Your search keyword '"Kevin S. Bonham"' showing total 25 results

1. Prospective association of the infant gut microbiome with social behaviors in the ECHO consortium

Author

Hannah E. Laue, Kevin S. Bonham, Modupe O. Coker, Yuka Moroishi, Wimal Pathmasiri, Susan McRitchie, Susan Sumner, Anne G. Hoen, Margaret R. Karagas, Vanja Klepac-Ceraj, Juliette C. Madan, and program collaborators for Environmental influences on Child Health Outcomes

Subjects

Microbiome, Autism, Social behavior, Gut metagenome, Gene set enrichment analysis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Identifying modifiable risk factors of autism spectrum disorders (ASDs) may inform interventions to reduce financial burden. The infant/toddler gut microbiome is one such feature that has been associated with social behaviors, but results vary between cohorts. We aimed to identify consistent overall and sex-specific associations between the early-life gut microbiome and autism-related behaviors. Methods Utilizing the Environmental influences on Children Health Outcomes (ECHO) consortium of United States (U.S.) pediatric cohorts, we gathered data on 304 participants with fecal metagenomic sequencing between 6-weeks to 2-years postpartum (481 samples). ASD-related social development was assessed with the Social Responsiveness Scale (SRS-2). Linear regression, PERMANOVA, and Microbiome Multivariable Association with Linear Models (MaAsLin2) were adjusted for sociodemographic factors. Stratified models estimated sex-specific effects. Results Genes encoding pathways for synthesis of short-chain fatty acids were associated with higher SRS-2 scores, indicative of ASDs. Fecal concentrations of butyrate were also positively associated with ASD-related SRS-2 scores, some of which may be explained by formula use. Limitations The distribution of age at outcome assessment differed in the cohorts included, potentially limiting comparability between cohorts. Stool sample collection methods also differed between cohorts. Our study population reflects the general U.S. population, and thus includes few participants who met the criteria for being at high risk of developing ASD. Conclusions Our study is among the first multicenter studies in the U.S. to describe prospective microbiome development from infancy in relation to neurodevelopment associated with ASDs. Our work contributes to clarifying which microbial features associate with subsequent diagnosis of neuropsychiatric outcomes. This will allow for future interventional research targeting the microbiome to change neurodevelopmental trajectories.

Published

2024

2. Chronic inflammation, neutrophil activity, and autoreactivity splits long COVID

Author

Matthew C. Woodruff, Kevin S. Bonham, Fabliha A. Anam, Tiffany A. Walker, Caterina E. Faliti, Yusho Ishii, Candice Y. Kaminski, Martin C. Ruunstrom, Kelly Rose Cooper, Alexander D. Truong, Adviteeya N. Dixit, Jenny E. Han, Richard P. Ramonell, Natalie S. Haddad, Mark E. Rudolph, Srilakshmi Yalavarthi, Viktoria Betin, Ted Natoli, Sherwin Navaz, Scott A. Jenks, Yu Zuo, Jason S. Knight, Arezou Khosroshahi, F. Eun-Hyung Lee, and Ignacio Sanz

Subjects

Science

Abstract

Abstract While immunologic correlates of COVID-19 have been widely reported, their associations with post-acute sequelae of COVID-19 (PASC) remain less clear. Due to the wide array of PASC presentations, understanding if specific disease features associate with discrete immune processes and therapeutic opportunities is important. Here we profile patients in the recovery phase of COVID-19 via proteomics screening and machine learning to find signatures of ongoing antiviral B cell development, immune-mediated fibrosis, and markers of cell death in PASC patients but not in controls with uncomplicated recovery. Plasma and immune cell profiling further allow the stratification of PASC into inflammatory and non-inflammatory types. Inflammatory PASC, identifiable through a refined set of 12 blood markers, displays evidence of ongoing neutrophil activity, B cell memory alterations, and building autoreactivity more than a year post COVID-19. Our work thus helps refine PASC categorization to aid in both therapeutic targeting and epidemiological investigation of PASC.

Published

2023

3. Comparative Analysis of 16S rRNA Gene and Metagenome Sequencing in Pediatric Gut Microbiomes

Author

Danielle Peterson, Kevin S. Bonham, Sophie Rowland, Cassandra W. Pattanayak, RESONANCE Consortium, Vanja Klepac-Ceraj, Sean C. L. Deoni, Viren D’Sa, Muriel Bruchhage, Alexandra Volpe, Jennifer Beauchemin, Caroline Wallace, John Rogers, Rosa Cano, Jessica Fernandes, Elizabeth Walsh, Brittany Rhodes, Matthew Huentelman, Candace Lewis, Matthew D. De Both, Marcus A. Naymik, Susan Carnell, Elena Jansen, Jennifer R. Sadler, Gita Thapaliya, Kevin Bonham, Monique LeBourgeois, Hans Georg Mueller, Jane-Ling Wang, Changbo Zhu, Yaqing Chen, and Joseph Braun

Subjects

16S rRNA gene, metagenome, pediatric cohort, gut microbiome, sequencing depth, amplicon sequencing, Microbiology, QR1-502

Abstract

The colonization of the human gut microbiome begins at birth, and over time, these microbial communities become increasingly complex. Most of what we currently know about the human microbiome, especially in early stages of development, was described using culture-independent sequencing methods that allow us to identify the taxonomic composition of microbial communities using genomic techniques, such as amplicon or shotgun metagenomic sequencing. Each method has distinct tradeoffs, but there has not been a direct comparison of the utility of these methods in stool samples from very young children, which have different features than those of adults. We compared the effects of profiling the human infant gut microbiome with 16S rRNA amplicon vs. shotgun metagenomic sequencing techniques in 338 fecal samples; younger than 15, 15–30, and older than 30 months of age. We demonstrate that observed changes in alpha-diversity and beta-diversity with age occur to similar extents using both profiling methods. We also show that 16S rRNA profiling identified a larger number of genera and we find several genera that are missed or underrepresented by each profiling method. We present the link between alpha diversity and shotgun metagenomic sequencing depth for children of different ages. These findings provide a guide for selecting an appropriate method and sequencing depth for the three studied age groups.

Published

2021

4. Family SES Is Associated with the Gut Microbiome in Infants and Children

Author

Candace R. Lewis, Kevin S. Bonham, Shelley Hoeft McCann, Alexandra R. Volpe, Viren D’Sa, Marcus Naymik, Matt D. De Both, Matthew J. Huentelman, Kathryn Lemery-Chalfant, Sarah K. Highlander, Sean C. L. Deoni, and Vanja Klepac-Ceraj

Subjects

socioeconomic status, infant, childhood, microbiome, stress, Biology (General), QH301-705.5

Abstract

Background: While early life exposures such as mode of birth, breastfeeding, and antibiotic use are established regulators of microbiome composition in early childhood, recent research suggests that the social environment may also exert influence. Two recent studies in adults demonstrated associations between socioeconomic factors and microbiome composition. This study expands on this prior work by examining the association between family socioeconomic status (SES) and host genetics with microbiome composition in infants and children. Methods: Family SES was used to predict a latent variable representing six genera abundances generated from whole-genome shotgun sequencing. A polygenic score derived from a microbiome genome-wide association study was included to control for potential genetic associations. Associations between family SES and microbiome diversity were assessed. Results: Anaerostipes, Bacteroides, Eubacterium, Faecalibacterium, and Lachnospiraceae spp. significantly loaded onto a latent factor, which was significantly predicted by SES (p < 0.05) but not the polygenic score (p > 0.05). Our results indicate that SES did not predict alpha diversity but did predict beta diversity (p < 0.001). Conclusions: Our results demonstrate that modifiable environmental factors influence gut microbiome composition at an early age. These results are important as our understanding of gut microbiome influences on health continue to expand.

Published

2021

5. Microbiome.jl and BiobakeryUtils.jl - Julia packages for working with microbial community data.

Author

Kevin S. Bonham, Annelle Kayisire, Anika Luo, and Vanja Klepac-Ceraj

Published

2021

6. Microclimate is a strong predictor of the native and invasive plant‐associated soil microbiome on San Cristóbal Island, Galápagos archipelago

Author

Alexi A. Schoenborn, Sarah M. Yannarell, Caroline T. MacVicar, Noelia N. Barriga‐Medina, Kevin S. Bonham, Antonio Leon‐Reyes, Diego Riveros‐Iregui, Vanja Klepac‐Ceraj, and Elizabeth A. Shank

Subjects

Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2023

7. Women are underrepresented in computational biology: An analysis of the scholarly literature in biology, computer science and computational biology.

Author

Kevin S. Bonham and Melanie I. Stefan

Published

2017

8. Extensive horizontal gene transfer in cheese-associated bacteria

Author

Kevin S Bonham, Benjamin E Wolfe, and Rachel J Dutton

Subjects

Microbial communities, Cheese, Horizontal Gene Transfer, Siderophores, Model systems for microbial communities, Medicine, Science, Biology (General), QH301-705.5

Abstract

Acquisition of genes through horizontal gene transfer (HGT) allows microbes to rapidly gain new capabilities and adapt to new or changing environments. Identifying widespread HGT regions within multispecies microbiomes can pinpoint the molecular mechanisms that play key roles in microbiome assembly. We sought to identify horizontally transferred genes within a model microbiome, the cheese rind. Comparing 31 newly sequenced and 134 previously sequenced bacterial isolates from cheese rinds, we identified over 200 putative horizontally transferred genomic regions containing 4733 protein coding genes. The largest of these regions are enriched for genes involved in siderophore acquisition, and are widely distributed in cheese rinds in both Europe and the US. These results suggest that HGT is prevalent in cheese rind microbiomes, and that identification of genes that are frequently transferred in a particular environment may provide insight into the selective forces shaping microbial communities.

Published

2017

9. Microclimate is a strong predictor of the native and invasive plant-associated soil microbiota on San Cristóbal Island, Galápagos archipelago

Author

Alexi A. Schoenborn, Sarah M. Yannarell, Caroline T. MacVicar, Noelia N. Barriga-Medina, Meng Markillie, Hugh Mitchell, Kevin S. Bonham, Antonio Leon-Reyes, Diego Riveros-Iregui, Vanja Klepac-Ceraj, and Elizabeth A. Shank

Abstract

Understanding the major drivers that influence soil bacterial and fungal communities is essential to mitigate the impacts of human activity on vulnerable ecosystems, like those found on the Galápagos Islands. Located ~1000 km off the coast of Ecuador, the volcanically formed islands are situated within distinct oceanic currents, which provide seasonal weather patterns and unique microclimates within small spatial scales across the islands. Although much is known about the impacts of human activity, such as climate change and invasive plant species, on above ground biodiversity of the Galápagos Islands, little is known about the resident soil microbial communities and the drivers that shape these communities. Here, our goal was to investigate the bacterial and fungal communities found in soil located in three distinct microclimates: Mirador (arid), Cerro Alto (transition zone), and El Junco (humid), and associated with native and invasive plant types. At each site, we collected soil at three depths (rhizosphere, 5 cm, and 15 cm) associated with the invasive plant, Psidium guajava (guava), and native plant types. We determined that the sampling location (microclimate) was the strongest driver of both bacterial and fungal communities (74 and 38%, respectively), with additional minor but significant impacts from plant type and soil depth. This study highlights the continued need to explore microbial communities across diverse environments and demonstrates the weight of different abiotic and biotic factors impacting soil microbial communities across San Cristóbal Island in the Galápagos archipelago.IMPORTANCE/SIGNIFICANCEHuman activity such as climate change, pollution, introduction of invasive species, and deforestation, poses a huge threat to biodiverse environments. Soil microbiota are an essential component to maintaining healthy ecosystems. However, a greater understanding of factors that alter these microbial communities is needed in order to find ways to mitigate and reverse the impacts imposed by human activity. The Galápagos Islands are a unique real-world laboratory, in that the islands’ biogeography and physical locations in the Pacific Ocean provide distinct microclimates within small geographic distances. Harnessing these distinct environments allowed us to investigate the influence of microclimates, soil depth, and vegetation cover on bacterial and fungal community composition.

Published

2022

10. Targeted High-Resolution Taxonomic Identification of

Author

Lauren, Tso, Kevin S, Bonham, Alyssa, Fishbein, Sophie, Rowland, and Vanja, Klepac-Ceraj

Subjects

child development, metagenomics, Milk, Human, Infant, Newborn, food and beverages, Infant, Oligosaccharides, comparative genomics, Bifidobacterium longum, Article, human milk oligosaccharide metabolizing genes, metabolic potential, Gastrointestinal Microbiome, Cohort Studies, Feces, Bifidobacterium infantis, Breast Feeding, Bacterial Proteins, Genes, Bacterial, Humans, pediatric cohort

Abstract

Bifidobacterium longum subsp. infantis (B. infantis) is one of a few microorganisms capable of metabolizing human breast milk and is a pioneer colonizer in the guts of breastfed infants. One current challenge is differentiating B. infantis from its close relatives, B. longum and B. suis. All three organisms are classified in the same species group but only B. infantis can metabolize human milk oligosaccharides (HMOs). We compared HMO-metabolizing genes across different Bifidobacterium genomes and developed B. infantis-specific primers to determine if the genes alone or the primers can be used to quickly characterize B. infantis. We showed that B. infantis is uniquely identified by the presence of five HMO-metabolizing gene clusters, tested for its prevalence in infant gut metagenomes, and validated the results using the B. infantis-specific primers. We observed that only 15 of 203 (7.4%) children under 2 years old from a cohort of US children harbored B. infantis. These results highlight the importance of developing and improving approaches to identify B. infantis. A more accurate characterization may provide insights into regional differences of B. infantis prevalence in infant gut microbiota.

Published

2021

11. Family SES Is Associated with the Gut Microbiome in Infants and Children

Author

Kevin S. Bonham, Alexandra Volpe, Vanja Klepac-Ceraj, Shelley Hoeft McCann, Matt De Both, Sean C.L. Deoni, Matthew J. Huentelman, Kathryn Lemery-Chalfant, Candace R. Lewis, Viren D'Sa, Sarah K. Highlander, and Marcus Naymik

Subjects

0301 basic medicine, Microbiology (medical), food.ingredient, QH301-705.5, Beta diversity, Breastfeeding, microbiome, Biology, Microbiology, Article, socioeconomic status, 03 medical and health sciences, stress, 0302 clinical medicine, food, Anaerostipes, Virology, Microbiome, Early childhood, Biology (General), Socioeconomic status, childhood, Lachnospiraceae, Social environment, infant, 030104 developmental biology, 030217 neurology & neurosurgery, Demography

Abstract

Background: While early life exposures such as mode of birth, breastfeeding, and antibiotic use are established regulators of microbiome composition in early childhood, recent research suggests that the social environment may also exert influence. Two recent studies in adults demonstrated associations between socioeconomic factors and microbiome composition. This study expands on this prior work by examining the association between family socioeconomic status (SES) and host genetics with microbiome composition in infants and children. Methods: Family SES was used to predict a latent variable representing six genera abundances generated from whole-genome shotgun sequencing. A polygenic score derived from a microbiome genome-wide association study was included to control for potential genetic associations. Associations between family SES and microbiome diversity were assessed. Results: Anaerostipes, Bacteroides, Eubacterium, Faecalibacterium, and Lachnospiraceae spp. significantly loaded onto a latent factor, which was significantly predicted by SES (p &lt, 0.05) but not the polygenic score (p &gt, 0.05). Our results indicate that SES did not predict alpha diversity but did predict beta diversity (p &lt, 0.001). Conclusions: Our results demonstrate that modifiable environmental factors influence gut microbiome composition at an early age. These results are important as our understanding of gut microbiome influences on health continue to expand.

Published

2021

12. Multi-omics of the gut microbial ecosystem in inflammatory bowel diseases

Author

Nadim J. Ajami, Gholamali Rahnavard, Melanie Schirmer, Ashwin N. Ananthakrishnan, Kevin S. Bonham, Lee A. Denson, Clary B. Clish, Kathleen Lake, Yoshiki Vázquez-Baeza, Dermot P.B. McGovern, David Casero, Dmitry Shungin, Jonathan Braun, Antonio Gonzalez, Mahadev Prasad, Thomas G. Graeber, Joseph F. Petrosino, Carol J. Landers, Damian R. Plichta, Hera Vlamakis, Subra Kugathasan, Jenny S. Sauk, Janet K. Jansson, Elizabeth Andrews, Rob Knight, A. Brantley Hall, Harland S. Winter, Richard A. White, Curtis Huttenhower, Himel Mallick, Colin J. Brislawn, Tiffany W. Poon, Holly Courtney, Eric A. Franzosa, Julian Avila-Pacheco, Thaddeus S. Stappenbeck, Jason Lloyd-Price, Ramnik J. Xavier, and Cesar Arze

Subjects

Proteomics, 0301 basic medicine, Systems analysis, Disease, Biology, Inflammatory bowel disease, Article, Clostridia, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, Biopsy, medicine, Animals, Humans, Ecosystem, Phylogeny, Multidisciplinary, medicine.diagnostic_test, Fungi, Obligate anaerobe, Inflammatory Bowel Diseases, medicine.disease, biology.organism_classification, Ulcerative colitis, Gastrointestinal Microbiome, 3. Good health, Crohn's disease, 030104 developmental biology, Health, Viruses, Immunology, 030211 gastroenterology & hepatology, Microbiome, Transcriptome, Dysbiosis, Biomarkers, Human Microbiome Project

Abstract

Inflammatory bowel diseases, which include Crohn’s disease and ulcerative colitis, affect several million individuals worldwide. Crohn’s disease and ulcerative colitis are complex diseases that are heterogeneous at the clinical, immunological, molecular, genetic, and microbial levels. Individual contributing factors have been the focus of extensive research. As part of the Integrative Human Microbiome Project (HMP2 or iHMP), we followed 132 subjects for one year each to generate integrated longitudinal molecular profiles of host and microbial activity during disease (up to 24 time points each; in total 2,965 stool, biopsy, and blood specimens). Here we present the results, which provide a comprehensive view of functional dysbiosis in the gut microbiome during inflammatory bowel disease activity. We demonstrate a characteristic increase in facultative anaerobes at the expense of obligate anaerobes, as well as molecular disruptions in microbial transcription (for example, among clostridia), metabolite pools (acylcarnitines, bile acids, and short-chain fatty acids), and levels of antibodies in host serum. Periods of disease activity were also marked by increases in temporal variability, with characteristic taxonomic, functional, and biochemical shifts. Finally, integrative analysis identified microbial, biochemical, and host factors central to this dysregulation. The study’s infrastructure resources, results, and data, which are available through the Inflammatory Bowel Disease Multi’omics Database (http://ibdmdb.org), provide the most comprehensive description to date of host and microbial activities in inflammatory bowel diseases., The Inflammatory Bowel Disease Multi’omics Database includes longitudinal data encompassing a multitude of analyses of stool, blood and biopsies of more than 100 individuals, and provides a comprehensive description of host and microbial activities in inflammatory bowel diseases.

Published

2019

13. Deep-sea microbes as tools to refine the rules of innate immune pattern recognition

Author

Randi D. Rotjan, Jonathan C. Kagan, Timothy M. Shank, Kevin S. Bonham, Robert K. Ernst, David R. Goodlett, Erik E. Cordes, Richard J.H. Smith, Valentina Poli, Francesca M. Gardner, Anna E. Gauthier, Ivan Zanoni, Aranteiti Tekiau, Courtney E. Chandler, and Steven J. Biller

Subjects

0301 basic medicine, Aquatic Organisms, Lipopolysaccharide, Oceans and Seas, 030106 microbiology, Immunology, Biology, Article, Cell Line, Cell wall, Mice, 03 medical and health sciences, chemistry.chemical_compound, Immune system, Species Specificity, Animals, Humans, Seawater, Receptor, Innate immune system, Host Microbial Interactions, business.industry, Microbiota, Pattern recognition receptor, Pattern recognition, General Medicine, biology.organism_classification, 030104 developmental biology, chemistry, Receptors, Pattern Recognition, Pattern recognition (psychology), Artificial intelligence, Water Microbiology, business, Biomarkers, Bacteria

Abstract

The assumption of near-universal bacterial detection by pattern recognition receptors is a foundation of immunology. The limits of this pattern recognition concept, however, remain undefined. As a test of this hypothesis, we determined whether mammalian cells can recognize bacteria that they have never had the natural opportunity to encounter. These bacteria were cultivated from the deep Pacific Ocean, where the genus Moritella was identified as a common constituent of the culturable microbiota. Most deep-sea bacteria contained cell wall lipopolysaccharide (LPS) structures that were expected to be immunostimulatory, and some deep-sea bacteria activated inflammatory responses from mammalian LPS receptors. However, LPS receptors were unable to detect 80% of deep-sea bacteria examined, with LPS acyl chain length being identified as a potential determinant of immunosilence. The inability of immune receptors to detect most bacteria from a different ecosystem suggests that pattern recognition strategies may be defined locally, not globally.

Published

2021

14. Gut-resident microorganisms and their genes are associated with cognition and neuroanatomy in children

Author

Muriel M.K. Bruchhage, Lexie Volpe, Curtis Huttenhower, Sean C.L. Deoni, Vanja Klepac-Ceraj, Kellyn Dyer, Sophie Rowland, Kevin S. Bonham, and Viren D'Sa

Subjects

0303 health sciences, Cerebellum, Central nervous system, Glutamate receptor, Cognition, Biology, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Ruminococcus gnavus, medicine, Autism, Microbiome, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology, Neuroanatomy

Abstract

The gastrointestinal tract, its resident microorganisms, and the central nervous system are connected by biochemical signaling, also known as "microbiome-gut-brain-axis." Both the human brain and the gut microbiome have critical developmental windows in the first years of life, raising the possibility that their development is co-occurring and likely co-dependent. Emerging evidence implicates gut microorganisms and microbiota composition in cognitive outcomes and neurodevelopmental disorders (e.g., autism and anxiety), but the influence of gut microbial metabolism on typical neurodevelopment has not been explored in detail. We investigated the relationship of the microbiome with the neuroanatomy and cognitive function of 361 healthy children, demonstrating that differences in gut microbial taxa and gene functions are associated with overall cognitive function and with differences in the size of multiple brain regions. Using a combination of multivariate linear and machine learning (ML) models, we showed that many species, including Gordonibacter pamelae and Blautia wexlerae, were significantly associated with higher cognitive function, while some species such as Ruminococcus gnavus were more commonly found in children with low cognitive scores after controlling for sociodemographic factors. Microbial genes for enzymes involved in the metabolism of neuroactive compounds, particularly short-chain fatty acids such as acetate and propionate, were also associated with cognitive function. In addition, ML models were able to use microbial taxa to predict the volume of brain regions, and many taxa that were identified as important in predicting cognitive function also dominated the feature importance metric for individual brain regions. For example, B. wexlerae was the most important species in models predicting the size of the parahippocampal region in both the left and right hemispheres, while several species from the phylum Bacteroidetes, including GABA-producing B. ovatus, were important for predicting the size of the left accumbens area, but not the right. These findings provide potential biomarkers of neurocognition and brain development and may lead to the future development of targets for early detection and early intervention.

Published

2020

15. Microbiome.jl and BiobakeryUtils.jl - Julia packages for working with microbial community data

Author

Annelle Abatoni Kayisire, Vanja Klepac-Ceraj, Kevin S. Bonham, and Anika S. Luo

Subjects

Microbial population biology, Ecology, Microbiome, Biology

Published

2021

16. The Prevotella copri complex comprises four distinct clades that are underrepresented in Westernised populations

Author

Federica Armanini, John Lusingu, Maria Carmen Collado, Francesco Asnicar, Paolo Manghi, Kevin S. Bonham, Thomas Rattei, Francesca De Filippis, Nicola Segata, Frank Maixner, Dan R. Littman, Omar Rota-Stabelli, Richard Bonneau, Lars Engstrand, Adrian Tett, Cara Magnabosco, Nicolai Karcher, Albert Zink, Kun D. Huang, Moreno Zolfo, Karl J. Reinhard, Danilo Ercolini, Edoardo Pasolli, Hannah Fehlner-Peach, John H Amuasi, Daniel Eibach, Curtis Huttenhower, and Fredrik Boulund

Subjects

0303 health sciences, 03 medical and health sciences, Global population, 0302 clinical medicine, Human gut, Evolutionary biology, Prevotella copri, Biology, Clade, Genome, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Prevotella copri is a common inhabitant of the human gut. Interest in P. copri has gathered pace due to conflicting reports on whether it is beneficial or detrimental to health. In a cross-continent meta-analysis exploiting >6,500 available metagenomes supported by new isolate sequencing and recovery of high-quality genomes from metagenomes, we obtained >1,000 P. copri genomes. This 100-fold increase over existing isolate genomes allowed the genetic and global population structure of P. copri to be explored at an unprecedented depth. We demonstrate P. copri is not a monotypic species, but encompasses four distinct clades (>10% inter-clade vs. P. copri complex, comprising clades A, B, C and D. We show the complex is near ubiquitous in non-Westernised populations (95.4% versus 29.6% in Westernised populations), where all four clades are typically co-present within an individual (61.6% of the cases), in contrast to Westernised populations (4.6%). Genomic analysis of the complex reveals substantial and complementary functional diversity, including the potential for utilisation of complex carbohydrates, suggestive that multi-generational dietary modifications may be a driver for the reduced P. copri prevalence in Westernised populations. Analysis of ancient stool microbiomes highlights a similar pattern of P. copri presence consistent with modern non-Westernised populations, allowing us to estimate the time of clade delineation to pre-date human migratory waves out of Africa. Our analysis reveals P. copri to be far more diverse than previously appreciated and this diversity appears to be underrepresented in Western-lifestyle populations.

Published

2019

17. Women are underrepresented in computational biology:An analysis of the scholarly literature in biology, computer science and computational biology

Author

Melanie I. Stefan and Kevin S. Bonham

Subjects

0301 basic medicine, Science and Technology Workforce, Computer science, Social Sciences, Careers in Research, Quantitative biology, 0302 clinical medicine, Sociology, lcsh:QH301-705.5, Information Science, Ecology, Impact factor, Career Choice, Publications, Social Communication, Research Assessment, Gender balance, Professions, Computational Theory and Mathematics, Social Networks, Modeling and Simulation, Engineering and Technology, Science policy, Female, Network Analysis, Research Article, Computer and Information Sciences, Science Policy, MEDLINE, Computational biology, Biology, Bibliometrics, Research and Analysis Methods, Information science, Sexual and Gender Issues, 03 medical and health sciences, Cellular and Molecular Neuroscience, Genetics, Journal Article, Humans, Women, Sex Distribution, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Interdisciplinarity, Scientific Publishing, Computational Biology, Biology and Life Sciences, Authorship, Communications, 030104 developmental biology, lcsh:Biology (General), People and Places, Scientists, Population Groupings, Social Media, 030217 neurology & neurosurgery

Abstract

While women are generally underrepresented in STEM fields, there are noticeable differences between fields. For instance, the gender ratio in biology is more balanced than in computer science. We were interested in how this difference is reflected in the interdisciplinary field of computational/quantitative biology. To this end, we examined the proportion of female authors in publications from the PubMed and arXiv databases. There are fewer female authors on research papers in computational biology, as compared to biology in general. This is true across authorship position, year, and journal impact factor. A comparison with arXiv shows that quantitative biology papers have a higher ratio of female authors than computer science papers, placing computational biology in between its two parent fields in terms of gender representation. Both in biology and in computational biology, a female last author increases the probability of other authors on the paper being female, pointing to a potential role of female PIs in influencing the gender balance., Author summary There are fewer women than men working in Science, Technology, Engineering and Mathematics (STEM). However, some fields within STEM are more gender-balanced than others. For instance, biology has a relatively high proportion of women, whereas there are few women in computer science. But what about computational biology? As an interdisciplinary STEM field, would its gender balance be close to one of its “parent” fields, or in between the two? To investigate this question, we examined authorship data from databases of scholarly publications in biology, computational biology, and computer science. We found that computational biology lies in between computer science and biology, as far as female representation goes. This is independent of other factors, e.g. year of publication. This suggests that computational biology might provide an environment that is more conducive to female participation that other areas of computer science. Across all three fields, we also found that if the last author on a publication—usually the person leading the study—is a women, then there will also be more women in other authorship positions. This suggests that having women in leadership positions might be beneficial for overall gender balance, though our data do not allow us to uncover the underlying mechanism.

Published

2017

18. Author response: Extensive horizontal gene transfer in cheese-associated bacteria

Author

Kevin S. Bonham, Rachel J. Dutton, and Benjamin E. Wolfe

Subjects

Horizontal gene transfer, Associated bacteria, Biology, Microbiology

Published

2017

19. The Prevotella copri Complex Comprises Four Distinct Clades Underrepresented in Westernized Populations

Author

Edoardo Pasolli, Richard Bonneau, Francesca De Filippis, Albert Zink, Cara Magnabosco, Lars Engstrand, Adrian Tett, Karl J. Reinhard, Nicolai Karcher, Dan R. Littman, Daniel Eibach, Fredrik Boulund, Francesco Asnicar, Paolo Manghi, John Lusingu, Thomas Rattei, Kevin S. Bonham, Nicola Segata, Omar Rota-Stabelli, Danilo Ercolini, Curtis Huttenhower, John H Amuasi, Frank Maixner, Hannah Fehlner-Peach, Kun D. Huang, Moreno Zolfo, Federica Armanini, Maria Carmen Collado, Tett, Adrian, Huang, Kun D, Asnicar, Francesco, Fehlner-Peach, Hannah, Pasolli, Edoardo, Karcher, Nicolai, Armanini, Federica, Manghi, Paolo, Bonham, Kevin, Zolfo, Moreno, De Filippis, Francesca, Magnabosco, Cara, Bonneau, Richard, Lusingu, John, Amuasi, John, Reinhard, Karl, Rattei, Thoma, Boulund, Fredrik, Engstrand, Lar, Zink, Albert, Collado, Maria Carmen, Littman, Dan R, Eibach, Daniel, Ercolini, Danilo, Rota-Stabelli, Omar, Huttenhower, Curti, Maixner, Frank, Segata, Nicola, and European Research Council

Subjects

Bacterial phylogenetics, bacterial pangenome, Westernization, gut microbe, Biology, Human microbiome, Microbiology, Genome, Settore MED/07 - MICROBIOLOGIA E MICROBIOLOGIA CLINICA, Article, 03 medical and health sciences, 0302 clinical medicine, Iceman, Virology, Metagenomic assembly, Bacterial pangenome, 10. No inequality, Clade, ancient DNA, 030304 developmental biology, metagenomics, 0303 health sciences, Ancient DNA, Host (biology), Gut microbes, human microbiome, Comparative microbial genomics, comparative microbial genomic, Genetic divergence, bacterial phylogenetic, Evolutionary biology, Metagenomics, Prevotella copri, metagenomic assembly, Parasitology, 030217 neurology & neurosurgery

Abstract

Summary Prevotella copri is a common human gut microbe that has been both positively and negatively associated with host health. In a cross-continent meta-analysis exploiting >6,500 metagenomes, we obtained >1,000 genomes and explored the genetic and population structure of P. copri. P. copri encompasses four distinct clades (>10% inter-clade genetic divergence) that we propose constitute the P. copri complex, and all clades were confirmed by isolate sequencing. These clades are nearly ubiquitous and co-present in non-Westernized populations. Genomic analysis showed substantial functional diversity in the complex with notable differences in carbohydrate metabolism, suggesting that multi-generational dietary modifications may be driving reduced prevalence in Westernized populations. Analysis of ancient metagenomes highlighted patterns of P. copri presence consistent with modern non-Westernized populations and a clade delineation time pre-dating human migratory waves out of Africa. These findings reveal that P. copri exhibits a high diversity that is underrepresented in Western-lifestyle populations., Graphical Abstract, Highlights • P. copri is not a monotypic species but composed of four distinct clades • The P. copri complex is more prevalent in populations with non-Westernized lifestyles • P. copri clades are frequently co-present within non-Westernized individuals • Ancient stool samples suggest Westernization leads to P. copri underrepresentation, Tett et al. find that the intestinal microbe Prevotella copri encompasses four distinct clades constituting the P. copri complex. The complex is prevalent in non-Westernized populations where co-presence of all clades is commonly observed within individuals. Analysis of ancient stool samples supports Westernization as contributing to reduced P. copri prevalence.

Published

2019

20. Gender disparity in computational biology research publications

Author

Kevin S. Bonham and Melanie I. Stefan

Subjects

Impact factor, Computer science, Computational biology, Quantitative biology, Gender disparity, Interdisciplinarity

Abstract

While women are generally underrepresented in STEM fields, there are noticeable differences between fields. For instance, the gender ratio in biology is more balanced than in computer science. We were interested in how this difference is reflected in the interdisciplinary field of computational/quantitative biology. To this end, we examined the proportion of female authors in publications from the PubMed and arXiv databases. There are fewer female authors on research papers in computational biology, as compared to biology in general. This is true across authorship position, year, and journal impact factor. A comparison with arXiv shows that quantitative biology papers have a higher ratio of female authors than computer science papers, placing computational biology in between its two parent fields in terms of gender representation. Both in biology and in computational biology, a female last author increases the probability of other authors on the paper being female, pointing to a potential role of female PIs in influencing the gender balance.

Published

2016

21. Effects of a novel arginine methyltransferase inhibitor on T-helper cell cytokine production

Author

M. G. Finn, Yeon-Hee Lim, Dawn M. Hill, Kerri A. Mowen, Saskia Hemmers, and Kevin S. Bonham

Subjects

chemistry.chemical_classification, Cell growth, Protein-Arginine N-Methyltransferases, Cell Biology, T helper cell, Methylation, Biology, Biochemistry, medicine.anatomical_structure, Enzyme, Histone, chemistry, medicine, biology.protein, Structure–activity relationship, Molecular Biology, Interleukin 4

Abstract

The protein arginine methyltransferase (PRMT) family of enzymes catalyzes the transfer of methyl groups from S-adenosylmethionine to the guanidino nitrogen atom of peptidylarginine to form monomethylarginine or dimethylarginine. We created several less polar analogues of the specific PRMT inhibitor AMI-1, and one such compound was found to have improved PRMT inhibitory activity over the parent molecule. The newly identified PRMT inhibitor modulated T helper cell function and thus may serve as a lead for further inhibitors useful for immune-mediated disease treatment.

Published

2010

22. Innate Immune Pattern Recognition: A Cell Biological Perspective

Author

Sky W. Brubaker, Ivan Zanoni, Jonathan C. Kagan, Kevin S. Bonham, Brubaker, S, Bonham, K, Zanoni, I, and Kagan, J

Subjects

Innate immunity, Innate immune system, Cell Membrane, Immunology, Cell, Innate lymphoid cell, Pattern recognition receptor, CCL18, Endosomes, Biology, Ligands, Immunity, Innate, Article, Biosynthetic Pathways, Cell biology, Immune system, medicine.anatomical_structure, Receptors, Pattern Recognition, medicine, Animals, Humans, Immunology and Allergy, Signal transduction, Receptor, Signal Transduction

Abstract

Receptors of the innate immune system detect conserved determinants of microbial and viral origin. Activation of these receptors initiates signaling events that culminate in an effective immune response. Recently, the view that innate immune signaling events rely on and operate within a complex cellular infrastructure has become an important framework for understanding the regulation of innate immunity. Compartmentalization within this infrastructure provides the cell with the ability to assign spatial information to microbial detection and regulate immune responses. Several cell biological processes play a role in the regulation of innate signaling responses; at the same time, innate signaling can engage cellular processes as a form of defense or to promote immunological memory. In this review, we highlight these aspects of cell biology in pattern-recognition receptor signaling by focusing on signals that originate from the cell surface, from endosomal compartments, and from within the cytosol.

Published

2015

23. A promiscuous lipid-binding protein diversifies the subcellular sites of toll-like receptor signal transduction

Author

Amaya I. Wolf, Wolfgang Weninger, Kevin S. Bonham, Kachiko Hayashi, Akiko Iwasaki, David M. Knipe, Megan H. Orzalli, Jonathan C. Kagan, and Christoph Glanemann

Subjects

TIRAP, Endosome, Endosomes, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Proinflammatory cytokine, 03 medical and health sciences, 0302 clinical medicine, Animals, Receptor, 030304 developmental biology, 0303 health sciences, Toll-like receptor, Innate immune system, Membrane Glycoproteins, Biochemistry, Genetics and Molecular Biology(all), Macrophages, Cell Membrane, Toll-Like Receptors, Receptors, Interleukin-1, Herpes Simplex, Immunity, Innate, Cell biology, Mice, Inbred C57BL, Myeloid Differentiation Factor 88, Signal transduction, 030215 immunology, Signal Transduction

Abstract

SummaryThe Toll-like receptors (TLRs) of the innate immune system are unusual in that individual family members are located on different organelles, yet most activate a common signaling pathway important for host defense. It remains unclear how this common signaling pathway can be activated from multiple subcellular locations. Here, we report that, in response to natural activators of innate immunity, the sorting adaptor TIRAP regulates TLR signaling from the plasma membrane and endosomes. TLR signaling from both locations triggers the TIRAP-dependent assembly of the myddosome, a protein complex that controls proinflammatory cytokine expression. The actions of TIRAP depend on the promiscuity of its phosphoinositide-binding domain. Different lipid targets of this domain direct TIRAP to different organelles, allowing it to survey multiple compartments for the presence of activated TLRs. These data establish how promiscuity, rather than specificity, can be a beneficial means of diversifying the subcellular sites of innate immune signal transduction.

Published

2013

24. NIP45 controls the magnitude of the type 2 T helper cell response

Author

John W. Fathman, Kevin S. Bonham, Kerri A. Mowen, Laurie H. Glimcher, Saskia Hemmers, Michael J. Grusby, Daniel S. Friend, and Michael F. Gurish

Subjects

Protein-Arginine N-Methyltransferases, T cell, Biology, Arginine, Methylation, Histones, Mice, Th2 Cells, medicine, Animals, Enhancer, Promoter Regions, Genetic, Transcription factor, Trichinella spiralis, Regulation of gene expression, Multidisciplinary, NFATC Transcription Factors, Protein arginine methyltransferase 5, Intracellular Signaling Peptides and Proteins, Nuclear Proteins, NFAT, Trichinellosis, T helper cell, Biological Sciences, Chromatin Assembly and Disassembly, Molecular biology, Mice, Mutant Strains, medicine.anatomical_structure, Gene Expression Regulation, Cytokines, Interleukin-4, Gene Deletion

Abstract

Nuclear factor of activated T cell (NFAT) transcription factors are key regulators of gene transcription within immune cells. The NFAT-interacting protein, (NIP45), augments NFAT-driven IL-4 expression by a mechanism that relies on arginine methylation. To establish the function of NIP45 in vivo, we generated mice with a targeted deletion of the gene encoding this cofactor.NIP45-deficient T helper cells displayed profound defects in the expression of NFAT-regulated cytokine genes, including IL-4. WhereasNIP45deficiency does not interfere with T helper cell NFAT activation or lineage-specific transcription-factor expression, NIP45 acts as an enhancer for the assembly of protein arginine methyltransferase 1 and the protein arginine methyltransferase 1-linked histone 4 arginine 3 methylation with the IL-4 promoter. Our study reveals an essential role for NIP45 in promoting robust cytokine expression in vivo, which is required for the efficient handling of parasites. We propose that NIP45 acts as a molecular rheostat serving to amplify the type-2 immune response.

Published

2010

25. Endosomes as Platforms for NOD-like Receptor Signaling

Author

Kevin S. Bonham and Jonathan C. Kagan

Subjects

Cancer Research, Cell signaling, Innate immune system, Endosome, Nod2 Signaling Adaptor Protein, NOD-like receptor, Endosomes, Intracellular Membranes, Biology, Microbiology, Article, Cell biology, Immunology and Microbiology(all), Virology, Nod1 Signaling Adaptor Protein, NOD1, Humans, Parasitology, Signal transduction, Receptor, Molecular Biology, Signal Transduction

Abstract

The NOD-like receptors (NLRs) were among the first innate immune receptors discovered, yet a clear understanding of the basic principles underlying their mechanisms of action is lacking. Two recent studies provide important cell biological insights into the subcellular sites of NOD1- and NOD2-dependent signaling.