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1. P841: Recruitment, consent and DNA sample acquisition in a US precision health cohort during the COVID-19 pandemic

Author

Allyson Derry, Yvette Strong, Davia Schioppo, Joni Cotter, Geisa Wilkins, Laura Siqueiros, Andrea Ouyang, Kathleen Hulseman, Joseph Petrosino, Lorrin Liang, Megan Stevenson, Tiffany Aguilera, Alexandria Soto, Katherine Meurer, Alison Herman, Inessa Cohen, Guido Falcone, Erin Longbrake, Cassius Ochoa Chaar, Kelly Anastasio, and Michael Murray

Subjects
Genetics, QH426-470, Medicine
Published
2024
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2. GPR43 stimulation on TCRαβ+ intraepithelial colonic lymphocytes inhibits the recruitment of encephalitogenic T-cells into the central nervous system and attenuates the development of autoimmunity

Author

Carolina Prado, Alexandra Espinoza, J. Eduardo Martínez-Hernández, Joseph Petrosino, Erick Riquelme, Alberto J. M. Martin, and Rodrigo Pacheco

Subjects
Short-chain fatty acids, GPR43, Mucosal immunity, Gut-brain axis, Neuroinflammation, Experimental autoimmune encephalomyelitis, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Introduction Gut microbiota plays a critical role in the regulation of immune homeostasis. Accordingly, several autoimmune disorders have been associated with dysbiosis in the gut microbiota. Notably, the dysbiosis associated with central nervous system (CNS) autoimmunity involves a substantial reduction of bacteria belonging to Clostridia clusters IV and XIVa, which constitute major producers of short-chain fatty acids (SCFAs). Here we addressed the role of the surface receptor-mediated effects of SCFAs on mucosal T-cells in the development of CNS autoimmunity. Methods To induce CNS autoimmunity, we used the mouse model of experimental autoimmune encephalomyelitis (EAE) induced by immunization with the myelin oligodendrocyte glycoprotein (MOG)-derived peptide (MOG35-55 peptide). To address the effects of GPR43 stimulation on colonic TCRαβ+ T-cells upon CNS autoimmunity, mucosal lymphocytes were isolated and stimulated with a selective GPR43 agonist ex vivo and then transferred into congenic mice undergoing EAE. Several subsets of lymphocytes infiltrating the CNS or those present in the gut epithelium and gut lamina propria were analysed by flow cytometry. In vitro migration assays were conducted with mucosal T-cells using transwells. Results Our results show a sharp and selective reduction of intestinal propionate at the peak of EAE development, accompanied by increased IFN-γ and decreased IL-22 in the colonic mucosa. Further analyses indicated that GPR43 was the primary SCFAs receptor expressed on T-cells, which was downregulated on colonic TCRαβ+ T-cells upon CNS autoimmunity. The pharmacologic stimulation of GPR43 increased the anti-inflammatory function and reduced the pro-inflammatory features in several TCRαβ+ T-cell subsets in the colonic mucosa upon EAE development. Furthermore, GPR43 stimulation induced the arrest of CNS-autoreactive T-cells in the colonic lamina propria, thus avoiding their infiltration into the CNS and dampening the disease development. Mechanistic analyses revealed that GPR43-stimulation on mucosal TCRαβ+ T-cells inhibits their CXCR3-mediated migration towards CXCL11, which is released from the CNS upon neuroinflammation. Conclusions These findings provide a novel mechanism involved in the gut-brain axis by which bacterial-derived products secreted in the gut mucosa might control the CNS tropism of autoreactive T-cells. Moreover, this study shows GPR43 expressed on T-cells as a promising therapeutic target for CNS autoimmunity.

Published
2023
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3. Estradiol mediates colonic epithelial protection in aged mice after stroke and is associated with shifts in the gut microbiome

Author

Juneyoung Lee, Pedram Peesh, Victoria Quaicoe, Chunfeng Tan, Anik Banerjee, Patrick Mooz, Bhanu P. Ganesh, Joseph Petrosino, Robert M. Bryan, Louise D. McCullough, and Venugopal Reddy Venna

Subjects
Ischemic stroke, gut epithelium, gut-brain axis, sex differences, aging, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

ABSTRACTThe gut is a major source of bacteria and antigens that contribute to neuroinflammation after brain injury. Colonic epithelial cells (ECs) are responsible for secreting major cellular components of the innate defense system, including antimicrobial proteins (AMP) and mucins. These cells serve as a critical regulator of gut barrier function and maintain host-microbe homeostasis. In this study, we determined post-stroke host defense responses at the colonic epithelial surface in mice. We then tested if the enhancement of these epithelial protective mechanisms is beneficial in young and aged mice after stroke. AMPs were significantly increased in the colonic ECs of young males, but not in young females after experimental stroke. In contrast, mucin-related genes were enhanced in young females and contributed to mucus formation that maintains the distance between the host and gut bacteria. Bacterial community profiling was done using universal amplification of 16S rRNA gene sequences. The sex-specific colonic epithelial defense responses after stroke in young females were reversed with ovariectomy and led to a shift from a predominately mucin response to the enhanced AMP expression seen in males after stroke. Estradiol (E2) replacement prior to stroke in aged females increased mucin gene expression in the colonic ECs. Interestingly, we found that E2 treatment reduced stroke-associated neuronal hyperactivity in the insular cortex, a brain region that interacts with visceral organs such as the gut, in parallel to an increase in the composition of Lactobacillus and Bifidobacterium in the gut microbiota. This is the first study demonstrating sex differences in host defense mechanisms in the gut after brain injury.

Published
2023
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5. Wastewater pandemic preparedness: Toward an end-to-end pathogen monitoring program

Author

Justin R. Clark, Austen Terwilliger, Vasanthi Avadhanula, Michael Tisza, Juwan Cormier, Sara Javornik-Cregeen, Matthew Clayton Ross, Kristi Louise Hoffman, Catherine Troisi, Blake Hanson, Joseph Petrosino, John Balliew, Pedro A. Piedra, Janelle Rios, Jennifer Deegan, Cici Bauer, Fuqing Wu, Kristina D. Mena, Eric Boerwinkle, and Anthony W. Maresso

Subjects
wastewater, virus, pathogens, detection, epidemiologic, public health, Public aspects of medicine, RA1-1270
Abstract

Molecular analysis of public wastewater has great potential as a harbinger for community health and health threats. Long-used to monitor the presence of enteric viruses, in particular polio, recent successes of wastewater as a reliable lead indicator for trends in SARS-CoV-2 levels and hospital admissions has generated optimism and emerging evidence that similar science can be applied to other pathogens of pandemic potential (PPPs), especially respiratory viruses and their variants of concern (VOC). However, there are substantial challenges associated with implementation of this ideal, namely that multiple and distinct fields of inquiry must be bridged and coordinated. These include engineering, molecular sciences, temporal-geospatial analytics, epidemiology and medical, and governmental and public health messaging, all of which present their own caveats. Here, we outline a framework for an integrated, state-wide, end-to-end human pathogen monitoring program using wastewater to track viral PPPs.

Published
2023
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6. Transmission event of SARS-CoV-2 delta variant reveals multiple vaccine breakthrough infections

Author

Timothy Farinholt, Harsha Doddapaneni, Xiang Qin, Vipin Menon, Qingchang Meng, Ginger Metcalf, Hsu Chao, Marie-Claude Gingras, Vasanthi Avadhanula, Paige Farinholt, Charu Agrawal, Donna M. Muzny, Pedro A. Piedra, Richard A. Gibbs, and Joseph Petrosino

Subjects
SARS-CoV-2, Delta variant, B.1.617.2, COVID-19, Infectious disease, Medicine
Abstract

Abstract Background This study aims to identify the causative strain of SARS-CoV-2 in a cluster of vaccine breakthroughs. Vaccine breakthrough by a highly transmissible SARS-CoV-2 strain is a risk to global public health. Methods Nasopharyngeal swabs from suspected vaccine breakthrough cases were tested for SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2) by qPCR (quantitative polymerase chain reaction) for Wuhan-Hu1 and alpha variant. Positive samples were then sequenced by Swift Normalase Amplicon Panels to determine the causal variant. GATK (genome analysis toolkit) variants were filtered with allele fraction ≥80 and min read depth 30x. Results Viral sequencing revealed an infection cluster of 6 vaccinated patients infected with the delta (B.1.617.2) SARS-CoV-2 variant. With no history of vaccine breakthrough, this suggests the delta variant may possess immune evasion in patients that received the Pfizer BNT162b2, Moderna mRNA-1273, and Covaxin BBV152. Conclusions Delta variant may pose the highest risk out of any currently circulating SARS-CoV-2 variants, with previously described increased transmissibility over alpha variant and now, possible vaccine breakthrough. Funding Parts of this work was supported by the National Institute of Allergy and Infectious Diseases (1U19AI144297) and Baylor College of Medicine internal funding.

Published
2021
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8. A type VII secretion system of Streptococcus gallolyticus subsp. gallolyticus contributes to gut colonization and the development of colon tumors.

Author

John Culver Taylor, Xinsheng Gao, Juan Xu, Michael Holder, Joseph Petrosino, Ritesh Kumar, Wen Liu, Magnus Höök, Chris Mackenzie, Andrew Hillhouse, Wesley Brashear, Maria Patricia Nunez, and Yi Xu

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Streptococcus gallolyticus subspecies gallolyticus (Sgg) has a strong clinical association with colorectal cancer (CRC) and actively promotes the development of colon tumors. However, the molecular determinants involved in Sgg pathogenicity in the gut are unknown. Bacterial type VII secretion systems (T7SS) mediate pathogen interactions with their host and are important for virulence in pathogenic mycobacteria and Staphylococcus aureus. Through genome analysis, we identified a locus in Sgg strain TX20005 that encodes a putative type VII secretion system (designated as SggT7SST05). We showed that core genes within the SggT7SST05 locus are expressed in vitro and in the colon of mice. Western blot analysis showed that SggEsxA, a protein predicted to be a T7SS secretion substrate, is detected in the bacterial culture supernatant, indicating that this SggT7SST05 is functional. Deletion of SggT7SST05 (TX20005Δesx) resulted in impaired bacterial adherence to HT29 cells and abolished the ability of Sgg to stimulate HT29 cell proliferation. Analysis of bacterial culture supernatants suggest that SggT7SST05-secreted factors are responsible for the pro-proliferative activity of Sgg, whereas Sgg adherence to host cells requires both SggT7SST05-secreted and bacterial surface-associated factors. In a murine gut colonization model, TX20005Δesx showed significantly reduced colonization compared to the parent strain. Furthermore, in a mouse model of CRC, mice exposed to TX20005 had a significantly higher tumor burden compared to saline-treated mice, whereas those exposed to TX20005Δesx did not. Examination of the Sgg load in the colon in the CRC model suggests that SggT7SST05-mediated activities are directly involved in the promotion of colon tumors. Taken together, these results reveal SggT7SST05 as a previously unrecognized pathogenicity determinant for Sgg colonization of the colon and promotion of colon tumors.

Published
2021
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9. Decrease in acetyl-CoA pathway utilizing butyrate-producing bacteria is a key pathogenic feature of alcohol-induced functional gut microbial dysbiosis and development of liver disease in mice

Author

Richa Singhal, Hridgandh Donde, Smita Ghare, Kendall Stocke, Jingwein Zhang, Manicka Vadhanam, Sreelatha Reddy, Leila Gobejishvili, Paula Chilton, Swati Joshi-Barve, Wenke Feng, Craig McClain, Kristi Hoffman, Joseph Petrosino, Marius Vital, and Shirish Barve

Subjects
butyrate, alcohol, butyrate pathways, ruminococcaceae, lachnospiraceae, acetyl-coa, tributyrin, alcohol-associated liver disease, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Emerging research evidence has established the critical role of the gut-liver axis in the development of alcohol-associated liver disease (ALD). The present study employed 16S rRNA gene and whole genome shotgun (WGS) metagenomic analysis in combination with a revised microbial dataset to comprehensively detail the butyrate-producing microbial communities and the associated butyrate metabolic pathways affected by chronic ethanol feeding. Specifically, the data demonstrated that a decrease in several butyrate-producing bacterial genera belonging to distinct families within the Firmicutes phyla was a significant component of ethanol-induced dysbiosis. WGS analysis of total bacterial genomes encompassing butyrate synthesizing pathways provided the functional characteristics of the microbiome associated with butyrate synthesis. The data revealed that in control mice microbiome, the acetyl-coenzyme A (CoA) butyrate synthesizing pathway was the most prevalent and was significantly and maximally decreased by chronic ethanol feeding. Further WGS analysis i) validated the ethanol-induced decrease in the acetyl-CoA pathway by identifying the decrease in two critical genes but – (butyryl-CoA: acetate CoA transferase) and buk – (butyrate kinase) that encode the terminal condensing enzymes required for converting butyryl-CoA to butyrate and ii) detection of specific taxa of butyrate-producing bacteria containing but and buk genes. Notably, the administration of tributyrin (Tb) – a butyrate prodrug - significantly prevented ethanol-induced decrease in butyrate-producing bacteria, hepatic steatosis, inflammation, and injury. Taken together, our findings strongly suggest that the loss of butyrate-producing bacteria using the acetyl-CoA pathway is a significant pathogenic feature of ethanol-induced microbial dysbiosis and ALD and can be targeted for therapy.

Published
2021
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10. Young versus aged microbiota transplants to germ-free mice: increased short-chain fatty acids and improved cognitive performance

Author

Juneyoung Lee, Venugopal R. Venna, David J. Durgan, Huanan Shi, Jacob Hudobenko, Nagireddy Putluri, Joseph Petrosino, Louise D. McCullough, and Robert M. Bryan

Subjects
aging, gut microbiome, short-chain fatty acids, acetate, propionate, butyrate, inflammation, germ-free mice, cognitive decline, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Aging is associated with cognitive decline and decreased concentrations of short-chain fatty acids (SCFAs) in the gut. SCFAs are significant in that they are protective to the gut and other organs. We tested the hypothesis that the aged gut microbiome alone is sufficient to decrease SCFAs in the host and produce cognitive decline. Fecal transplant gavages (FTGs) from aged (18–20 months) or young (2–3 months) male C57BL/6 mice into germ-free male C57BL/6 mice (N = 11 per group) were initiated at ~3 months of age. Fecal samples were collected and behavioral testing was performed over the study period. Bacterial community structures and relative abundances were measured in fecal samples by sequencing the bacterial 16S ribosomal RNA gene. Mice with aged and young microbiomes showed clear differences in bacterial β diversity at 30, 60, and 90 d (P = .001 for each) after FTGs. The fecal SCFAs, acetate, propionate, and butyrate (microbiome effect, P

Published
2020
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11. Enteroaggregative E. coli Adherence to Human Heparan Sulfate Proteoglycans Drives Segment and Host Specific Responses to Infection.

Author

Anubama Rajan, Matthew J Robertson, Hannah E Carter, Nina M Poole, Justin R Clark, Sabrina I Green, Zachary K Criss, Boyang Zhao, Umesh Karandikar, Yikun Xing, Mar Margalef-Català, Nikhil Jain, Reid L Wilson, Fan Bai, Joseph M Hyser, Joseph Petrosino, Noah F Shroyer, Sarah E Blutt, Cristian Coarfa, Xuezheng Song, Bv Venkataram Prasad, Manuel R Amieva, Jane Grande-Allen, Mary K Estes, Pablo C Okhuysen, and Anthony W Maresso

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Enteroaggregative Escherichia coli (EAEC) is a significant cause of acute and chronic diarrhea, foodborne outbreaks, infections of the immunocompromised, and growth stunting in children in developing nations. There is no vaccine and resistance to antibiotics is rising. Unlike related E. coli pathotypes that are often associated with acute bouts of infection, EAEC is associated with persistent diarrhea and subclinical long-term colonization. Several secreted virulence factors have been associated with EAEC pathogenesis and linked to disease in humans, less certain are the molecular drivers of adherence to the intestinal mucosa. We previously established human intestinal enteroids (HIEs) as a model system to study host-EAEC interactions and aggregative adherence fimbriae A (AafA) as a major driver of EAEC adherence to HIEs. Here, we report a large-scale assessment of the host response to EAEC adherence from all four segments of the intestine across at least three donor lines for five E. coli pathotypes. The data demonstrate that the host response in the duodenum is driven largely by the infecting pathotype, whereas the response in the colon diverges in a patient-specific manner. Major pathways altered in gene expression in each of the four enteroid segments differed dramatically, with responses observed for inflammation, apoptosis and an overwhelming response to different mucin genes. In particular, EAEC both associated with large mucus droplets and specific mucins at the epithelial surface, binding that was ameliorated when mucins were removed, a process dependent on AafA. Pan-screening for glycans for binding to purified AafA identified the human ligand as heparan sulfate proteoglycans (HSPGs). Removal of HSPG abrogated EAEC association with HIEs. These results may mean that the human intestine responds remarkably different to distinct pathobionts that is dependent on the both the individual and intestinal segment in question, and uncover a major role for surface heparan sulfate proteoglycans as tropism-driving factor in adherence and/or colonization.

Published
2020
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12. Metabolomic signatures distinguish the impact of formula carbohydrates on disease outcome in a preterm piglet model of NEC

Author

Lee Call, Barbara Stoll, Berthe Oosterloo, Nadim Ajami, Fariha Sheikh, Anja Wittke, Rosaline Waworuntu, Brian Berg, Joseph Petrosino, Oluyinka Olutoye, and Douglas Burrin

Subjects
Necrotizing enterocolitis, Infant formula, Lactose, Maltodextrin, Corn syrup solids, Clostridium, Microbial ecology, QR100-130
Abstract

Abstract Background Major risk factors for necrotizing enterocolitis (NEC) include premature birth and formula feeding in the context of microbial colonization of the gastrointestinal tract. We previously showed that feeding formula composed of lactose vs. corn syrup solids protects against NEC in preterm pigs; however, the microbial and metabolic effects of these different carbohydrates used in infant formula has not been explored. Objective Our objective was to characterize the effects of lactose- and corn syrup solid-based formulas on the metabolic and microbial profiles of preterm piglets and to determine whether unique metabolomic or microbiome signatures correlate with severity or incidence of NEC. Design/methods Preterm piglets (103 days gestation) were given total parenteral nutrition (2 days) followed by gradual (5 days) advancement of enteral feeding of formulas matched in nutrient content but containing either lactose (LAC), corn syrup solids (CSS), or 1:1 mix (MIX). Gut contents and mucosal samples were collected and analyzed for microbial profiles by sequencing the V4 region of the 16S rRNA gene. Metabolomic profiles of cecal contents and plasma were analyzed by LC/GC mass spectrometry. Results NEC incidence was 14, 50, and 44% in the LAC, MIX, and CSS groups, respectively. The dominant classes of bacteria were Bacilli, Clostridia, and Gammaproteobacteria. The number of observed OTUs was lowest in colon contents of CSS-fed pigs. CSS-based formula was associated with higher Bacilli and lower Clostridium from clusters XIVa and XI in the colon. NEC was associated with decreased Gammaproteobacteria in the stomach and increased Clostridium sensu stricto in the ileum. Plasma from NEC piglets was enriched with metabolites of purine metabolism, aromatic amino acid metabolism, and bile acids. Markers of glycolysis, e.g., lactate, were increased in the cecal contents of CSS-fed pigs and in plasma of pigs which developed NEC. Conclusions Feeding formula containing lactose is not completely protective against NEC, yet selects for greater microbial richness associated with changes in Bacilli and Clostridium and lower NEC incidence. We conclude that feeding preterm piglets a corn syrup solid vs. lactose-based formula increases the incidence of NEC and produces distinct metabolomic signatures despite modest changes in microbiome profiles.

Published
2018
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13. A Community-Based Management of COVID-19 in a Mobile Container Unit

Author

Elena Petrova, Timothy Farinholt, Tejas P. Joshi, Hannah Moreno, Mayar Al Mohajer, Shital M. Patel, Joseph Petrosino, and Sharmila Anandasabapathy

Subjects
mobile clinic, relocatable medical facility, underserved community, coronavirus, vaccination, infection control, Medicine
Abstract

Vaccine uptake is a multifactor measure of successful immunization outcomes that includes access to healthcare and vaccine hesitancy for both healthcare workers and communities. The present coronavirus disease (COVID-19) pandemic has highlighted the need for novel strategies to expand vaccine coverage in underserved regions. Mobile clinics hold the promise of ameliorating such inequities, although there is a paucity of studies that validate environmental infection in such facilities. Here, we describe community-based management of COVID-19 through a Smart Pod mobile clinic deployed in an underserved community area in the United States (Aldine, Harris County, TX, USA). In particular, we validate infection control and biological decontamination of the Smart Pod by testing surfaces and the air-filtration system for the COVID-19 virus and bacterial pathogens. We show the Smart Pod to be efficacious in providing a safe clinical environment for vaccine delivery. Moreover, in the Smart Pod, up-to-date education of community healthcare workers was provided to reduce vaccine hesitancy and improve COVID-19 vaccine uptake. The proposed solution has the potential to augment existing hospital capacity and combat the COVID-19 pandemic locally and globally.

Published
2021
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14. Comparison of Methods To Collect Fecal Samples for Microbiome Studies Using Whole-Genome Shotgun Metagenomic Sequencing

Author

Doratha A. Byrd, Rashmi Sinha, Kristi L. Hoffman, Jun Chen, Xing Hua, Jianxin Shi, Nicholas Chia, Joseph Petrosino, and Emily Vogtmann

Subjects
whole-genome shotgun sequencing, microbiome, fecal sample collection method, FOBT cards, FIT tubes, Microbiology, QR1-502
Abstract

ABSTRACT Few previous studies have assessed stability and “gold-standard” concordance of fecal sample collection methods for whole-genome shotgun metagenomic sequencing (WGSS), an increasingly popular method for studying the gut microbiome. We used WGSS data to investigate ambient temperature stability and putative gold-standard concordance of microbial profiles in fecal samples collected and stored using fecal occult blood test (FOBT) cards, fecal immunochemical test (FIT) tubes, 95% ethanol, or RNAlater. Among 15 Mayo Clinic employees, for each collection method, we calculated intraclass correlation coefficients (ICCs) to estimate stability of fecal microbial profiles after storage for 4 days at ambient temperature and concordance with immediately frozen, no-solution samples (i.e., the putative gold standard). ICCs were estimated for multiple metrics, including relative abundances of select phyla, species, KEGG k-genes (representing any coding sequence that had >70% identity and >70% query coverage with respect to a known KEGG ortholog), KEGG modules, and KEGG pathways; species and k-gene alpha diversity; and Bray-Curtis and Jaccard species beta diversity. ICCs for microbial profile stability were excellent (≥90%) for fecal samples collected via most of the collection methods, except those preserved in 95% ethanol. Concordance with the immediately frozen, no-solution samples varied for all collection methods, but the number of observed species and the beta diversity metrics tended to have higher concordance than other metrics. Our findings, taken together with previous studies and feasibility considerations, indicated that FOBT cards, FIT tubes, and RNAlater are acceptable choices for fecal sample collection methods in future WGSS studies. IMPORTANCE A major direction for future microbiome research is implementation of fecal sample collections in large-scale, prospective epidemiologic studies. Studying microbiome-disease associations likely requires microbial data to be pooled from multiple studies. Our findings suggest collection methods that are most optimal to be used standardly across future WGSS microbiome studies.

Published
2020
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15. Metagenomic analyses of alcohol induced pathogenic alterations in the intestinal microbiome and the effect of Lactobacillus rhamnosus GG treatment.

Author

Lara Bull-Otterson, Wenke Feng, Irina Kirpich, Yuhua Wang, Xiang Qin, Yanlong Liu, Leila Gobejishvili, Swati Joshi-Barve, Tulin Ayvaz, Joseph Petrosino, Maiying Kong, David Barker, Craig McClain, and Shirish Barve

Subjects
Medicine, Science
Abstract

Enteric dysbiosis plays an essential role in the pathogenesis of alcoholic liver disease (ALD). Detailed characterization of the alterations in the gut microbiome is needed for understanding their pathogenic role in ALD and developing effective therapeutic approaches using probiotic supplementation. Mice were fed liquid Lieber-DeCarli diet without or with alcohol (5% v/v) for 6 weeks. A subset of mice were administered the probiotic Lactobacillus rhamnosus GG (LGG) from 6 to 8 weeks. Indicators of intestinal permeability, hepatic steatosis, inflammation and injury were evaluated. Metagenomic analysis of the gut microbiome was performed by analyzing the fecal DNA by amplification of the V3-V5 regions of the 16S rRNA gene and large-scale parallel pyrosequencing on the 454 FLX Titanium platform. Chronic ethanol feeding caused a decline in the abundance of both Bacteriodetes and Firmicutes phyla, with a proportional increase in the gram negative Proteobacteria and gram positive Actinobacteria phyla; the bacterial genera that showed the biggest expansion were the gram negative alkaline tolerant Alcaligenes and gram positive Corynebacterium. Commensurate with the qualitative and quantitative alterations in the microbiome, ethanol caused an increase in plasma endotoxin, fecal pH, hepatic inflammation and injury. Notably, the ethanol-induced pathogenic changes in the microbiome and the liver were prevented by LGG supplementation. Overall, significant alterations in the gut microbiome over time occur in response to chronic alcohol exposure and correspond to increases in intestinal barrier dysfunction and development of ALD. Moreover, the altered bacterial communities of the gut may serve as significant therapeutic target for the prevention/treatment of chronic alcohol intake induced intestinal barrier dysfunction and liver disease.

Published
2013
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16. A metagenomic approach to characterization of the vaginal microbiome signature in pregnancy.

Author

Kjersti Aagaard, Kevin Riehle, Jun Ma, Nicola Segata, Toni-Ann Mistretta, Cristian Coarfa, Sabeen Raza, Sean Rosenbaum, Ignatia Van den Veyver, Aleksandar Milosavljevic, Dirk Gevers, Curtis Huttenhower, Joseph Petrosino, and James Versalovic

Subjects
Medicine, Science
Abstract

While current major national research efforts (i.e., the NIH Human Microbiome Project) will enable comprehensive metagenomic characterization of the adult human microbiota, how and when these diverse microbial communities take up residence in the host and during reproductive life are unexplored at a population level. Because microbial abundance and diversity might differ in pregnancy, we sought to generate comparative metagenomic signatures across gestational age strata. DNA was isolated from the vagina (introitus, posterior fornix, midvagina) and the V5V3 region of bacterial 16S rRNA genes were sequenced (454FLX Titanium platform). Sixty-eight samples from 24 healthy gravidae (18 to 40 confirmed weeks) were compared with 301 non-pregnant controls (60 subjects). Generated sequence data were quality filtered, taxonomically binned, normalized, and organized by phylogeny and into operational taxonomic units (OTU); principal coordinates analysis (PCoA) of the resultant beta diversity measures were used for visualization and analysis in association with sample clinical metadata. Altogether, 1.4 gigabytes of data containing >2.5 million reads (averaging 6,837 sequences/sample of 493 nt in length) were generated for computational analyses. Although gravidae were not excluded by virtue of a posterior fornix pH >4.5 at the time of screening, unique vaginal microbiome signature encompassing several specific OTUs and higher-level clades was nevertheless observed and confirmed using a combination of phylogenetic, non-phylogenetic, supervised, and unsupervised approaches. Both overall diversity and richness were reduced in pregnancy, with dominance of Lactobacillus species (L. iners crispatus, jensenii and johnsonii, and the orders Lactobacillales (and Lactobacillaceae family), Clostridiales, Bacteroidales, and Actinomycetales. This intergroup comparison using rigorous standardized sampling protocols and analytical methodologies provides robust initial evidence that the vaginal microbial 16S rRNA gene catalogue uniquely differs in pregnancy, with variance of taxa across vaginal subsite and gestational age.

Published
2012
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17. Generation and validation of a Shewanella oneidensis MR-1 clone set for protein expression and phage display.

Author

Haichun Gao, Donna Pattison, Tingfen Yan, Dawn M Klingeman, Xiaohu Wang, Joseph Petrosino, Lisa Hemphill, Xiufeng Wan, Adam B Leaphart, George M Weinstock, Timothy Palzkill, and Jizhong Zhou

Subjects
Medicine, Science
Abstract

A comprehensive gene collection for S. oneidensis was constructed using the lambda recombinase (Gateway) cloning system. A total of 3584 individual ORFs (85%) have been successfully cloned into the entry plasmids. To validate the use of the clone set, three sets of ORFs were examined within three different destination vectors constructed in this study. Success rates for heterologous protein expression of S. oneidensis His- or His/GST-tagged proteins in E. coli were approximately 70%. The ArcA and NarP transcription factor proteins were tested in an in vitro binding assay to demonstrate that functional proteins can be successfully produced using the clone set. Further functional validation of the clone set was obtained from phage display experiments in which a phage encoding thioredoxin was successfully isolated from a pool of 80 different clones after three rounds of biopanning using immobilized anti-thioredoxin antibody as a target. This clone set complements existing genomic (e.g., whole-genome microarray) and other proteomic tools (e.g., mass spectrometry-based proteomic analysis), and facilitates a wide variety of integrated studies, including protein expression, purification, and functional analyses of proteins both in vivo and in vitro.

Published
2008
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18. Maternal gluten, cereal, and dietary fiber intake during pregnancy and lactation and the risk of islet autoimmunity and type 1 diabetes in the child

Author

Anna, Eurén, Heikki, Hyöty, Kalle, Kurppa, Jutta, Laiho, Olli, Laitinen, Jussi, Lehtonen, Katri, Lindfors, Maria, Lönnrot, Johannes, Malkamäki, Noora, Nurminen, Matti, Nykter, Sami, Oikarinen, Leena, Puustinen, Amirbabak, Sioofy-Khojine, Keijo, Viiri, Daniel, Agardh, Andrén, Aronsson Carin, Markus, Lundgren, Iida, Mäkelä, Martin, Romantschuk, Laura, Soininen, Nicolai A, Lund-Blix, Maria, Magnus, Aino-Kaisa, Rantala, Lars, Stene, Ketil, Størdal, German, Tapia, Laura, Elo, Sini, Junttila, Riitta, Lahesmaa, Johanna, Lempainen, Robert, Moulder, Omid, Rasool, Tomi, Suomi, Jorma, Toppari, Ubaid, Ullah, Riitta, Veijola, Aleksandr, Peet, Kärt, Simre, Vallo, Tillmann, Elena, Bargagli, Francesco, Dotta, Laura, Nigi, Guido, Sebastiani, Leena, Hakola, Hannu, Kiviranta, Panu, Rantakokko, Suvi M, Virtanen, Ondrej, Cinek, Eva, Fronkova, Jaroslav, Havlik, Matthieu, Molinier, Juha, Pajula, Eija, Parmes, Juha, Pärkkä, Petri, Saviranta, Peter, Ylén, Alar, Aints, Anu, Bärenson, Anne, Kirss, Ivo, Laidmäe, Astrid, Oras, Aili, Tagoma, Raivo, Uibo, Tamara, Vorobjova, Loïc, Burr, Stefano, Cattaneo, Hui, Chai-Gao, Peter, Cristofollini, Silvia, Generelli, Samantha, Paoletti, Edith, Ruth, Gabriele, Berg, Wisnu, Wicaksono, Joseph, Petrosino, Rainer, Thiel, Schmidtmann, Daniel, Rosanna, Salo, Lauri, Häme, Alexander, Berler, Korina, Papadopoulou, Hans, Bisgaard, Klaus, Bonnelykke, Sarah, Brandt, Astrid, Sevelsted, Jakob, Stokholm, Jonathan, Thorsen, Mikael, Knip, Aki, Sinkkonen, Marja, Roslund, Hakola, Leena, Lund-Blix, Nicolai A., Takkinen, Hanna-Mari, Tapanainen, Heli, Niinistö, Sari, Korhonen, Tuuli E., Stene, Lars C., Hyöty, Heikki, Toppari, Jorma, Ilonen, Jorma, Knip, Mikael, Veijola, Riitta, and Virtanen, Suvi M.

Published
2024
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19. Age-Associated Gut Dysbiosis, Marked by Loss of Butyrogenic Potential, Correlates With Altered Plasma Tryptophan Metabolites in Older People Living With HIV

Author

Smita Ghare, Richa Singhal, Vaughn Bryant, Sabina Gautam, Chanakya Charan Tirumala, Praneet Kumar Srisailam, Andrea Reyes-Vega, Dushan Ghooray, Craig J. McClain, Kristi Hoffman, Joseph Petrosino, Kendall Bryant, Varan Govind, Ronald Cohen, Robert L. Cook, and Shirish Barve

Subjects
aging, Tryptophan, HIV, HIV Infections, Pilot Projects, Middle Aged, butyrate, serotonin, kynurenine, 16S rRNA sequencing, F/B ratio, gut microbial dysbiosis, Infectious Diseases, Cross-Sectional Studies, Tandem Mass Spectrometry, Dysbiosis, Humans, Pharmacology (medical), Supplement Article, tryptophan metabolism, Aged
Abstract

Background: Imbalance in tryptophan (TRP) metabolism and its neuroactive metabolites, serotonin and kynurenine (KYN), is a known pathogenic mechanism underlying neurocognitive impairment. Gut microbiota plays an important role in TRP metabolism, and the production of these neuroactive molecules affects neurocognitive function. Although both HIV infection and normal aging independently induce gut dysbiosis and influence TRP metabolism, their interactive effects on compositional/functional changes in gut microbiota and consequent alterations in TRP metabolites remain largely undetermined. Methods: Older people living with HIV infection (PLWH, aged 50–70 years, n = 22) were enrolled in this cross-sectional pilot study. Metagenomic analysis of fecal microbiome using 16S Ribosomal ribonucleic acid gene sequencing and metabolomics analysis of plasma using mass spectrometry with a reverse-phase iquid chromatography tandem mass spectrometry were performed. Statistical analyses included the univariate linear regression and Spearman correlation analyses. Results: Age-associated changes in plasma levels of key neuroactive TRP metabolites, serotonin and KYN, were seen in PLWH. Specifically, we observed age-dependent decreases in serotonin and increases in KYN and KYN-to-TRP ratio, indicative of dysfunctional TRP metabolism. Furthermore, the gut dysbiosis seen in older PLWH is characterized by a reduction of Firmicutes/Bacteroidetes ratio and butyrate-producing microbial families Lachnospiraceae and Lactobacillaceae. Of importance, correspondent with gut dysbiosis, increasing age was significantly associated with decreased plasma butyrate levels, which in turn correlated positively with serotonin and negatively with KYN/TRP ratio. Conclusions: Age-dependent gut microbial dysbiosis distinguished by a decrease in butyrogenic potential is a key pathogenic feature associated with the shift in TRP metabolism from serotonin to KYN in older PLWH.

Published
2022

20. Progressive reduction in circulating levels of carotenoids and other micronutrients in patients with chronic pancreatitis

Author

Jianjun Zhang, Hao Fan, Myron Gross, Nianjun Liu, Hannah Carlson, Amy Wood, Kristi Hoffman, Joseph Petrosino, Nathan Pankratz, Bharat Thyagarajan, and William Fisher

Subjects
Inflammation, Lycopene, Folic Acid, Hepatology, Tumor Necrosis Factor-alpha, Interleukin-6, Endocrinology, Diabetes and Metabolism, Pancreatitis, Chronic, alpha-Tocopherol, Gastroenterology, Humans, Micronutrients, Carotenoids
Abstract

Although micronutrients modulate immunity and inflammation, it remains elusive whether they are implicated in the development and progression of chronic pancreatitis (CP). This study aimed to investigate differences in the circulating levels of selected carotenoids and vitamins between CP and controls and trends in the levels of these micronutrients across controls, early CP, and definite CP.Demographic and lifestyle data were extracted from medical records for 53 patients with CP (13 early and 38 definite) and obtained using a questionnaire for 52 controls. Plasma β-carotene, lycopene, cryptoxanthin, zeaxanthin, and α-tocopherol and serum 25(OH)D, folate, IL-6, TNF-α, and MCP-1 were measured with state-of-the-art methods.The levels of all micronutrients (except folate) were significantly lower in CP than in controls. There was a progressive decrease in the levels of these micronutrients across controls, early CP, and definite CP (all p values for trend: ≤0.0012); e.g., plasma lycopene was 36.6, 21.5, and 14.5 μg/dL for controls, early CP, and definite CP, respectively. After adjustment for confounders, there were strong, inverse associations between the levels of all micronutrients (except folate) and CP (e.g., OR (95% CI) for ≥ median vs.median: 0.10 (0.04, 0.27) for lycopene, 0.15 (0.05, 0.38) for α-tocopherol, and 0.24 (0.09, 0.64) for 25(OH)D). These associations became weaker after additional adjustment for inflammation markers (IL-6, TNF-α, and MCP-1).The circulating levels of some carotenoids, α-tocopherol, and vitamin D were reduced in CP patients compared with controls and this reduction was more pronounced in definite CP than in early CP.

Published
2022

21. Multiple Respiratory Syncytial Virus (RSV) Strains Infecting HEp-2 and A549 Cells Reveal Cell Line-Dependent Differences in Resistance to RSV Infection

Author

Anubama Rajan, Felipe-Andrés Piedra, Letisha Aideyan, Trevor McBride, Matthew Robertson, Hannah L. Johnson, Gina Marie Aloisio, David Henke, Cristian Coarfa, Fabio Stossi, Vipin Kumar Menon, Harshavardhan Doddapaneni, Donna Marie Muzny, Sara Joan Javornik Cregeen, Kristi Louise Hoffman, Joseph Petrosino, Richard A. Gibbs, Vasanthi Avadhanula, and Pedro A. Piedra

Subjects
Host Microbial Interactions, viruses, Immunology, virus diseases, Respiratory Syncytial Virus Infections, respiratory system, Virus Replication, Microbiology, Antiviral Agents, Severity of Illness Index, Cell Line, Species Specificity, A549 Cells, Virology, Insect Science, Respiratory Syncytial Virus, Human, Humans
Abstract

Respiratory syncytial virus (RSV) is a leading cause of pediatric acute respiratory infection worldwide. There are currently no approved vaccines or antivirals to combat RSV disease. A few transformed cell lines and two historic strains have been extensively used to study RSV. Here, we reported a thorough molecular and cell biological characterization of HEp-2 and A549 cells infected with one of four strains of RSV representing both major subgroups as well as historic and more contemporary genotypes (RSV/A/Tracy [GA1], RSV/A/Ontario [ON], RSV/B/18537 [GB1], and RSV/B/Buenos Aires [BA]) via measurements of viral replication kinetics and viral gene expression, immunofluorescence-based imaging of gross cellular morphology and cell-associated RSV, and measurements of host response, including transcriptional changes and levels of secreted cytokines and growth factors.

Published
2022

22. Prospective characterization of oral and gut microbiome in a high-risk pancreatic cancer cohort

Author

Seyda Baydogan, Chirayu Mohindroo, Maria Fernanda Montiel, Joseph Petrosino, Anirban Maitra, Michael Paul Kim, Manoop S. Bhutani, James R White, and Florencia McAllister

Subjects
Cancer Research, Oncology
Abstract

691 Background: Pancreatic cancer (PC) is the third leading cause of cancer death in the United States. The high mortality associated with PC is attributed to multiple reasons: lack of effective therapies, aggressive biology and late diagnosis. Due to the absence of reliable early disease biomarkers, PC screening is largely dependent on imaging. Recent studies have highlighted the importance of the gut and tumor microbiome in PC. We present here the first report of oral and gut microbiome prospective analysis of PC high-risk individuals (PC-HRI) undergoing screening. Methods: We collected periodontal and stool samples at the University of Texas MD Anderson Cancer Center from 2017-2022. A total of 448 samples, consisting of 250 oral and 198 gut samples were obtained. Samples were collected from PC (n=73), PC-HRI (n=34), and healthy (n=143) individuals. 16s rRNA sequencing was used to characterize the oral and gut microbiome and statistical analysis and correlation with imaging and clinical characteristics were performed. Results: We identified three phyla, namely Proteobacteria, Actinobacteria, and Fusobacteria as significantly more abundant in the gut microbiome of PC patients. Conversely, Proteobacteria was decreased in the oral microbiome of PC patients. At the class level, Gammaproteobacteria (GP) oral/gut ratio was significantly decreased in PC patients compared with healthy individuals (p=0.02). Analysis of PC-HRI revealed also low GP oral/gut ratio in high-risk individuals who were diagnosed with worrisome pancreatic focal lesions. Interestingly, Gammaproteobacteria (GP) is one of the main classes of bacteria detected in pancreatic cancer tissue. GP shifts in oral and gut environments could be implicated in pancreatic early tumorigenesis and serve as biomarker of the disease. Additionally, gut bacteria with metabolic pathways related to lipid metabolism were more enriched in PC patients and PC-HRI with focal lesions compared to healthy controls. Conclusions: Gammaproteobacteria oral/gut ratio represents a potential novel biomarker which could predict presence of early high risk-pancreatic focal lesions in PC-HRI. Taken together, this report provides observational evidence about changes in oral and gut microbiome in patients with pancreatic cancer but even more importantly, the fact that those changes could be detected in PC-HRI with early high-risk lesions. Broader validation in other high-risk cohorts would be required. Detection of GP oral/gut ratio would represent an inexpensive, non-invasive method that could be useful for PC screening. Functional studies should be performed to determine how GP shifts can contribute with pancreatic tumorigenesis. Research supported by CPRIT (Grant Number: RP200173) and philanthropic funding through the MD Anderson Moonshot Program.

Published
2023
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