scholarly journals Vitamin D Metabolites and the Gut Microbiome in Older Men

2020 ◽  
Vol 4 (Supplement_1) ◽  
pp. 840-840
Author(s):  
Deborah Kado ◽  
Robert Thomas ◽  
Lingjing Jiang ◽  
John Adams ◽  
Rob Knight ◽  
...  
Keyword(s):  
Vitamin D ◽  
Gut Microbiome ◽  
Forest Plot ◽  
Vitamin D Metabolites ◽  
Sequencing Data ◽  
Operational Taxonomic Units ◽  
Β Diversity ◽  
Α Diversity ◽  
Unweighted Unifrac ◽  
Antidepressant Use

Abstract We examined the bidirectional impact of vitamin D on the composition and diversity of the gut microbiome in 567 MrOS men. Vitamin D metabolites were measured using LC-MSMS and stool sub-operational taxonomic units defined from 16S ribosomal RNA sequencing data using Deblur and Greengenes 13.8. Men’s mean serum level of 25(OH)D was in the sufficient range. Faith’s Phylogenetic Diversity and non-redundant covariate analyses revealed that 1,25(OH)2D explained 5% of variance in α-diversity; the other non-redundant covariates of site, race, recent antibiotic and antidepressant use explained another 6%. In β-diversity analyses using unweighted UniFrac, 1,25(OH)2D was the strongest factor assessed, explaining 2%. Random forest plot analyses identified 12 taxa, 6 in the phylum Firmicutes, positively associated with either 1,25(OH)2D and/or [1,25(OH)2D/25(OH)D] activation ratio. Higher levels of the active 1,25(OH)2D, but not 25(OH)D, were associated with butyrate producing bacteria. Men with favorable vitamin D activation profiles also had greater gut microbial diversity.

scholarly journals Vitamin D metabolites and the gut microbiome in older men

2020 ◽  
Vol 11 (1) ◽  
Author(s):  
Robert L. Thomas ◽  
Lingjing Jiang ◽  
John S. Adams ◽  
Zhenjiang Zech Xu ◽  
Jian Shen ◽  
...  
Keyword(s):  
Vitamin D ◽  
Gut Microbiome ◽  
Serum Vitamin ◽  
Older Men ◽  
Vitamin D Metabolites ◽  
Sequencing Data ◽  
Cross Sectional ◽  
Serum Vitamin D ◽  
Β Diversity ◽  
Α Diversity

AbstractThe vitamin D receptor is highly expressed in the gastrointestinal tract where it transacts gene expression. With current limited understanding of the interactions between the gut microbiome and vitamin D, we conduct a cross-sectional analysis of 567 older men quantifying serum vitamin D metabolites using LC-MSMS and defining stool sub-Operational Taxonomic Units from16S ribosomal RNA gene sequencing data. Faith’s Phylogenetic Diversity and non-redundant covariate analyses reveal that the serum 1,25(OH)2D level explains 5% of variance in α-diversity. In β-diversity analyses using unweighted UniFrac, 1,25(OH)2D is the strongest factor assessed, explaining 2% of variance. Random forest analyses identify 12 taxa, 11 in the phylum Firmicutes, eight of which are positively associated with either 1,25(OH)2D and/or the hormone-to-prohormone [1,25(OH)2D/25(OH)D] “activation ratio.” Men with higher levels of 1,25(OH)2D and higher activation ratios, but not 25(OH)D itself, are more likely to possess butyrate producing bacteria that are associated with better gut microbial health.

Gut microbiome of the emerald ash borer, Agrilus planipennis Fairmaire, and its relationship with insect population density

2020 ◽  
Vol 96 (8) ◽  
Author(s):  
Judith Mogouong ◽  
Philippe Constant ◽  
Robert Lavallée ◽  
Claude Guertin
Keyword(s):  
Population Density ◽  
Gut Microbiome ◽  
Emerald Ash Borer ◽  
Agrilus Planipennis ◽  
Economic Damage ◽  
Taxonomic Structure ◽  
Rrna Gene ◽  
Local Conditions ◽  
Β Diversity ◽  
Α Diversity

ABSTRACT The gut microbial communities of beetles play crucial roles in their adaptive capacities. Environmental factors such as temperature or nutrition naturally affect the insect microbiome, but a shift in local conditions like the population density on a host tree could also lead to changes in the microbiota. The emerald ash borer (EAB), Agrilus planipennis Fairmaire, is an exotic wood borer that causes environmental and economic damage to ash trees in North America. This study aimed to describe the taxonomic structure of the EAB gut microbiome and explore its potential relationship with borer population size. The number of EAB adults collected per tree through a 75 km transect from an epicenter allowed the creation of distinct classes of population density. The Gammaproteobacteria and Ascomycota predominated in bacterial and fungal communities respectively, as determined by sequencing of the bacterial 16S rRNA gene and the fungal internal transcribed spacer ITS2. Species richness and diversity of the bacterial community showed significant dependence on population density. Moreover, α-diversity and β-diversity analysis revealed some indicator amplicon sequence variants suggesting that the plasticity of the gut microbiome could be related to the EAB population density in host trees.

scholarly journals Introducing mothur: Open-Source, Platform-Independent, Community-Supported Software for Describing and Comparing Microbial Communities

2009 ◽  
Vol 75 (23) ◽  
pp. 7537-7541 ◽  
Author(s):  
Patrick D. Schloss ◽  
Sarah L. Westcott ◽  
Thomas Ryabin ◽  
Justine R. Hall ◽  
Martin Hartmann ◽  
...  
Keyword(s):  
16S Rrna ◽  
Software Package ◽  
Sequence Data ◽  
Rrna Gene ◽  
Sequencing Data ◽  
Laptop Computer ◽  
Operational Taxonomic Units ◽  
Β Diversity ◽  
Single Piece

ABSTRACT mothur aims to be a comprehensive software package that allows users to use a single piece of software to analyze community sequence data. It builds upon previous tools to provide a flexible and powerful software package for analyzing sequencing data. As a case study, we used mothur to trim, screen, and align sequences; calculate distances; assign sequences to operational taxonomic units; and describe the α and β diversity of eight marine samples previously characterized by pyrosequencing of 16S rRNA gene fragments. This analysis of more than 222,000 sequences was completed in less than 2 h with a laptop computer.

Pilot trial of vitamin D3 and calcifediol in healthy vitamin D deficient adults: does it change the fecal microbiome?

2021 ◽  
Author(s):  
Albert Shieh ◽  
S Melanie Lee ◽  
Venu Lagishetty ◽  
Carter Gottleib ◽  
Jonathan P Jacobs ◽  
...  
Keyword(s):  
Vitamin D ◽  
Vitamin D Deficiency ◽  
Relative Abundance ◽  
Vitamin D3 ◽  
Pilot Trial ◽  
Fecal Microbiota ◽  
Small Sample ◽  
Rrna Gene ◽  
Β Diversity ◽  
Α Diversity

Abstract Purpose To determine whether correcting vitamin D deficiency with cholecalciferol (vitamin D3, D3) or calcifediol (25-hydroxyvitamin D3, 25(OH)D3) changes gut microbiome composition. Methods 18 adults with vitamin D deficiency (25-hydroxyvitamin D [25(OH)D] <20 ng/ml) received 60 mcg/day of D3 or 20 mcg/day of 25(OH)D3 for 8 weeks. Changes in serum 25(OH)D, 1,25-diydroxyvitamin D (1,25(OH)2D), and 24,25-dihydroxyvitamin D (24,25(OH)2D) were assessed. We characterized composition of the fecal microbiota using 16S rRNA gene sequencing, and examined changes in α-diversity (Chao 1, Faith’s Phylogenetic Diversity, Shannon Index), β-diversity (DEICODE), and genus-level abundances (DESeq2). Results Vitamin D3 and 25(OH)D3 groups were similar. After 8 weeks of vitamin D3, mean 25(OH)D and 24,25(OH)2D increased significantly, but 1,25(OH)2D did not (25(OH)D: 17.8 to 30.1 ng/ml [p=0.002]; 24,25(OH)2D: 1.1 to 2.7 ng/ml [p=0.003]; 1,25(OH)2D: 49.5 to 53.0 pg/ml [p=0.9]). After 8 weeks of 25(OH)D3, mean 25(OH)D, 24,25(OH)2D, and 1,25(OH)2D increased significantly (25(OH)D: 16.7 to 50.6 ng/ml [p<0.0001]; 24,25(OH)2D: 1.3 to 6.2 ng/ml [p=0.0001]; 1,25(OH)2D: 56.5 to 74.2 pg/ml [p=0.05]). Fecal microbial α-diversity and β-diversity did not change with D3 or 25D3 supplementation. Mean relative abundance of Firmicutes increased and mean relative abundance of Bacterioidetes decreased from baseline to four weeks, but returned to baseline by study completion. DESeq2 analysis did not confirm any statistically significant taxonomic changes. Main conclusions In a small sample of healthy adults with vitamin D deficiency, restoration of vitamin D sufficiency with vitamin D3 or 25(OH)D3 did not lead to lasting changes in the fecal microbiota.

Ongoing Supplementation of Probiotics to Cesarean-Born Neonates during the First Month of Life may Impact the Gut Microbial

2020 ◽  
Author(s):  
Wenqing Yang ◽  
Liang Tian ◽  
Jiao Luo ◽  
Jialin Yu
Keyword(s):  
Gut Microbiota ◽  
Intestinal Microbiota ◽  
Influencing Factor ◽  
Delivery Mode ◽  
Next Generation Sequencing Technology ◽  
Operational Taxonomic Units ◽  
Β Diversity ◽  
Α Diversity ◽  
Clusters Of Orthologous Groups ◽  
And Function

Objective The delivery mode is considered to be a significant influencing factor in the early gut microbiota composition, which is associated with the long-term health of the host. In this study, we tried to explore the effects of probiotics on the intestinal microbiota of C-section neonates. Study Design Twenty-six Chinese neonates were enrolled in this study. The neonates were divided into four groups: VD (natural delivery neonates, n = 3), CD (cesarean-born neonates, n = 9), CDL (cesarean-born neonates supplemented with probiotic at a lower dosage, n = 7), and CDH (cesarean-born neonates supplemented with probiotic at a higher dosage, n = 7). Fecal samples were collected on the 3rd, 7th, and 28th day since birth. The V3–V4 region of the 16S ribosomal ribonucleic acid gene was sequenced by next-generation sequencing technology. Results The α-diversity of the intestinal microbiota of cesarean delivery neonates was significantly lower than that of the naturally delivered neonates on the 28th day (p = 0.005). After supplementation with probiotics for 28 days, the α-diversity and the β-diversity of the gut flora in the cesarean-born infants (CDL28 and CDH28) was similar to that in the vaginally delivery infants. Meanwhile, the abundances of Lactobacillus and Bifidobacterium were significantly increased since the 3rd day of probiotic supplementation. Besides, the sustained supplementation of probiotics to neonates would help improve the abundance of the operational taxonomic units in several different Clusters of Orthologous Groups of proteins. Conclusion This study showed that probiotics supplementation to cesarean-born neonates since birth might impact the diversity and function of gut microbiota. Key Points

scholarly journals Gut microbiome as a response marker for pancreatic enzyme replacement therapy in a porcine model of exocrine pancreas insufficiency

2020 ◽  
Vol 19 (1) ◽  
Author(s):  
Sabrina Ritz ◽  
Daniela Hahn ◽  
Haleluya T. Wami ◽  
Karin Tegelkamp ◽  
Ulrich Dobrindt ◽  
...  
Keyword(s):  
Enzyme Replacement Therapy ◽  
Replacement Therapy ◽  
Gut Microbiome ◽  
Pancreatic Enzyme ◽  
Microbial Composition ◽  
Enzyme Replacement ◽  
Β Diversity ◽  
Healthy State ◽  
Α Diversity ◽  
Pancreatic Enzyme Replacement Therapy

Abstract Background Exocrine pancreatic insufficiency (EPI) is characterized by the loss of active pancreatic enzymes and a resulting severely reduced food digestion. EPI therapy requires orally applied pancreatic enzyme replacement. The gut microbiome is a known mediator of intestinal diseases and may influence the outcome of EPI and the effects of a pancreatic enzyme replacement therapy (PERT). Here, we analyzed the effects of EPI and PERT on the gut microbiome in the model of pancreatic duct ligated minipigs. Results The microbial community composition in pig feces was analyzed by next generation sequencing of 16S rRNA amplicons. The data were evaluated for α- and β-diversity changes and changes at the different Operational Taxonomic Unit (OTU) levels by Shannon–Wiener and inverse Simpson index calculation as well as by Principal Coordinates Analysis based on Bray–Curtis dissimilarity. Microbial α-diversity was reduced after EPI induction and reverted to nearly healthy state after PERT. Analysis of microbial composition and β-diversity showed distinctive clusters of the three study groups and a change towards a composition comparable to healthy animals upon PERT. The relative abundance of possible pathobionts like Escherichia/Shigella, Acinetobacter or Stenotrophomonas was reduced by PERT. Conclusion These data demonstrate that EPI-induced dysbiosis could be reverted by PERT to a nearly healthy state. Elevated α-diversity and the reduction of bacterial overgrowth after PERT promises benefits for EPI patients. Non-invasive microbiome studies may be useful for EPI therapy monitoring and as marker for response to PERT.

scholarly journals The Effect of Probiotics Supplementation on the Gut Microbiome of Healthy Dogs Assessed Using Metagenomic Sequencing: A Randomized Control Trial

2020 ◽  
Vol 4 (Supplement_2) ◽  
pp. 1591-1591
Author(s):  
Jirayu Tanprasertsuk ◽  
Justin Shmalberg ◽  
Aashish Jha ◽  
LeeAnn Perry ◽  
Ryan Honaker
Keyword(s):  
Health Outcomes ◽  
Gut Microbiome ◽  
Randomized Control Trial ◽  
Gastrointestinal Diseases ◽  
Metagenomic Sequencing ◽  
Β Diversity ◽  
Α Diversity ◽  
Stool Samples ◽  
Healthy Dogs ◽  
Randomized Control

Abstract Objectives Dogs share similar gut microbiome (GM) with humans, making them a great model for investigating the effects of probiotics (PR) on GM and health. This randomized control trial examined changes in MB and health outcomes in household dogs after PR supplementation. Methods All dogs recruited were fed human grade cooked food ≥ 1 mo, not fed any cultured food, PR, prebiotics, or on antibiotics ≥ 3 mo, and absent of major diseases. Dogs were randomized to receive a daily dose of PR (20 billion CFU of L. reuteri, P. acidilactici, E. faecium, L. acidophilus, B. animalis, L. fermentum, L. rhamnosus) or placebo (PL) for 4 weeks. Owners completed a health survey and collected stool samples at baseline and 4 weeks after the intervention in both groups. Additional stool samples were collected 2 weeks after stopping the PR in the PR group. GM profiling was performed with metagenomic sequencing. Results Twenty three dogs in the PR and 19 dogs in the PL group completed the trial (5.6 ± 3.0 y, 69% male). PR had no effect on α-diversity. As compared to baseline, changes in β-diversity at the species level in 4.3% of GM were significantly affected by PR at week 4 (P < 0.001) but not at week 6. A significant increase (adj P < 0.01) for ≥ 2-fold in abundance was observed at week 4 as compared to baseline for 41 bacterial taxa, 29 (71%) of which belong in the Lactobacillus genus. The abundance of E. coli also decreased at week 4 in the PR group (2.8 folds, adj P < 0.01). The abundance of these taxa returned to baseline at week 6. Such changes in diversity or abundance were not observed with PL. Dogs fed PR tended to be at a lower risk of diarrhea during the trial (0% vs 16%, P = 0.08). No change in other health outcomes was observed. Conclusions Oral PR supplementation has a small but significant effect on GM in healthy dogs. Findings warrant further investigation with longer duration in populations at a higher risk of gastrointestinal diseases. Funding Sources NomNomNow Inc.

scholarly journals Gut Microbiota of Great Spotted Cuckoo Nestlings is a Mixture of Those of Their Foster Magpie Siblings and of Cuckoo Adults

Genes ◽  
2018 ◽  
Vol 9 (8) ◽  
pp. 381 ◽  
Author(s):  
Magdalena Ruiz-Rodríguez ◽  
Manuel Martín-Vivaldi ◽  
Manuel Martínez-Bueno ◽  
Juan José Soler
Keyword(s):  
Gut Microbiota ◽  
Gut Microbiome ◽  
Natural Populations ◽  
Microbiome Composition ◽  
Operational Taxonomic Units ◽  
Sequencing Technologies ◽  
Genetic Components ◽  
Α Diversity ◽  
Host Genetic ◽  
Diversity Estimates

Diet and host genetic or evolutionary history are considered the two main factors determining gut microbiota of animals, although studies are scarce in natural populations. The system of great spotted cuckoos (Clamator glandarius) parasitizing magpies (Pica pica) is ideal to study both effects since magpie adults feed cuckoo and magpie nestlings with the same diet and, consequently, differences in gut microbiota of nestlings of these two species will mainly reflect the importance of genetic components. Moreover, the diet of adults and of nestling cuckoos drastically differ from each other and, thus, differences and similarities in their microbiotas would respectively reflect the effect of environmental and genetic factors. We used next-generation sequencing technologies to analyze the gut microbiota of cuckoo adults and nestlings and of magpie nestlings. The highest α-diversity estimates appeared in nestling cuckoos and the lowest in nestling magpies. Moreover, despite the greatest differences in the microbiome composition of magpies and cuckoos of both ages, cuckoo nestlings harbored a mixture of the Operational Taxonomic Units (OTUs) present in adult cuckoos and nestling magpies. We identified the bacterial taxa responsible for such results. These results suggest important phylogenetic components determining gut microbiome of nestlings, and that diet might be responsible for similarities between gut microbiome of cuckoo and magpie nestlings that allow cuckoos to digest food provided by magpie adults.

scholarly journals Fecal Microbiota Composition of a Mother-Infant Dyad in a Pig Model

2020 ◽  
Vol 4 (Supplement_2) ◽  
pp. 1015-1015
Author(s):  
Julie Jeon ◽  
Xi Fang ◽  
Jeferson Lourenco ◽  
Srujana Rayalam ◽  
Michael Rothrock ◽  
...  
Keyword(s):  
Gut Microbiome ◽  
Maternal Nutrition ◽  
Early Stage ◽  
Illumina Miseq ◽  
Well Being ◽  
Fecal Microbiota ◽  
Rrna Gene ◽  
Gut Health ◽  
Β Diversity ◽  
Α Diversity

Abstract Objectives Microbial programming in early life is associated with gut health and overall well-being in adulthood. The establishment of the nascent gut microbiome is substantially influenced by both maternal nutrition and the native maternal microbiome. Pig is recognized as a valuable model in gastrointestinal track research due to its remarkable similarity to humans in gastrointestinal anatomy, physiology, biochemistry, immunology, and pathology. This study examined the characteristics of the gut microflora in the sow-piglet dyad. Methods Fecal samples were collected from sows (n = 6) and piglets (n = 24) at weaning. Bacterial DNA was isolated from the feces and the V3-V4 region of 16 s rRNA gene was amplified and sequenced using the Illumina Miseq platform and analyzed by QIIME pipeline. Results Sows had a twice higher abundance of Firmicutes than piglets (84.28% vs 40.19%, P < 0.0001), although Firmicutes was the most abundant phyla in both sows and piglets. Instead, piglets had higher abundances of Bacteroidetes (36.41% vs 9.61%, P < 0.0001) and Proteobacteria (11.31% vs 0.87%, P = 0.005) than sows. Early colonization of Proteobacteria has been suggested to be important for development of neonatal immunity. Firmicutes to Bacteroidetes ratio was higher in sows than in piglets (16.32 vs 1.36, P < 0.0001), which is consistent with previous reports in humans. The five most abundant families in sows were Clostridiaceae (30.43%), Turicibacteraceae (17.13%), Ruminococcaceae (11.29%), Lactobacillaceae (8.27%), and Lachnospiraceae (4.99%), while those in piglets were Bacteroidaceae (23.96%), Lachnospiraceae (9.13%), Clostridiaceae (7.52%), Ruminococcaceae (6.80%), and Enterobacteriaceae (6.63%). Observed OTUs in sows were higher (P = 0.02) than those in piglets, suggesting that piglets at early stage of life have lower fecal α-diversity. Moreover, β-diversity was very different between sows and piglets (P = 0.01). Conclusions Sows and piglets showed distinctive pattern of fecal microflora, and piglets had fewer species numbers at weaning compared to that of sows. This finding will provide a valuable information for future transgenerational studies on the gut microbiome and its consequences for health using a sow-piglet dyad. Funding Sources Georgia Experimental Agricultural Station, UGA Faculty research grant, and Center for Chronic Disorders of Aging at the PCOM.

scholarly journals Cotrimoxazole Prophylaxis Increases Resistance Gene Prevalence and α-Diversity but Decreases β-Diversity in the Gut Microbiome of Human Immunodeficiency Virus–Exposed, Uninfected Infants

2019 ◽  
Vol 71 (11) ◽  
pp. 2858-2868 ◽  
Author(s):  
Alaric W D’Souza ◽  
Eshia Moodley-Govender ◽  
Bertram Berla ◽  
Tejas Kelkar ◽  
Bin Wang ◽  
...  
Keyword(s):  
Human Immunodeficiency Virus ◽  
Antibiotic Resistance ◽  
Resistance Gene ◽  
Gut Microbiome ◽  
Cotrimoxazole Prophylaxis ◽  
Β Diversity ◽  
Α Diversity ◽  
Immunodeficiency Virus ◽  
Functional Pathway ◽  
Exposed Uninfected

Abstract Background Prophylactic cotrimoxazole treatment is recommended in human immunodeficiency virus (HIV)–exposed, uninfected (HEU) infants, but the effects of this treatment on developing HEU infant gut microbiotas and resistomes are largely undefined. Methods We analyzed whole-metagenome sequencing data from 163 longitudinally collected stool samples from 63 HEU infants randomized to receive (n = 34; CTX-T) or to not receive (n = 29; CTX-N) prophylactic cotrimoxazole treatment. We generated taxonomic, functional pathway, and resistance gene profiles for each sample and compared microbiome signatures between the CTX-T and CTX-N infants. Results Metagenomic analysis did not reveal significant differences in taxonomic or functional pathway α-diversity between CTX-T and CTX-N infants. In contrast, resistance gene prevalence (P = .00719) and α-diversity (P = .0045) increased in CTX-T infants. These differences increased over time for both resistance gene prevalence measured by log-normalized abundance (4-month mean, 0.71 [95% confidence interval {CI}, .2–1.2] and 6-month mean, 0.85 [95% CI, .1–1.7]) and α-diversity (P = .0045). Unlike α-diversity, interindividual gut microbiome taxonomic (mean, −0.11 [95% CI, −.15 to −.077]), functional taxonomic (mean, −0.050 [95% CI, −.084 to −.017]), and resistance gene (mean, −0.13 [95% CI, −.17 to −.099]) β-diversity decreased in CTX-T infants compared with CTX-N infants. These results are consistent with persistent antibiotic selection pressure. Conclusions Cotrimoxazole prophylaxis in HEU infants decreased gut microbiome β-diversity and increased antibiotic resistance gene α-diversity and prevalence. Antibiotic resistance is a growing threat, especially in low- and middle-income countries where the higher perinatal HIV exposure rates result in cotrimoxazole prophylaxis. Understanding effects from current HEU infant antibiotic prophylaxis guidelines will inform guideline revisions and efforts to reduce increasing antibiotic resistance.

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