremichael MS, and Kwon DS

Subjects

Cross-Sectional Studies, Female, Humans, Infant, Newborn, Lactobacillus, Pregnancy, Reproductive Health, Vagina, Microbiota, Premature Birth

Abstract

Background: Cervicovaginal bacterial communities composed of diverse anaerobes with low Lactobacillus abundance are associated with poor reproductive outcomes such as preterm birth, infertility, cervicitis, and risk of sexually transmitted infections (STIs), including human immunodeficiency virus (HIV). Women in sub-Saharan Africa have a higher prevalence of these high-risk bacterial communities when compared to Western populations. However, the transition of cervicovaginal communities between high- and low-risk community states over time is not well described in African populations., Results: We profiled the bacterial composition of 316 cervicovaginal swabs collected at 3-month intervals from 88 healthy young Black South African women with a median follow-up of 9 months per participant and developed a Markov-based model of transition dynamics that accurately predicted bacterial composition within a broader cross-sectional cohort. We found that Lactobacillus iners-dominant, but not Lactobacillus crispatus-dominant, communities have a high probability of transitioning to high-risk states. Simulating clinical interventions by manipulating the underlying transition probabilities, our model predicts that the population prevalence of low-risk microbial communities could most effectively be increased by manipulating the movement between L. iners- and L. crispatus-dominant communities., Conclusions: The Markov model we present here indicates that L. iners-dominant communities have a high probability of transitioning to higher-risk states. We additionally identify transitions to target to increase the prevalence of L. crispatus-dominant communities. These findings may help guide future intervention strategies targeted at reducing bacteria-associated adverse reproductive outcomes among women living in sub-Saharan Africa. Video Abstract., (© 2021. The Author(s).)

Published

2021

10. A Single Human V H -gene Allows for a Broad-Spectrum Antibody Response Targeting Bacterial Lipopolysaccharides in the Blood.

Author

Sangesland M, Yousif AS, Ronsard L, Kazer SW, Zhu AL, Gatter GJ, Hayward MR, Barnes RM, Quirindongo-Crespo M, Rohrer D, Lonberg N, Kwon D, Shalek AK, and Lingwood D

Subjects

Animals, Humans, Mice, Mice, Transgenic, Immunoglobulin Variable Region metabolism, Lipopolysaccharides immunology

Abstract

B cell receptors (BCRs) display a combination of variable (V)-gene-encoded complementarity determining regions (CDRs) and adaptive/hypervariable CDR3 loops to engage antigens. It has long been proposed that the former tune for recognition of pathogens or groups of pathogens. To experimentally evaluate this within the human antibody repertoire, we perform immune challenges in transgenic mice that bear diverse human CDR3 and light chains but are constrained to different human V H - genes. We find that, of six commonly deployed V H sequences, only those CDRs encoded by IGHV1-2 ∗ 02 enable polyclonal antibody responses against bacterial lipopolysaccharide (LPS) when introduced to the bloodstream. The LPS is from diverse strains of gram-negative bacteria, and the V H -gene-dependent responses are directed against the non-variable and universal saccrolipid substructure of this antigen. This reveals a broad-spectrum anti-LPS response in which germline-encoded CDRs naturally hardwire the human antibody repertoire for recognition of a conserved microbial target., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

11. Complete Genome Sequences of Six Lactobacillus iners Strains Isolated from the Human Vagina.

Author

France MT, Rutt L, Narina S, Arbaugh S, McComb E, Humphrys MS, Ma B, Hayward MR, Costello EK, Relman DA, Kwon DS, and Ravel J

Abstract

Lactobacillus iners is a common member of the human vaginal microbiota, with a genome size smaller than that of other lactobacilli. Here, we report the complete genome sequences of six L. iners strains isolated from different vaginal swab specimens. Three strains were found to harbor ∼100-kbp plasmids, which were not known previously., (Copyright © 2020 France et al.)

Published

2020

12. Extensive transmission of microbes along the gastrointestinal tract.

Author

Schmidt TS, Hayward MR, Coelho LP, Li SS, Costea PI, Voigt AY, Wirbel J, Maistrenko OM, Alves RJ, Bergsten E, de Beaufort C, Sobhani I, Heintz-Buschart A, Sunagawa S, Zeller G, Wilmes P, and Bork P

Subjects

Cluster Analysis, Feces microbiology, Humans, Metagenomics, Saliva microbiology, Bacteria classification, Bacteria genetics, Intestine, Large microbiology, Microbiota, Mouth microbiology

Abstract

The gastrointestinal tract is abundantly colonized by microbes, yet the translocation of oral species to the intestine is considered a rare aberrant event, and a hallmark of disease. By studying salivary and fecal microbial strain populations of 310 species in 470 individuals from five countries, we found that transmission to, and subsequent colonization of, the large intestine by oral microbes is common and extensive among healthy individuals. We found evidence for a vast majority of oral species to be transferable, with increased levels of transmission in colorectal cancer and rheumatoid arthritis patients and, more generally, for species described as opportunistic pathogens. This establishes the oral cavity as an endogenous reservoir for gut microbial strains, and oral-fecal transmission as an important process that shapes the gastrointestinal microbiome in health and disease., Competing Interests: TS, MH, LC, SL, PC, AV, JW, OM, RA, EB, Cd, IS, AH, SS, GZ, PW, PB No competing interests declared, (© 2019, Schmidt et al.)

Published

2019

13. Similarity of the dog and human gut microbiomes in gene content and response to diet.

Author

Coelho LP, Kultima JR, Costea PI, Fournier C, Pan Y, Czarnecki-Maulden G, Hayward MR, Forslund SK, Schmidt TSB, Descombes P, Jackson JR, Li Q, and Bork P

Subjects

Animals, Dogs, Feces microbiology, Humans, Mice, Obesity, Swine, Diet, Gastrointestinal Microbiome, Metagenome, Metagenomics methods, Microbiota

Abstract

Background: Gut microbes influence their hosts in many ways, in particular by modulating the impact of diet. These effects have been studied most extensively in humans and mice. In this work, we used whole genome metagenomics to investigate the relationship between the gut metagenomes of dogs, humans, mice, and pigs., Results: We present a dog gut microbiome gene catalog containing 1,247,405 genes (based on 129 metagenomes and a total of 1.9 terabasepairs of sequencing data). Based on this catalog and taxonomic abundance profiling, we show that the dog microbiome is closer to the human microbiome than the microbiome of either pigs or mice. To investigate this similarity in terms of response to dietary changes, we report on a randomized intervention with two diets (high-protein/low-carbohydrate vs. lower protein/higher carbohydrate). We show that diet has a large and reproducible effect on the dog microbiome, independent of breed or sex. Moreover, the responses were in agreement with those observed in previous human studies., Conclusions: We conclude that findings in dogs may be predictive of human microbiome results. In particular, a novel finding is that overweight or obese dogs experience larger compositional shifts than lean dogs in response to a high-protein diet.

Published

2018

14. Towards standards for human fecal sample processing in metagenomic studies.

Author

Costea PI, Zeller G, Sunagawa S, Pelletier E, Alberti A, Levenez F, Tramontano M, Driessen M, Hercog R, Jung FE, Kultima JR, Hayward MR, Coelho LP, Allen-Vercoe E, Bertrand L, Blaut M, Brown JRM, Carton T, Cools-Portier S, Daigneault M, Derrien M, Druesne A, de Vos WM, Finlay BB, Flint HJ, Guarner F, Hattori M, Heilig H, Luna RA, van Hylckama Vlieg J, Junick J, Klymiuk I, Langella P, Le Chatelier E, Mai V, Manichanh C, Martin JC, Mery C, Morita H, O'Toole PW, Orvain C, Patil KR, Penders J, Persson S, Pons N, Popova M, Salonen A, Saulnier D, Scott KP, Singh B, Slezak K, Veiga P, Versalovic J, Zhao L, Zoetendal EG, Ehrlich SD, Dore J, and Bork P

Subjects

Bacteria genetics, Computational Biology, Humans, Quality Control, Species Specificity, Chemical Fractionation methods, DNA chemistry, Feces chemistry, Metagenomics

Abstract

Technical variation in metagenomic analysis must be minimized to confidently assess the contributions of microbiota to human health. Here we tested 21 representative DNA extraction protocols on the same fecal samples and quantified differences in observed microbial community composition. We compared them with differences due to library preparation and sample storage, which we contrasted with observed biological variation within the same specimen or within an individual over time. We found that DNA extraction had the largest effect on the outcome of metagenomic analysis. To rank DNA extraction protocols, we considered resulting DNA quantity and quality, and we ascertained biases in estimates of community diversity and the ratio between Gram-positive and Gram-negative bacteria. We recommend a standardized DNA extraction method for human fecal samples, for which transferability across labs was established and which was further benchmarked using a mock community of known composition. Its adoption will improve comparability of human gut microbiome studies and facilitate meta-analyses.

Published

2017

15. Population structure and associated phenotypes of Salmonella enterica serovars Derby and Mbandaka overlap with host range.

Author

Hayward MR, Petrovska L, Jansen VA, and Woodward MJ

Subjects

Animals, Cattle, Cattle Diseases microbiology, Humans, Phenotype, Phylogeny, Poultry Diseases microbiology, Salmonella enterica classification, Salmonella enterica genetics, Serogroup, Swine, Swine Diseases microbiology, Turkeys, United Kingdom, Host Specificity, Salmonella Infections microbiology, Salmonella Infections, Animal microbiology, Salmonella enterica isolation & purification, Salmonella enterica physiology

Abstract

Background: The Salmonella enterica serovar Derby is frequently isolated from pigs and turkeys whereas serovar Mbandaka is frequently isolated from cattle, chickens and animal feed in the UK. Through comparative genomics, phenomics and mutant construction we previously suggested possible mechanistic reasons why these serovars demonstrate apparently distinct host ranges. Here, we investigate the genetic and phenotypic diversity of these two serovars in the UK. We produce a phylogenetic reconstruction and perform several biochemical assays on isolates of S. Derby and S. Mbandaka acquired from sites across the UK between the years 2000 and 2010., Results: We show that UK isolates of S. Mbandaka comprise of one clonal lineage which is adapted to proficient utilisation of metabolites found in soya beans under ambient conditions. We also show that this clonal lineage forms a biofilm at 25 °C, suggesting that this serovar maybe well adapted to survival ex vivo, growing in animal feed. Conversely, we show that S. Derby is made of two distinct lineages, L1 and L2. These lineages differ genotypically and phenotypically, being divided by the presence and absence of SPI-23 and the ability to more proficiently invade porcine jejunum derived cell line IPEC-J2., Conclusion: The results of this study lend support to the hypothesis that the differences in host ranges of S. Derby and S. Mbandaka are adaptations to pathogenesis, environmental persistence, as well as utilisation of metabolites abundant in their respective host environments.

Published

2016

16. Temperature and oxygen dependent metabolite utilization by Salmonella enterica serovars Derby and Mbandaka.

Author

Hayward MR, AbuOun M, Woodward MJ, and Jansen VA

Subjects

Hot Temperature, Salmonella enterica genetics, Metabolome, Oxygen metabolism, Salmonella enterica metabolism, Serogroup

Abstract

Salmonella enterica is a zoonotic pathogen of clinical and veterinary significance, with over 2500 serovars. In previous work we compared two serovars displaying host associations inferred from isolation statistics. Here, to validate genome sequence data and to expand on the role of environmental metabolite constitution in host range determination we use a phenotypic microarray approach to assess the ability of these serovars to metabolise ~500 substrates at 25°C with oxygen (aerobic conditions) to represent the ex vivo environment and at 37°C with and without oxygen (aerobic/anaerobic conditions) to represent the in vivo environment. A total of 26 substrates elicited a significant difference in the rate of metabolism of which only one, D-galactonic acid-g-lactone, could be explained by the presence (S. Mbandaka) or the absence (S. Derby) of metabolic genes. We find that S. Mbandaka respires more efficiently at ambient temperatures and under aerobic conditions on 18 substrates including: glucosominic acid, saccharic acid, trehalose, fumaric acid, maltotriose, N-acetyl-D-glucosamine, N-acetyl-beta-D-mannosamine, fucose, L-serine and dihydroxy-acetone; whereas S. Derby is more metabolically competent anaerobically at 37°C for dipeptides, glutamine-glutamine, alanine-lysine, asparagine-glutamine and nitrogen sources glycine and nitrite. We conclude that the specific phenotype cannot be reliably predicted from the presence of metabolic genes directly relating to the metabolic pathways under study.

Published

2015

17. SPI-23 of S. Derby: role in adherence and invasion of porcine tissues.

Author

Hayward MR, AbuOun M, La Ragione RM, Tchórzewska MA, Cooley WA, Everest DJ, Petrovska L, Jansen VA, and Woodward MJ

Subjects

Animals, Cell Line, Colon microbiology, Gene Expression Regulation, Bacterial, Genes, Bacterial, Genome, Bacterial, Jejunum microbiology, Phenotype, Salmonella enterica classification, Salmonella enterica genetics, Salmonella enterica isolation & purification, Species Specificity, Up-Regulation, Virulence Factors genetics, Bacterial Adhesion, Genomic Islands, Salmonella Infections, Animal microbiology, Salmonella enterica pathogenicity, Swine microbiology

Abstract

Salmonella enterica serovars Derby and Mbandaka are isolated from different groups of livestock species in the UK. S. Derby is predominantly isolated from pigs and turkeys and S. Mbandaka is predominantly isolated from cattle and chickens. Alignment of the genome sequences of two isolates of each serovar led to the discovery of a new putative Salmonella pathogenicity island, SPI-23, in the chromosome sequence of S. Derby isolates. SPI-23 is 37 kb in length and contains 42 ORFs, ten of which are putative type III effector proteins. In this study we use porcine jejunum derived cell line IPEC-J2 and in vitro organ culture of porcine jejunum and colon, to characterise the association and invasion rates of S. Derby and S. Mbandaka, and tissue tropism of S. Derby respectively. We show that S. Derby invades and associates to an IPEC-J2 monolayer in significantly greater numbers than S. Mbandaka, and that S. Derby preferentially attaches to porcine jejunum over colon explants. We also show that nine genes across SPI-23 are up-regulated to a greater degree in the jejunum compared to the colon explants. Furthermore, we constructed a mutant of the highly up-regulated, pilV-like gene, potR, and find that it produces an excess of surface pili compared to the parent strain which form a strong agglutinating phenotype interfering with association and invasion of IPEC-J2 monolayers. We suggest that potR may play a role in tissue tropism.

Published

2014

18. Comparative genomics of Salmonella enterica serovars Derby and Mbandaka, two prevalent serovars associated with different livestock species in the UK.

Author

Hayward MR, Jansen V, and Woodward MJ

Subjects

Animals, Cattle, Genes, Bacterial genetics, Genomic Islands genetics, Metabolic Networks and Pathways genetics, Molecular Sequence Annotation, Prophages physiology, Reproducibility of Results, Salmonella enterica metabolism, Salmonella enterica virology, Sequence Inversion, Species Specificity, United Kingdom, Genomics, Livestock microbiology, Salmonella enterica genetics

Abstract

Background: Despite the frequent isolation of Salmonella enterica sub. enterica serovars Derby and Mbandaka from livestock in the UK and USA little is known about the biological processes maintaining their prevalence. Statistics for Salmonella isolations from livestock production in the UK show that S. Derby is most commonly associated with pigs and turkeys and S. Mbandaka with cattle and chickens. Here we compare the first sequenced genomes of S. Derby and S. Mbandaka as a basis for further analysis of the potential host adaptations that contribute to their distinct host species distributions., Results: Comparative functional genomics using the RAST annotation system showed that predominantly mechanisms that relate to metabolite utilisation, in vivo and ex vivo persistence and pathogenesis distinguish S. Derby from S. Mbandaka. Alignment of the genome nucleotide sequences of S. Derby D1 and D2 and S. Mbandaka M1 and M2 with Salmonella pathogenicity islands (SPI) identified unique complements of genes associated with host adaptation. We also describe a new genomic island with a putative role in pathogenesis, SPI-23. SPI-23 is present in several S. enterica serovars, including S. Agona, S. Dublin and S. Gallinarum, it is absent in its entirety from S. Mbandaka., Conclusions: We discovered a new 37 Kb genomic island, SPI-23, in the chromosome sequence of S. Derby, encoding 42 ORFS, ten of which are putative TTSS effector proteins. We infer from full-genome synonymous SNP analysis that these two serovars diverged, between 182kya and 625kya coinciding with the divergence of domestic pigs. The differences between the genomes of these serovars suggest they have been exposed to different stresses including, phage, transposons and prolonged externalisation. The two serovars possess distinct complements of metabolic genes; many of which cluster into pathways for catabolism of carbon sources.

Published

2013