Jeffrey I. Gordon’s research while affiliated with Washington University in St. Louis and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (547)


Coffee habits help shape gut communities
  • Article

November 2024

·

15 Reads

Nature Microbiology

Nathan P. McNulty

·

Jeffrey I. Gordon

Fig. 2. Increased proliferative signaling in the small intestine of P37 offspring of cSI-I dams. a,b, Uniform manifold and projection (UMAP) plot of single nuclei isolated from the duodenum (a), and ileum (b), of P37 offspring (n=3 mice/group). c, Gene set enrichment analysis (GSEA) along the crypt-villus axis, focusing on genes encoding duodenal mucosal proteins whose levels were quantified with the aptamer-based proteomics platform SOMAscan in children with EED in the BEED study. d, Intercellular signaling from cell populations (columns) to stem/transit amplifying (TA) cells in the ileum. A subset of ligands identified by NicheNet are shown that were significantly differentially expressed between cSI-I and cSI-N animals. Annotations included (left) are for contextualization and are based on literature findings. Their paired receptors are shown in Extended Data Fig. 5b. Ligands that were more highly expressed in cSI-I animals are shown in red (top); those more highly expressed in cSI-N animals are shown in blue (bottom). e, Percent of all cells in a crypt that were Ki67 + in the duodenum (left) or ileum (right) (n=3-5 mice/group; each dot represents a single crypt-villus
Fig. 6. Host epithelial cell nitrate metabolism boosts C. concisus growth in vitro. a,b, Growth of C. concisus after 8 a, or 24 hours b, in CT26 mouse colonic epithelial cell line supernatants that were live (green; CT26:FADD, z-VAD, z-
Effects of intergenerational transmission of small intestinal bacteria cultured from stunted Bangladeshi children with enteropathy
  • Article
  • Full-text available

November 2024

·

27 Reads

Kali M Pruss

·

Clara Kao

·

Alexandra E Byrne

·

[...]

·

Jeffrey I. Gordon

Environmental enteric dysfunction (EED), a small intestinal disorder found at a high prevalence in stunted children, is associated with gut mucosal barrier disruption and decreased absorptive capacity due to reduced intact small intestinal villi. To test the hypothesis that intergenerational transmission of a perturbed small intestinal microbiota contributes to undernutrition by inducing EED, we characterized two consortia of bacterial strains cultured from duodenal aspirates from stunted Bangladeshi children with EED, one of which induced local and systemic inflammation in gnotobiotic female mice. Offspring of dams that received this inflammatory consortium exhibited immunologic changes along their gut that phenocopied features of EED in children. Single nucleus plus bulk RNA-sequencing revealed alterations in inter-cellular signaling pathways related to intestinal epithelial cell renewal, barrier integrity and immune function while analyses of cerebral cortex disclosed alterations in glial- and endothelial-neuronal signaling pathways that regulate neural growth/axonal guidance, angiogenesis and inflammation. Analysis of ultrasonic vocalization calls in gnotobiotic P5-P9 pups indicated increased arousal and perturbed neurodevelopment in the offspring of dams harboring the inflammation-inducing consortium. Cohousing experiments and follow-up screening of candidate disease-promoting bacterial isolates identified a strain typically found in the oral microbiota (Campylobacter concisus) as a contributor to enteropathy. Given that fetal growth was also impaired in the dams with the consortium that induced enteropathy, this preclinical model allows the effects of the human small intestinal microbiota on both pre- and postnatal development to be ascertained, setting the stage for identification of small intestinal microbiota-targeted therapeutics for (intergenerational) undernutrition.

Download

A human gut Faecalibacterium prausnitzii fatty acid amide hydrolase

October 2024

·

21 Reads

·

1 Citation

Science

Undernutrition in Bangladeshi children is associated with disruption of postnatal gut microbiota assembly; compared with standard therapy, a microbiota-directed complementary food (MDCF) substantially improved their ponderal and linear growth. Here, we characterize a fatty acid amide hydrolase (FAAH) from a growth-associated intestinal strain of Faecalibacterium prausnitzii cultured from these children. This enzyme, expressed and purified from Escherichia coli, hydrolyzes a variety of N -acylamides, including oleoylethanolamide (OEA), neurotransmitters, and quorum sensing N -acyl homoserine lactones; it also synthesizes a range of N -acylamides, notably N -acyl amino acids. Treating germ-free mice with N -oleoylarginine and N -oleolyhistidine, major products of FAAH OEA metabolism, markedly affected expression of intestinal immune function pathways. Administering MDCF to Bangladeshi children considerably reduced fecal OEA, a satiety factor whose levels were negatively correlated with abundance and expression of their F. prausnitzii FAAH. This enzyme, structurally and catalytically distinct from mammalian FAAH, is positioned to regulate levels of a variety of bioactive molecules.


In vivo manipulation of human gut Bacteroides fitness by abiotic oligosaccharides

October 2024

·

36 Reads

Nature Chemical Biology

Synthetic glycans (SGs) containing glycosidic linkages and structures not identified in nature offer a means for deliberately altering microbial community properties. Here pools of SG oligosaccharides were generated via polymerization of monosaccharides and screened for their ability to increase saccharolytic Bacteroides in ex vivo cultures of human fecal samples. A lead SG preparation was orally administered to gnotobiotic mice harboring a consortium of 56 cultured, phylogenetically diverse human gut bacteria and fed a Western diet. The abundances of 3 of 15 Bacteroides strains increased, most prominently B. intestinalis. Underlying mechanisms were characterized by analyzing in vivo expression of the carbohydrate utilization machinery, using retrievable microscopic paramagnetic particles with bound SG oligosaccharides and assaying SG degradation by individual purified B. intestinalis glycoside hydrolases. The results reveal that SGs can selectively co-opt carbohydrate utilization machinery in different human gut Bacteroides and demonstrate a means for identifying artificial carbohydrate structures for targeted bacterial manipulation.


A microbiome-directed therapeutic food for children recovering from severe acute malnutrition

October 2024

·

44 Reads

Science Translational Medicine

Globally, severe acute malnutrition (SAM), defined as a weight-for-length z -score more than three SDs below a reference mean (WLZ < −3), affects 14 million children under 5 years of age. Complete anthropometric recovery after standard, short-term interventions is rare, with children often left with moderate acute malnutrition (MAM; WLZ −2 to −3). We conducted a randomized controlled trial (RCT) involving 12- to 18-month-old Bangladeshi children from urban and rural sites, who, after initial hospital-based treatment for SAM, received a 3-month intervention with a microbiome-directed complementary food (MDCF-2) or a calorically more dense, standard ready-to-use supplementary food (RUSF). The rate of WLZ improvement was significantly greater in MDCF-2–treated children ( P = 8.73 × 10 ⁻³ ), similar to our previous RCT of Bangladeshi children with MAM without antecedent SAM ( P = 0.032). A correlated meta-analysis of plasma levels of 4520 proteins in both RCTs revealed 215 positively associated with WLZ (largely representing musculoskeletal and central nervous system development) and 44 negatively associated (primarily related to immune activation). Moreover, the positively associated proteins were significantly enriched by MDCF-2 ( q = 1.1 × 10 ⁻⁶ ). Characterizing the abundances of 754 bacterial metagenome-assembled genomes in serially collected fecal samples disclosed the effects of acute rehabilitation for SAM on the microbiome and how, during treatment for MAM, specific strains of Prevotella copri function at the intersection between MDCF-2 glycan metabolism and anthropometric recovery. These results provide a rationale for further testing the generalizability of MDCF efficacy and for identifying biomarkers to define treatment responses.


Establishing human microbial observatory programs in low‐ and middle‐income countries

September 2024

·

20 Reads

Studies of the human microbiome are progressing rapidly but have largely focused on populations living in high‐income countries. With increasing evidence that the microbiome contributes to the pathogenesis of diseases that affect infants, children, and adults in low‐ and middle‐income countries (LMICs), and with profound and rapid ongoing changes occurring in our lifestyles and biosphere, understanding the origins of and developing microbiome‐directed therapeutics for treating a number of global health challenges requires the development of programs for studying human microbial ecology in LMICs. Here, we discuss how the establishment of long‐term human microbial observatory programs in selected LMICs could provide one timely approach.


Development and Acceptability of Shelf-Stable Microbiota Directed Complementary Food Formulations

July 2024

·

32 Reads

Food and Nutrition Bulletin

Background A randomized controlled trial in Bangladeshi children aged 12 to 18 months with moderate acute malnutrition found that dietary supplementation with the microbiota-directed complementary food (MDCF-2) significantly improved weight gain and repaired gut microbiota compared to the ready-to-use supplementary food. However, the MDCF-2 formulation was made daily from locally available ingredients and the need for a packaged, nutritionally compliant, and organoleptically acceptable MDCF-2 prototype was essential for future large-scale clinical studies. Objective The study aimed to develop and assess the acceptability of 3 alternative foil-packaged formulations of MDCF-2 in comparison to current MDCF-2. Methods Of the 3 packaged formulations, the Jumpstart version was provided in 2 sachets, the other 2 formulations were provided in a retort-stable foil pouch extended by sterilization, and microbiological growth was monitored over 10 months. The acceptability study included 40 children aged 8 to 12 months living in an urban slum in Dhaka, and the organoleptic properties were assessed using a 7-point hedonic scale. Results In the 100 g distributed over the 2 sessions, children consumed 82.5 ± 7.84 g (mean ± SD) of kitchen-prepared MDCF-2, 85.4 ± 7.15 g of the “Jumpstart” MDCF-2 formulation, 85.4 ± 8.70 g of the MDCF-2 with green banana powder, and 86.2 ± 4.26 g of the MDCF-2 with sweet potato formulation. The “Jumpstart” MDCF-2 and MDCF-2 with sweet potato achieved the highest overall acceptability scores on the hedonic scale; although none of the shelf-stable formulations were significantly different from the kitchen-prepared MDCF-2. Conclusions Packaged, shelf-stable prototypes of MDCF-2 exhibited comparable acceptability among Bangladeshi children aged 8 to 12 months to the original freshly prepared formulation.


Fetal MAVS and type I IFN signaling pathways control ZIKV infection in the placenta and maternal decidua

The contribution of placental immune responses to congenital Zika virus (ZIKV) syndrome remains poorly understood. Here, we leveraged a mouse model of ZIKV infection to identify mechanisms of innate immune restriction exclusively in the fetal compartment of the placenta. ZIKV principally infected mononuclear trophoblasts in the junctional zone, which was limited by mitochondrial antiviral-signaling protein (MAVS) and type I interferon (IFN) signaling mechanisms. Single nuclear RNA sequencing revealed MAVS-dependent expression of IFN-stimulated genes (ISGs) in spongiotrophoblasts but not in other placental cells that use alternate pathways to induce ISGs. ZIKV infection of Ifnar1−/− or Mavs−/− placentas was associated with greater infection of the adjacent immunocompetent decidua, and heterozygous Mavs+/− or Ifnar1+/− dams carrying immunodeficient fetuses sustained greater maternal viremia and tissue infection than dams carrying wild-type fetuses. Thus, MAVS-IFN signaling in the fetus restricts ZIKV infection in junctional zone trophoblasts, which modulates dissemination and outcome for both the fetus and the pregnant mother.


A multi-glycomic platform for the analysis of food carbohydrates

July 2024

·

99 Reads

·

2 Citations

Nature Protocols

Carbohydrates comprise the largest fraction of most diets and exert a profound impact on health. Components such as simple sugars and starch supply energy, while indigestible components, deemed dietary fiber, reach the colon to provide food for the tens of trillions of microbes that make up the gut microbiota. The interactions between dietary carbohydrates, our gastrointestinal tracts, the gut microbiome and host health are dictated by their structures. However, current methods for analysis of food glycans lack the sensitivity, specificity and throughput needed to quantify and elucidate these myriad structures. This protocol describes a multi-glycomic approach to food carbohydrate analysis in which the analyte might be any food item or biological material such as fecal and cecal samples. The carbohydrates are extracted by ethanol precipitation, and the resulting samples are subjected to rapid-throughput liquid chromatography (LC)-tandem mass spectrometry (LC-MS/MS) methods. Quantitative analyses of monosaccharides, glycosidic linkages, polysaccharides and alcohol-soluble carbohydrates are performed in 96-well plates at the milligram scale to reduce the biomass of sample required and enhance throughput. Detailed stepwise processes for sample preparation, LC-MS/MS and data analysis are provided. We illustrate the application of the protocol to a diverse set of foods as well as different apple cultivars and various fermented foods. Furthermore, we show the utility of these methods in elucidating glycan-microbe interactions in germ-free and colonized mice. These methods provide a framework for elucidating relationships between dietary fiber, the gut microbiome and human physiology. These structures will further guide nutritional and clinical feeding studies that enhance our understanding of the role of diet in nutrition and health.


Integrative genomic reconstruction of carbohydrate utilization networks in bifidobacteria: global trends, local variability, and dietary adaptation

July 2024

·

47 Reads

Bifidobacteria are among the earliest colonizers of the human gut, conferring numerous health benefits. While multiple Bifidobacterium strains are used as probiotics, accumulating evidence suggests that the individual responses to probiotic supplementation may vary, likely due to a variety of factors, including strain type(s), gut community composition, dietary habits of the consumer, and other health/lifestyle conditions. Given the saccharolytic nature of bifidobacteria, the carbohydrate composition of the diet is one of the primary factors dictating the colonization efficiency of Bifidobacterium strains. Therefore, a comprehensive understanding of bifidobacterial glycan metabolism at the strain level is necessary to rationally design probiotic or synbiotic formulations that combine bacterial strains with glycans that match their nutrient preferences. In this study, we systematically reconstructed 66 pathways involved in the utilization of mono-, di-, oligo-, and polysaccharides by analyzing the representation of 565 curated metabolic functional roles (catabolic enzymes, transporters, transcriptional regulators) in 2973 non-redundant cultured Bifidobacterium isolates and metagenome-assembled genomes (MAGs). Our analysis uncovered substantial heterogeneity in the predicted glycan utilization capabilities at the species and strain level and revealed the presence of a yet undescribed phenotypically distinct subspecies-level clade within the Bifidobacterium longum species. We also identified Bangladeshi isolates harboring unique gene clusters tentatively implicated in the breakdown of xyloglucan and human milk oligosaccharides. Predicted carbohydrate utilization phenotypes were experimentally characterized and validated. Our large-scale genomic analysis considerably expands the knowledge of carbohydrate metabolism in bifidobacteria and provides a foundation for rationally designing single- or multi-strain probiotic formulations of a given bifidobacterial species as well as synbiotic combinations of bifidobacterial strains matched with their preferred carbohydrate substrates.


Citations (70)


... MDCF-2 contained four complementary food components (chickpea flour, soybean flour, peanut paste, and green banana) plus soybean oil, sugar, and micronutrients (3,7). The superior effect of MDCF-2 on β-WLZ was accompanied by more complete microbiota repair plus greater increases in plasma protein mediators and biomarkers of musculoskeletal and central nervous system (CNS) development at the end of treatment (7) as well as an improvement in linear growth trajectories in the 2-year period after cessation of treatment (8). Shotgun sequencing of DNA isolated from fecal biospecimens serially collected during this trial identified 75 bacterial metagenome-assembled genomes (MAGs) whose abundances were positively associated with WLZ and whose genomes were enriched for metabolic pathways involved in utilization of plant polysaccharides (9). ...

Reference:

A microbiome-directed therapeutic food for children recovering from severe acute malnutrition
A Microbiota-Directed Complementary Food Intervention in 12-18-Month-Old Bangladeshi Children Improves Linear Growth
  • Citing Article
  • July 2024

Current Developments in Nutrition

... The effect of MDF has also been tested in a second RCT involv- The P. copri strain specificity documented in the primary MAM trial was also evident in these children who also lived in the same urban slum where the primary MAM trial had occurred as well as a very distinct rural setting. 20 While encouraging, RCTs are needed for children with MAM living in other geographic locales and representing a broader age range, as well as for children with primary SAM. ...

A microbiome-directed therapeutic food for children recovering from severe acute malnutrition

... Regarding the genus Granulicatella, we observed a significant variation in the abundance of Granulicatella elegans with an increase in the standard dose DMB group and a decrease in the high-dose DMB group. This is of interest, since a positive association has been found between the abundance of Granulicatella elegans and inflammation [81]. In the case of Granulicatella adiacens, higher levels at both standard and high doses of DMB were observed. ...

A shared group of bacterial taxa in the duodenal microbiota of undernourished Pakistani children with environmental enteric dysfunction

... MDCF-2 contained four complementary food components (chickpea flour, soybean flour, peanut paste, green banana) plus soybean oil, sugar and micronutrients (3,7). The superior effect of MDCF-2 on β-WLZ was accompanied by more complete microbiota repair plus greater increases in levels of plasma protein mediators and biomarkers of musculoskeletal and central nervous system (CNS) development at the end of treatment (7) and a significant improvement in linear growth trajectories in the 2-year period after cessation of treatment (8). Shotgun sequencing of DNA isolated from fecal biospecimens serially collected during this trial identified 75 bacterial metagenome assembled genomes (MAGs) whose abundances were significantly positively associated with WLZ and whose genomes were enriched for metabolic pathways involved in utilization of plant polysaccharides (9). ...

A microbiota-directed complementary food intervention in 12-18-month-old Bangladeshi children improves linear growth

... The genera Prevotella, Lactobacillus, Turicibacter, Blautia, and Barnesiella widely exist in the gastrointestinal tract of humans and animals [77]. As important AA-fermenting bacteria, the bacteria mentioned above depend on specific AAs for growth [78,79]. Growth of BA-sensitive bacteria such as Lactobacillus [80], Fusobacterium [81], Blautia [82,83], and Barnesiella [80] is inhibited by high BA concentrations. ...

Prevotella copri and microbiota members mediate the beneficial effects of a therapeutic food for malnutrition

Nature Microbiology

... Despite increasing interest in the study of gut microbiota and its associations with health and disease, research in less-developed countries remains limited. Browne et al. [33] reported that around 85% of the 25,000 high-resolution gut metagenomes publicly available from children under four came from individuals living in wealthy regions (Europe and Nord America). Research indicates that the gut microbiota vary by geographical region where individuals live [34,35], highlighting the urgent need to study the microbiota of less favored populations to assess the effectiveness of microbiota-directed interventions involving them. ...

Boosting microbiome science worldwide could save millions of children’s lives
  • Citing Article
  • January 2024

Nature

... is to verify the efficiency of microbiota-directed food formulations through preclinical models and clinical studies Delannoy-Bruno et al., 2021;Hibberd et al., 2024). Thereby, once the saccharolytic specificities of HPMs are revealed, the structural characteristics of MDF can be tailored to achieve the targeted enrichment, offering a noninvasive and microbiome-targeted therapeutic strategy. ...

Bioactive glycans in a microbiome-directed food for children with malnutrition

Nature

... Uropathogenic Escherichia coli (UPEC) are responsible for most CAUTI [6]. Many UPEC strains are now resistant to multiple antibiotics, and thus difficult to treat, emphasizing the importance of preventative strategies [7][8][9]. ...

Small‐molecule inhibitors against type 1 pili selectively target uropathogenic E. coli in the gut and bladder
  • Citing Article
  • October 2018

The FASEB Journal

... PULs also encode various CAZymes responsible for glycan depolymerization (glycoside hydrolases (GHs), polysaccharide lyases and carbohydrate esterases) as well as transcriptional regulators 23,24 . As such, patterns of PUL gene expression, and the known or predicted functions of their encoded CAZymes, can be used to infer structure/activity relationships in glycans being utilized by Bacteroides [25][26][27][28] . Therefore, we began our mechanistic analysis by comparing the results of microbial RNA sequencing (RNA-seq) of cecal contents collected from colonized mice belonging to the two treatment groups. ...

Inducible CRISPR-targeted “knockdown” of human gut Bacteroides in gnotobiotic mice discloses glycan utilization strategies

Proceedings of the National Academy of Sciences

... The cross-feeding activity involved in bifidobacteria plays a key role in the assembly of gut microbiota. Chang et al. 136 found that B. infantis Bg2D9 promoted the colonization of Prevotella copri Bg131 in the gut of malnourished mice and facilitated the release of arabinose from diets containing arabinoglycans, which contributed to the proliferation of other species in the gut, including B. catenulatum and Blautia obeum, by cross-feeding. This could be used as a dietary intervention in severely acutely malnourished children. ...

Prevotella copri-linked effects of a therapeutic food for malnutrition