Your search keyword '"Fecal transplant"' showing total 357 results

1. Bariatric-induced microbiome changes alter MASLD development in association with changes in the innate immune system

Author

Shera, Simer, Katzka, William, Yang, Julianne C, Chang, Candace, Arias-Jayo, Nerea, Lagishetty, Venu, Balioukova, Anna, Chen, Yijun, Dutson, Erik, Li, Zhaoping, Mayer, Emeran A, Pisegna, Joseph R, Sanmiguel, Claudia, Pawar, Shrey, Zhang, David, Leitman, Madelaine, Hernandez, Laura, Jacobs, Jonathan P, and Dong, Tien S

Subjects

Biomedical and Clinical Sciences, Immunology, Liver Disease, Chronic Liver Disease and Cirrhosis, Digestive Diseases, Nutrition, Microbiome, Prevention, Women's Health, Clinical Research, Obesity, 2.1 Biological and endogenous factors, Inflammatory and immune system, Oral and gastrointestinal, Cardiovascular, Metabolic and endocrine, Good Health and Well Being, metastatic dysfunction-associated steatotic liver disease, obesity, host innate immune system, microbiome, fecal transplant, Environmental Science and Management, Soil Sciences, Microbiology, Medical microbiology

Abstract

IntroductionMetabolic dysfunction-associated steatotic liver disease (MASLD) affects nearly 25% of the population and is the leading cause for liver-related mortality. Bariatric surgery is a well-known treatment for MASLD and obesity. Understanding the fundamental mechanisms by which bariatric surgery can alter MASLD can lead to new avenues of therapy and research. Previous studies have identified the microbiome's role in bariatric surgery and in inflammatory immune cell populations. The host innate immune system modulates hepatic inflammation and fibrosis, and thus the progression of MASLD. The precise role of immune cell types in the pathogenesis of MASLD remains an active area of investigation. The aim of this study was to understand the interplay between microbiota composition post-bariatric surgery and the immune system in MASLD.MethodsEighteen morbidly obese females undergoing sleeve gastrectomy were followed pre-and post-surgery. Stool from four patients, showing resolved MASLD post-surgery with sustained weight loss, was transplanted into antibiotic treated mice. Mice received pre-or post-surgery stool and were fed a standard or high-fat diet. Bodyweight, food intake, and physiological parameters were tracked weekly. Metabolic parameters were measured post-study termination.ResultsThe human study revealed that bariatric surgery led to significant weight loss (p > 0.05), decreased inflammatory markers, and improved glucose levels six months post-surgery. Patients with weight loss of 20% or more showed distinct changes in blood metabolites and gut microbiome composition, notably an increase in Bacteroides. The mouse model confirmed surgery-induced microbiome changes to be a major factor in the reduction of markers and attenuation of MASLD progression. Mice receiving post-surgery fecal transplants had significantly less weight gain and liver steatosis compared to pre-surgery recipients. There was also a significant decrease in inflammatory cytokines interferon gamma, interleukin 2, interleukin 15, and mig. This was accompanied by alterations in liver immunophenotype, including an increase in natural killer T cells and reduction of Kupfer cells in the post-surgery transplant group.DiscussionOur findings suggest surgery induced microbial changes significantly reduce inflammatory markers and fatty liver progression. The results indicate a potential causal link between the microbiome and the host immune system, possibly mediated through modulation of liver NKT and Kupffer cells.

Published

2024

2. Immune Checkpoint Inhibitor–Induced Colitis.

Author

S. Thomas, Anusha, Lu, Yang, Campbell, Mathew, Thompson, John A., Tan, Dongfeng, Faleck, David M., and Wang, Yinghong

Published

2025

3. Microbiome Responses to Fecal Microbiota Transplantation in Cats with Chronic Digestive Issues.

Author

Rojas, Connie, Entrolezo, Zhandra, Jarett, Jessica, Jospin, Guillaume, Kingsbury, Dawn, Martin, Alex, Ganz, Holly, and Eisen, Jonathan

Subjects

FMT, antibiotics, diarrhea, domestic cats, dysbiosis, fecal microbiome, fecal transplant, gut microbiome, vomiting

Abstract

There is growing interest in the application of fecal microbiota transplants (FMTs) in small animal medicine, but there are few published studies that have tested their effects in the domestic cat (Felis catus). Here we use 16S rRNA gene sequencing to examine fecal microbiome changes in 46 domestic cats with chronic digestive issues that received FMTs using lyophilized stool that was delivered in oral capsules. Fecal samples were collected from FMT recipients before and two weeks after the end of the full course of 50 capsules, as well as from their stool donors (N = 10), and other healthy cats (N = 113). The fecal microbiomes of FMT recipients varied with host clinical signs and dry kibble consumption, and shifts in the relative abundances of Clostridium, Collinsella, Megamonas, Desulfovibrio and Escherichia were observed after FMT. Overall, donors shared 13% of their bacterial amplicon sequence variants (ASVs) with FMT recipients and the most commonly shared ASVs were classified as Prevotella 9, Peptoclostridium, Bacteroides, and Collinsella. Lastly, the fecal microbiomes of cats with diarrhea became more similar to the microbiomes of age-matched and diet-matched healthy cats compared to cats with constipation. Overall, our results suggest that microbiome responses to FMT may be modulated by the FMT recipients initial presenting clinical signs, diet, and their donors microbiome.

Published

2023

4. End-to-end donor screening and manufacturing controls: complementary quality-based strategies to minimize patient risk for donor-derived microbiome therapeutics

Author

Jason Goldsmith, Sarah Tomkovich, John G. Auniņš, Barbara H. McGovern, Jennifer C. Mahoney, Brooke R. Hasson, Christopher W J McChalicher, and David S. Ege

Subjects

Microbiome, microbiome therapeutics, live biotherapeutic products, stool donors, fecal transplant, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Advances in microbiome therapeutics have been motivated by a deeper understanding of the role that the gastrointestinal microbiome plays in human health and disease. The FDA approval of two stool-derived live biotherapeutic products (LBPs), REBYOTA® 150 mL enema (fecal microbiota, live-jslm; formerly RBX2660) and VOWST® oral capsules (fecal microbiota spores, live-brpk; formerly SER-109), for the prevention of recurrent CDI in adults following antibiotic treatment for recurrent CDI provides promise and insights for the development of LBPs for other diseases associated with microbiome dysfunction. Donor-derived products carry risk of disease transmission that must be mitigated through a robust donor screening program and downstream manufacturing controls. Most published recommendations for donor screening practices are prescriptive and do not include a systematic, risk-based approach for donor stool-derived products. A general framework for an end-to-end donor screening program is needed using risk management strategies for donor-derived microbiome therapeutic using a matrixed approach, combining the elements of donor screening with manufacturing controls that are designed to minimize risk to patients. A donor screening paradigm that incorporates medical history, physical examination, laboratory testing, and donor sample inspection are only the first steps in reducing risk of transmission of infectious agents. Manufacturing controls are the cornerstone of risk mitigation when screening unwittingly fails. Failure Mode and Effects Analysis (FMEA) can be used as a tool to assess for residual risk that requires further donor or manufacturing controls. Together, a well-reasoned donor program and manufacturing controls are complementary strategies that must be revisited and reexamined frequently with constant vigilance to mitigate risk to patients. In the spirit of full disclosure and informed consent, physicians should discuss any limitations in the donor screening and manufacturing processes with their patients prior to treatment with microbiome-based therapeutics.

Published

2024

5. Microbiota and Diseases Associated with Metabolic Syndrome

Author

Lluch-Bataller, Esther and Ruiz-Tovar, Jaime, editor

Published

2024

6. Fecal Microbiota Transplantation Modulates Gut Microbiome Composition and Glial Signaling in Brain and Colon of Rats with Neuropathic Pain: Evidence for Microbiota-Gut-Brain Axis

Author

Shen, Chwan-Li, Deshmukh, H., Santos, J. M., Elmassry, M. M., Presto, P., Driver, Z., Bhakta, V., Yakhnitsa, V., Kiritoshi, T., Ji, G., Lovett, J., Hamood, A., and Neugebauer, V.

Published

2024

7. Clostridioides Difficile: A Concise Review of Best Practices and Updates.

Author

Yakout, Abdelrahman, Bi, Yan, and Harris, Dana M.

Subjects

CLOSTRIDIUM disease treatment, CROSS infection prevention, THERAPEUTIC use of monoclonal antibodies, FECAL microbiota transplantation, CLOSTRIDIUM diseases, PHENOMENOLOGICAL biology, CLOSTRIDIOIDES difficile, DISEASE management, SEVERITY of illness index, BIOTHERAPY, VANCOMYCIN, MICROBIOLOGY, FIDAXOMICIN, PSEUDOMEMBRANOUS enterocolitis, EVALUATION

Abstract

Clostridioides difficile infection (CDI) is one of the most common and severe nosocomial infections worldwide. It can also affect healthy individuals in the community. The incidence of CDI has been on the rise globally for the past decade, necessitating a proactive approach to combat its spread; new strategies are being developed to enhance diagnostic accuracy and optimize treatment outcomes. Implementing the 2-step testing has increased diagnostic specificity, reducing the usage of CD-specific antibiotics with no concomitant increase in surgical complication rates. In 2021, the Infectious Diseases Society of America/Society for Healthcare Epidemiology of America (IDSA/SHEA) shifted its preference for initial treatment to fidaxomicin over vancomycin and metronidazole due to its lower recurrence rate. It also prioritized fidaxomicin for the treatment of recurrent CDI. There are new developments on the frontiers of fecal microbiota therapies, with RBX2660 and SER-109 approved recently by the FDA for prevention, with other microbiome-based therapies in various development and clinical trials. This review offers providers an updated and practical guide for CDI management. [ABSTRACT FROM AUTHOR]

Published

2024

8. Bariatric-induced microbiome changes alter MASLD development in association with changes in the innate immune system

Author

Simer Shera, William Katzka, Julianne C. Yang, Candace Chang, Nerea Arias-Jayo, Venu Lagishetty, Anna Balioukova, Yijun Chen, Erik Dutson, Zhaoping Li, Emeran A. Mayer, Joseph R. Pisegna, Claudia Sanmiguel, Shrey Pawar, David Zhang, Madelaine Leitman, Laura Hernandez, Jonathan P. Jacobs, and Tien S. Dong

Subjects

metastatic dysfunction-associated steatotic liver disease, obesity, host innate immune system, microbiome, fecal transplant, Microbiology, QR1-502

Abstract

IntroductionMetabolic dysfunction-associated steatotic liver disease (MASLD) affects nearly 25% of the population and is the leading cause for liver-related mortality. Bariatric surgery is a well-known treatment for MASLD and obesity. Understanding the fundamental mechanisms by which bariatric surgery can alter MASLD can lead to new avenues of therapy and research. Previous studies have identified the microbiome’s role in bariatric surgery and in inflammatory immune cell populations. The host innate immune system modulates hepatic inflammation and fibrosis, and thus the progression of MASLD. The precise role of immune cell types in the pathogenesis of MASLD remains an active area of investigation. The aim of this study was to understand the interplay between microbiota composition post-bariatric surgery and the immune system in MASLD.MethodsEighteen morbidly obese females undergoing sleeve gastrectomy were followed pre-and post-surgery. Stool from four patients, showing resolved MASLD post-surgery with sustained weight loss, was transplanted into antibiotic treated mice. Mice received pre-or post-surgery stool and were fed a standard or high-fat diet. Bodyweight, food intake, and physiological parameters were tracked weekly. Metabolic parameters were measured post-study termination.ResultsThe human study revealed that bariatric surgery led to significant weight loss (p > 0.05), decreased inflammatory markers, and improved glucose levels six months post-surgery. Patients with weight loss of 20% or more showed distinct changes in blood metabolites and gut microbiome composition, notably an increase in Bacteroides. The mouse model confirmed surgery-induced microbiome changes to be a major factor in the reduction of markers and attenuation of MASLD progression. Mice receiving post-surgery fecal transplants had significantly less weight gain and liver steatosis compared to pre-surgery recipients. There was also a significant decrease in inflammatory cytokines interferon gamma, interleukin 2, interleukin 15, and mig. This was accompanied by alterations in liver immunophenotype, including an increase in natural killer T cells and reduction of Kupfer cells in the post-surgery transplant group.DiscussionOur findings suggest surgery induced microbial changes significantly reduce inflammatory markers and fatty liver progression. The results indicate a potential causal link between the microbiome and the host immune system, possibly mediated through modulation of liver NKT and Kupffer cells.

Published

2024

9. The Gut Microbiota and Inflammatory Bowel Disease

Author

Conrad, Máire A., Wu, Gary D., Kelsen, Judith R., Mamula, Petar, editor, Kelsen, Judith R., editor, Grossman, Andrew B., editor, Baldassano, Robert N., editor, and Markowitz, Jonathan E., editor

Published

2023

10. Diabetes Mellitus and Microbiota: Knowledge and Perspectives

Author

Rizzo, Gaetano Emanuele, Rizzi, Alessandro, Tartaglione, Linda, Leo, Maria Laura, Viti, Luca, Di Leo, Mauro, Pitocco, Dario, Rattan, Suresh I.S., Editor-in-Chief, Barbagallo, Mario, Editorial Board Member, Çakatay, Ufuk, Editorial Board Member, Fraifeld, Vadim E., Editorial Board Member, Fülöp, Tamàs, Editorial Board Member, Gruber, Jan, Editorial Board Member, Jin, Kunlin, Editorial Board Member, Kaul, Sunil, Editorial Board Member, Kaur, Gurcharan, Editorial Board Member, Le Bourg, Eric, Editorial Board Member, Lopez Lluch, Guillermo, Editorial Board Member, Moskalev, Alexey, Editorial Board Member, Nehlin, Jan, Editorial Board Member, Pawelec, Graham, Editorial Board Member, Rizvi, Syed Ibrahim, Editorial Board Member, Sholl, Jonathan, Editorial Board Member, Stambler, Ilia, Editorial Board Member, Szczerbińska, Katarzyna, Editorial Board Member, Trougakos, Ioannis P., Editorial Board Member, Wadhwa, Renu, Editorial Board Member, Wnuk, Maciej, Editorial Board Member, and Marotta, Francesco, editor

Published

2023

11. Host Genetic Background and Gut Microbiota Contribute to Differential Metabolic Responses to Fructose Consumption in Mice

Author

Ahn, In Sook, Lang, Jennifer M, Olson, Christine A, Diamante, Graciel, Zhang, Guanglin, Ying, Zhe, Byun, Hyae Ran, Cely, Ingrid, Ding, Jessica, Cohn, Peter, Kurtz, Ira, Gomez-Pinilla, Fernando, Lusis, Aldons J, Hsiao, Elaine Y, and Yang, Xia

Subjects

Biomedical and Clinical Sciences, Nutrition and Dietetics, Genetics, Microbiome, 2.1 Biological and endogenous factors, Animals, Bacteria, Cecum, Energy Metabolism, Fecal Microbiota Transplantation, Feces, Fructose, Gastrointestinal Microbiome, Male, Mice, Mice, Inbred Strains, Random Allocation, gut microbiota, fructose, metabolic syndrome, fecal transplant, Akkermansia, microbiota-host interaction, gene by diet interaction, Animal Production, Food Sciences, Nutrition & Dietetics, Animal production, Food sciences, Nutrition and dietetics

Abstract

BackgroundIt is unclear how high fructose consumption induces disparate metabolic responses in genetically diverse mouse strains.ObjectiveWe aimed to investigate whether the gut microbiota contributes to differential metabolic responses to fructose.MethodsEight-week-old male C57BL/6J (B6), DBA/2J (DBA), and FVB/NJ (FVB) mice were given 8% fructose solution or regular water (control) for 12 wk. The gut microbiota composition in cecum and feces was analyzed using 16S ribosomal DNA sequencing, and permutational multivariate ANOVA (PERMANOVA) was used to compare community across mouse strains, treatments, and time points. Microbiota abundance was correlated with metabolic phenotypes and host gene expression in hypothalamus, liver, and adipose tissues using Biweight midcorrelation. To test the causal role of the gut microbiota in determining fructose response, we conducted fecal transplants from B6 to DBA mice and vice versa for 4 wk, as well as gavaged antibiotic-treated DBA mice with Akkermansia for 9 wk, accompanied with or without fructose treatment.ResultsCompared with B6 and FVB, DBA mice had significantly higher Firmicutes to Bacteroidetes ratio and lower baseline abundance of Akkermansia and S24-7 (P

Published

2020

12. The human gut virome: composition, colonization, interactions, and impacts on human health.

Author

Pargin, Evan, Roach, Michael J., Skye, Amber, Papudeshi, Bhavya, Inglis, Laura K., Mallawaarachchi, Vijini, Grigson, Susanna R., Harker, Clarice, Edwards, Robert A., and Giles, Sarah K.

Subjects

GUT microbiome, DARK matter, DISEASE progression, CHRONIC diseases, HUMAN beings, FECAL microbiota transplantation

Abstract

The gut virome is an incredibly complex part of the gut ecosystem. Gut viruses play a role in many disease states, but it is unknown to what extent the gut virome impacts everyday human health. New experimental and bioinformatic approaches are required to address this knowledge gap. Gut virome colonization begins at birth and is considered unique and stable in adulthood. The stable virome is highly specific to each individual and is modulated by varying factors such as age, diet, disease state, and use of antibiotics. The gut virome primarily comprises bacteriophages, predominantly order Crassvirales, also referred to as crAss-like phages, in industrialized populations and other Caudoviricetes (formerly Caudovirales). The stability of the virome's regular constituents is disrupted by disease. Transferring the fecal microbiome, including its viruses, from a healthy individual can restore the functionality of the gut. It can alleviate symptoms of chronic illnesses such as colitis caused by Clostridiodes difficile. Investigation of the virome is a relatively novel field, with new genetic sequences being published at an increasing rate. A large percentage of unknown sequences, termed 'viral dark matter', is one of the significant challenges facing virologists and bioinformaticians. To address this challenge, strategies include mining publicly available viral datasets, untargeted metagenomic approaches, and utilizing cutting-edge bioinformatic tools to quantify and classify viral species. Here, we review the literature surrounding the gut virome, its establishment, its impact on human health, the methods used to investigate it, and the viral dark matter veiling our understanding of the gut virome. [ABSTRACT FROM AUTHOR]

Published

2023

13. Fecal microbiota transplants modulate the gut microbiome of a two‐toed sloth (Choloepus didactylus).

Author

Thacher, Piper R., Kendrick, Erin L., Maslanka, Michael, Muletz‐Wolz, Carly R., and Bornbusch, Sally L.

Abstract

The microbes inhabiting an animal's gastrointestinal tracts, collectively known as the gut microbiome, are vital to animal health and wellbeing. For animals experiencing gut distress or infection, modulation of the gut microbiome, for example, via fecal microbiota transplant (FMT), provides a possible disease prevention and treatment method. The beneficial microbes present in the donor's transplanted feces can help combat pathogens, assist in digestion, and rebalance the recipient's microbiota. Investigating the efficacy of FMTs in animal health is a crucial step toward improving management strategies for species under human care. We present a case study of the use of FMTs in a two‐toed sloth experiencing abnormally large, clumped, and frequent stools. We used 16 S rRNA amplicon sequencing of fecal samples to (a) compare the microbiomes of the FMT donor, a healthy, cohoused conspecific, and the FMT recipient and (b) assess the influence of multiple rounds of FMTs on the recipient's microbiome and stool consistency and frequency over time. In response to the FMTs, we found that the recipient's microbiome showed trends toward increased diversity, shifted community composition, and altered membership that more resembled the community of the donor. FMT treatment was also associated with marked, yet temporary, alleviation of the recipient's abnormal bowel movements, suggesting a broader impact on gut health. Our results provide valuable preliminary evidence that FMT treatments can augment the recipient's gut microbiome, with potential implications for animal health and management. Research Highlights: Microbial 16 S rRNA sequencing of two‐toed sloth fecal samples revealed that multiple rounds of fecal microbiota transplants (FMTs) shifted the diversity, composition, and membership of a recipient's microbiome so that it more resembled that of the healthy FMT donor. This alteration in microbial communities corresponded with the alleviation of the recipient's frequent, abnormal stools. FMTs offer a way to rebalance a dysbiotic gut microbiome, with significant applied value for a wide range of species. [ABSTRACT FROM AUTHOR]

Published

2023

14. Fecal microbiota transplant for Crohn disease: A study evaluating safety, efficacy, and microbiome profile

Author

Gutin, Liat, Piceno, Yvette, Fadrosh, Douglas, Lynch, Kole, Zydek, Martin, Kassam, Zain, LaMere, Brandon, Terdiman, Jonathan, Ma, Averil, Somsouk, Ma, Lynch, Susan, and El-Nachef, Najwa

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Transplantation, Genetics, Clinical Trials and Supportive Activities, Digestive Diseases, Clinical Research, Patient Safety, Autoimmune Disease, Crohn's Disease, Inflammatory Bowel Disease, Human Genome, Nutrition, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Oral and gastrointestinal, Adolescent, Adult, Aged, Crohn Disease, Fecal Microbiota Transplantation, Female, Gastrointestinal Microbiome, Humans, Male, Metagenomics, Middle Aged, RNA, Ribosomal, 16S, Treatment Outcome, Young Adult, Crohn disease, dysbiosis, fecal transplant, inflammatory bowel disease, microbiome, Clinical sciences

Abstract

BackgroundEmerging trials suggest fecal microbiota transplantation (FMT) is a promising treatment for ulcerative colitis; however, there is a paucity of data in Crohn disease (CD).ObjectiveThe objectives of this article are to determine whether single-dose FMT improves clinical and endoscopic outcomes in CD patients and to identify meaningful changes in the microbiome in response to FMT.MethodsWe performed a prospective, open-label, single-center study. Ten CD patients underwent FMT and were evaluated for clinical response (defined as decrease in Harvey-Bradshaw Index score ≥3 at one month post-FMT) and microbiome profile (16S ribosomal RNA sequencing) at one month post-FMT.ResultsThree of 10 patients responded to FMT. Two of 10 patients had significant adverse events requiring escalation of therapy. On microbiome analysis, bacterial communities of responders had increased relative abundance of bacteria commonly found in donor gut microbiota.ConclusionsSingle-dose FMT in this cohort of CD patients showed modest effect and potential for harm. Responders tended to have lower baseline alpha diversity, suggesting baseline perturbation of microbiota may be an indicator of potential responders to FMT in this patient population. Controlled trials are needed to further assess the efficacy and safety of FMT in CD and determine whether FMT is a viable option in this patient population.Clinicaltrials.gov number: NCT02460705.

Published

2019

15. HIV and the Gut Microbiota: Composition, Consequences, and Avenues for Amelioration

Author

Vujkovic-Cvijin, Ivan and Somsouk, Ma

Subjects

Complementary and Integrative Health, HIV/AIDS, Infectious Diseases, Digestive Diseases, Clinical Research, Nutrition, Aetiology, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Bacteria, Disease Progression, Fecal Microbiota Transplantation, Gastrointestinal Microbiome, HIV Infections, Humans, Inflammation, Gut microbiota, Fecal transplant, Engraftment, HIV, Immunology, Medical Microbiology, Virology

Abstract

Purpose of reviewWe discuss recent advances in understanding of gut bacterial microbiota composition in HIV-infected subjects and comment on controversies. We discuss the putative effects of microbiota shifts on systemic inflammation and HIV disease progression and potential mechanisms, as well as ongoing strategies being developed to modulate the gut microbiota in humans for amelioration of infectious and inflammatory diseases.Recent findingsLifestyle and behavioral factors relevant to HIV infection studies have independent effects on the microbiota. Microbial metabolism of immunomodulatory compounds and direct immune stimulation by translocation of microbes are putative mechanisms contributing to HIV disease. Fecal microbiota transplantation, microbial enzyme inhibition, phage therapy, and rationally selected probiotic cocktails have emerged as promising strategies for microbiota modulation. Numerous surveys of the HIV gut microbiota matched for lifestyle factors suggest consistent shifts in gut microbiota composition among HIV-infected subjects. Evidence exists for a complex pathogenic role of the gut microbiota in HIV disease progression, warranting further study.

Published

2019

16. The human gut virome: composition, colonization, interactions, and impacts on human health

Author

Evan Pargin, Michael J. Roach, Amber Skye, Bhavya Papudeshi, Laura K. Inglis, Vijini Mallawaarachchi, Susanna R. Grigson, Clarice Harker, Robert A. Edwards, and Sarah K. Giles

Subjects

bacteriophage, fecal transplant, virus, gut-brain axis, viral dark matter, Microbiology, QR1-502

Abstract

The gut virome is an incredibly complex part of the gut ecosystem. Gut viruses play a role in many disease states, but it is unknown to what extent the gut virome impacts everyday human health. New experimental and bioinformatic approaches are required to address this knowledge gap. Gut virome colonization begins at birth and is considered unique and stable in adulthood. The stable virome is highly specific to each individual and is modulated by varying factors such as age, diet, disease state, and use of antibiotics. The gut virome primarily comprises bacteriophages, predominantly order Crassvirales, also referred to as crAss-like phages, in industrialized populations and other Caudoviricetes (formerly Caudovirales). The stability of the virome’s regular constituents is disrupted by disease. Transferring the fecal microbiome, including its viruses, from a healthy individual can restore the functionality of the gut. It can alleviate symptoms of chronic illnesses such as colitis caused by Clostridiodes difficile. Investigation of the virome is a relatively novel field, with new genetic sequences being published at an increasing rate. A large percentage of unknown sequences, termed ‘viral dark matter’, is one of the significant challenges facing virologists and bioinformaticians. To address this challenge, strategies include mining publicly available viral datasets, untargeted metagenomic approaches, and utilizing cutting-edge bioinformatic tools to quantify and classify viral species. Here, we review the literature surrounding the gut virome, its establishment, its impact on human health, the methods used to investigate it, and the viral dark matter veiling our understanding of the gut virome.

Published

2023

17. Editorial: Improving the gut microbiome: applications of fecal transplantation in disease

Author

Sandra García-Mateo and Angel Lanas

Subjects

fecal transplant, bacteria, microbioma, gastrointestinal, inflammatory bowel conditions, Medicine (General), R5-920

Published

2023

18. Antimicrobial Resistance and Recent Alternatives to Antibiotics for the Control of Bacterial Pathogens with an Emphasis on Foodborne Pathogens.

Author

Helmy, Yosra A., Taha-Abdelaziz, Khaled, Hawwas, Hanan Abd El-Halim, Ghosh, Soumya, AlKafaas, Samar Sami, Moawad, Mohamed M. M., Saied, Essa M., Kassem, Issmat I., and Mawad, Asmaa M. M.

Subjects

DRUG resistance in microorganisms, FOOD pathogens, SMALL molecules, ORGANIC acids, DRUG resistance in bacteria, ANTIBIOTICS assay, CARVACROL

Abstract

Antimicrobial resistance (AMR) is one of the most important global public health problems. The imprudent use of antibiotics in humans and animals has resulted in the emergence of antibiotic-resistant bacteria. The dissemination of these strains and their resistant determinants could endanger antibiotic efficacy. Therefore, there is an urgent need to identify and develop novel strategies to combat antibiotic resistance. This review provides insights into the evolution and the mechanisms of AMR. Additionally, it discusses alternative approaches that might be used to control AMR, including probiotics, prebiotics, antimicrobial peptides, small molecules, organic acids, essential oils, bacteriophage, fecal transplants, and nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2023

19. Successful Use of Fecal Microbiota Transplantation in Management of Nonobstructive Recurrent Cholangitis Following Total Pancreatectomy and Islet Autotransplant.

Author

Scott A, Khoruts A, Freeman ML, Beilman G, Ramanathan K, Bellin MD, and Trikudanathan G

Abstract

Alterations in the gut microbiome have been implicated in various pathologies. Fecal microbiota transplantation (FMT) has been offered as a novel treatment for conditions implicated in the disruption of the gut-microbiota axis. This case report details the successful treatment of recurrent nonobstructive cholangitis following a single FMT application in a patient who had previously undergone a hepatobiliary tract surgical diversion. Cholangitis was suspected secondary to reflux of an altered microbiome into the surgically reanastomosed biliary tract, and FMT was justified based on the history of recurrent Clostridioides difficile infections. This case supports the further evaluation of the utility of FMT as one potential treatment of post hepatobiliary surgical diversion cholangitis., (© 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of The American College of Gastroenterology.)

Published

2024

20. Immune Checkpoint Inhibitor-Induced Colitis.

Author

S Thomas A, Lu Y, Campbell M, Thompson JA, Tan D, Faleck DM, and Wang Y

Published

2024

21. Diagnosis and Management of Clostridium difficile Infection (CDI)

Author

Johnson, Paul C., Le, Minh, Sims, Matthew D., Bozyk, Paul D., Hyzy, Robert C., editor, and McSparron, Jakob, editor

Published

2020

22. Gut microbiota dysbiosis contributes to the development of chronic obstructive pulmonary disease

Author

Naijian Li, Zhouli Dai, Zhang Wang, Zhishan Deng, Jiahuan Zhang, Jinding Pu, Weitao Cao, Tianhui Pan, Yumin Zhou, Zhaowei Yang, Jing Li, Bing Li, and Pixin Ran

Subjects

COPD, Gut microbiome, Fecal transplant, Mice, Lung inflammation, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Dysbiosis of the gut microbiome is involved in the pathogenesis of various diseases, but the contribution of gut microbes to the progression of chronic obstructive pulmonary disease (COPD) is still poorly understood. Methods We carried out 16S rRNA gene sequencing and short-chain fatty acid analyses in stool samples from a cohort of 73 healthy controls, 67 patients with COPD of GOLD stages I and II severity, and 32 patients with COPD of GOLD stages III and IV severity. Fecal microbiota from the three groups were then inoculated into recipient mice for a total of 14 times in 28 days to induce pulmonary changes. Furthermore, fecal microbiota from the three groups were inoculated into mice exposed to smoke from biomass fuel to induce COPD-like changes. Results We observed that the gut microbiome of COPD patients varied from that of healthy controls and was characterized by a distinct overall microbial diversity and composition, a Prevotella-dominated gut enterotype and lower levels of short-chain fatty acids. After 28 days of fecal transplantation from COPD patients, recipient mice exhibited elevated lung inflammation. Moreover, when mice were under both fecal transplantation and biomass fuel smoke exposure for a total of 20 weeks, accelerated declines in lung function, severe emphysematous changes, airway remodeling and mucus hypersecretion were observed. Conclusion These data demonstrate that altered gut microbiota in COPD patients is associated with disease progression in mice model.

Published

2021

23. Microbiome Responses to Fecal Microbiota Transplantation in Cats with Chronic Digestive Issues

Author

Connie A. Rojas, Zhandra Entrolezo, Jessica K. Jarett, Guillaume Jospin, Dawn D. Kingsbury, Alex Martin, Jonathan A. Eisen, and Holly H. Ganz

Subjects

FMT, fecal transplant, fecal microbiome, gut microbiome, dysbiosis, diarrhea, Veterinary medicine, SF600-1100

Abstract

There is growing interest in the application of fecal microbiota transplants (FMTs) in small animal medicine, but there are few published studies that have tested their effects in the domestic cat (Felis catus). Here we use 16S rRNA gene sequencing to examine fecal microbiome changes in 46 domestic cats with chronic digestive issues that received FMTs using lyophilized stool that was delivered in oral capsules. Fecal samples were collected from FMT recipients before and two weeks after the end of the full course of 50 capsules, as well as from their stool donors (N = 10), and other healthy cats (N = 113). The fecal microbiomes of FMT recipients varied with host clinical signs and dry kibble consumption, and shifts in the relative abundances of Clostridium, Collinsella, Megamonas, Desulfovibrio and Escherichia were observed after FMT. Overall, donors shared 13% of their bacterial amplicon sequence variants (ASVs) with FMT recipients and the most commonly shared ASVs were classified as Prevotella 9, Peptoclostridium, Bacteroides, and Collinsella. Lastly, the fecal microbiomes of cats with diarrhea became more similar to the microbiomes of age-matched and diet-matched healthy cats compared to cats with constipation. Overall, our results suggest that microbiome responses to FMT may be modulated by the FMT recipient’s initial presenting clinical signs, diet, and their donor’s microbiome.

Published

2023

24. Modifications of Behavior and Inflammation in Mice Following Transplant with Fecal Microbiota from Children with Autism.

Author

Avolio, Ennio, Olivito, Ilaria, Rosina, Eleonora, Romano, Lorenzo, Angelone, Tommaso, De Bartolo, Anna, Scimeca, Manuel, Bellizzi, Dina, D'Aquila, Patrizia, Passarino, Giuseppe, Alò, Raffaella, Facciolo, Rosa Maria, Bagni, Claudia, De Lorenzo, Antonino, and Canonaco, Marcello

Subjects

*FECAL microbiota transplantation, *AUTISTIC children, *AUTISM in children, *AUTISM spectrum disorders, *MAZE tests, *ASPERGER'S syndrome, *CELIAC disease

Abstract

• Modifications of behavior and inflammatory factors in mice gut-brain axis. • Key role of gut microbiota during the different developmental phases of ASD. • Fecal microbiota transplant impairs ASD symptoms. Autism spectrum disorder (ASD) is a neurodevelopmental disorder displaying the modification of complex human behaviors, characterized by social interaction impairments, stereotypical/repetitive activities and emotional dysregulation. In this study, fecal microbiota transplant (FMT) via gavage from autistic children donors to mice, led to the colonization of ASD-like microbiota and autistic behaviors compared to the offspring of pregnant females exposed to valproic acid (VPA). Such variations seemed to be tightly associated with increased populations of Tenericutes plus a notable reduction (p < 0.001) of Actinobacteria and Candidatus S. in the gastrointestinal region of FMT mice as compared to controls. Indeed altered behaviors of FMT mice was reported when evaluated in the different maze tests (light dark, novel object, three chamber tests, novel cage test). Contextually, FMT accounted for elevated expression levels of the pro-inflammatory factors IL-1β, IL-6, COX-1 and TNF-α in both brain and small intestine. Villous atrophy and inflammatory infiltration (Caspase 3 and Ki67) were increased in the small intestine of FMT and VPA mice compared to controls. Moreover, the observed FMT-dependent alterations were linked to a decrease in the methylation status. Overall, findings of the present study corroborate a key role of gut microbiota in ASD. However, further investigations are required before any possible manipulation of gut bacteria with appropriate diets or probiotics can be conducted in ASD individuals. [ABSTRACT FROM AUTHOR]

Published

2022

25. Treatment of wild-type mice with 2,3-butanediol, a urinary biomarker of Fmo5-/- mice, decreases plasma cholesterol and epididymal fat deposition.

Author

Veeravalli, Sunil, Varshavi, Dorsa, Scott, Flora H., Varshavi, Dorna, Pullen, Frank S., Veselkov, Kirill, Phillips, Ian R., Everett, Jeremy R., and Shephard, Elizabeth A.

Subjects

BUSULFAN, CHOLESTEROL, NUCLEAR magnetic resonance, BLOOD sugar, FAT

Abstract

We previously showed that Fmo5-/- mice exhibit a lean phenotype and slower metabolic ageing. Their characteristics include lower plasma glucose and cholesterol, greater glucose tolerance and insulin sensitivity, and a reduction in age-related weight gain and whole-body fat deposition. In this paper, nuclear magnetic resonance (NMR) spectroscopy-based metabolite analyses of the urine of Fmo5-/- and wild-type mice identified two isomers of 2,3-butanediol as discriminating urinary biomarkers of Fmo5-/- mice. Antibiotic-treatment of Fmo5-/- mice increased plasma cholesterol concentration and substantially reduced urinary excretion of 2,3-butanediol isomers, indicating that the gut microbiome contributed to the lower plasma cholesterol of Fmo5-/- mice, and that 2,3-butanediol is microbially derived. Short- and long-term treatment of wild-type mice with a 2,3-butanediol isomer mix decreased plasma cholesterol and epididymal fat deposition but had no effect on plasma concentrations of glucose or insulin, or on body weight. In the case of long-term treatment, the effects were maintained after withdrawal of 2,3-butanediol. Short-, but not long-term treatment, also decreased plasma concentrations of triglycerides and non-esterified fatty acids. Fecal transplant from Fmo5-/- to wild-type mice had no effect on plasma cholesterol, and 2,3-butanediol was not detected in the urine of recipient mice, suggesting that the microbiota of the large intestine was not the source of 2,3-butanediol. However, 2,3-butanediol was detected in the stomach of Fmo5-/- mice, which was enriched for Lactobacillus genera, known to produce 2,3-butanediol. Our results indicate a microbial contribution to the phenotypic characteristic of Fmo5-/- mice of decreased plasma cholesterol and identify 2,3-butanediol as a potential agent for lowering plasma cholesterol. [ABSTRACT FROM AUTHOR]

Published

2022

26. Limited engraftment of donor microbiome via one-time fecal microbial transplantation in treated HIV-infected individuals

Author

Vujkovic-Cvijin, Ivan, Rutishauser, Rachel L, Pao, Montha, Hunt, Peter W, Lynch, Susan V, McCune, Joseph M, and Somsouk, Ma

Subjects

Microbiology, Biological Sciences, Sexually Transmitted Infections, Digestive Diseases, HIV/AIDS, Transplantation, Clinical Research, Minority Health, Health Disparities, Microbiome, Infectious Diseases, 2.1 Biological and endogenous factors, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Aetiology, Infection, Good Health and Well Being, Adult, Aged, Dysbiosis, Fecal Microbiota Transplantation, Gastrointestinal Microbiome, HIV Infections, Humans, Male, Middle Aged, Treatment Outcome, Microbiota, fecal transplant, engraftment, HIV, inflammation, fecal microbiome transplant, microbiome engraftment

Abstract

Many HIV-infected individuals on antiretroviral therapy (ART) exhibit persistent systemic inflammation, which predicts morbidity and mortality. ART-treated subjects concurrently exhibit marked compositional alterations in the gut bacterial microbiota and the degree of dysbiosis correlates with systemic inflammation. Whether interventions to modulate the microbiome can affect systemic inflammation is unknown. An open-label fecal microbial transplantation (FMT) was delivered by colonoscopy to asymptomatic HIV-infected ART-suppressed individuals without antibiotic pre-treatment. Stool was assessed before and after FMT for engraftment of donor microbes, and peripheral blood was assayed for immune activation biomarkers. Six participants received FMT and 2 participants served as controls. No serious adverse effects occurred during 24 weeks of follow-up. At baseline, HIV-infected individuals exhibited microbiota profiles distinct from uninfected donors. During the 8 weeks post-FMT, recipients demonstrated partial engraftment of the donor microbiome (P < 0.05). Recipient microbiota remained significantly distant from donors, unlike that observed following FMT for treatment of C. difficile infection. Systemic inflammatory markers showed no significant change post-FMT. FMT was well-tolerated in ART-treated, HIV-infected individuals. Engraftment was detectable but modest, and appeared to be limited to specific bacterial taxa. Whether antibiotic conditioning can enhance engraftment and the capacity of microbiota to modulate inflammation remains to be investigated.

Published

2017

27. Efficacy of Sterile Fecal Filtrate Transfer for Treating Patients With Clostridium difficile Infection

Author

Ott, Stephan J, Waetzig, Georg H, Rehman, Ateequr, Moltzau-Anderson, Jacqueline, Bharti, Richa, Grasis, Juris A, Cassidy, Liam, Tholey, Andreas, Fickenscher, Helmut, Seegert, Dirk, Rosenstiel, Philip, and Schreiber, Stefan

Subjects

Prevention, Digestive Diseases, Infectious Diseases, Genetics, Emerging Infectious Diseases, Infection, Good Health and Well Being, Aged, Clostridioides difficile, Enterocolitis, Pseudomembranous, Fecal Microbiota Transplantation, Female, Filtration, Gastrointestinal Microbiome, Gastrointestinal Tract, Humans, Male, Middle Aged, Proteome, Recurrence, Sterilization, Fecal Transplant, Intestinal Microbiome, Feces, Microbe, Clinical Sciences, Neurosciences, Paediatrics and Reproductive Medicine, Gastroenterology & Hepatology

Abstract

Background & aimsFecal microbiota transplantation (FMT) is a highly effective therapy for recurrent Clostridium difficile infection (CDI). However, transferring undefined living bacteria entails uncontrollable risks for infectious and metabolic or malignant diseases, particularly in immunocompromised patients. We investigated whether sterile fecal filtrates (containing bacterial debris, proteins, antimicrobial compounds, metabolic products, and oligonucleotides/DNA), rather than intact microorganisms, are effective in patients with CDI.MethodsWe performed a clinical case series to investigate the effects of fecal filtrate transfer (FFT) in 5 patients with symptomatic chronic-relapsing CDI at the Department of Internal Medicine I at the University Hospital Schleswig-Holstein (Kiel, Germany). Patients were followed up for at least 6 months and for up to 33 months. Stool was collected from 5 donors selected by the patients, and fully characterized according to FMT standards. Stool was sterile-filtered to remove small particles and bacteria; the filtrate was transferred to patients in a single administration via nasojejunal tube. Fecal samples were collected from patients before and at 1 week and 6 weeks after FFT. Microbiome, virome, and proteome profiles of donors and patients were compared.ResultsIn all 5 patients, FFT restored normal stool habits and eliminated symptoms of CDI for a minimum period of 6 months. Proteome analyses of selected FFT filtrates showed no obvious protein candidates associated with therapeutic efficacy. 16S ribosomal RNA gene sequencing detected diverse bacterial DNA signatures in the filtrates. Analysis of virus-like particles from a filtrate found to reduce symptoms of CDI showed a complex signature of bacteriophages. Bacterial phylogeny and virome profile analyses of fecal samples from recipients indicated longitudinal changes in microbial and viral community structures after FFT.ConclusionsA preliminary investigation of 5 patients with CDI shows that transfer of sterile filtrates from donor stool (FFT), rather than fecal microbiota, can be sufficient to restore normal stool habits and eliminate symptoms. This finding indicates that bacterial components, metabolites, or bacteriophages mediate many of the effects of FMT, and that FFT might be an alternative approach, particularly for immunocompromised patients.

Published

2017

28. Perceptions of fecal microbiota transplantation for Clostridium difficile infection: factors that predict acceptance.

Author

Park, Leslie, Mone, Anjali, Price, Jennifer C, Tzimas, Demetrios, Hirsh, Jacqueline, Poles, Michael A, Malter, Lisa, and Chen, Lea Ann

Subjects

Clostridium difficile, FMT, Fecal microbiota transplantation, fecal transplant, patient perceptions, Clinical Sciences

Abstract

BackgroundDespite the effectiveness of fecal microbiota transplantation (FMT) for treating recurrent Clostridium difficile (C. difficile) infection, some patients are reluctant to accept this therapy. Our study examined attitudes towards FMT and factors that contribute to patients' acceptance of this treatment.MethodsWe distributed patient surveys at a Veterans Affairs hospital, a public hospital, and an academic faculty practice. Multivariable logistic regression was performed, adjusting for factors associated with FMT acceptance on univariate analysis and prior experience with C. difficile infection.ResultsOf 267 patients, only 12% knew of FMT prior to the survey, but 77% would undergo the procedure if medically indicated. On multivariable analysis, those with children and with college degrees or higher were more likely to agree to FMT (odds ratio [OR] 2.11, 95% confidence interval [CI] 1.02-4.35; OR 2.27, 95% CI 1.11-4.60 respectively). Sixty-five respondents (71%) chose colonoscopy as the preferred vehicle for FMT, while nasogastric tube was least preferred. Disease transmission was the most common concern (30%, n=242), and FMT success rate was the least selected concern (9.1%).ConclusionsMost patients in a diverse sample of gastroenterology clinics had no prior knowledge of FMT, but were receptive to the procedure. Having children and higher education levels were predictors for FMT acceptance. Our findings suggest that barriers to FMT utilization may be overcome with counseling about safety concerns. More data on the risk of transmitting diseases or clinical characteristics, such as obesity, through FMT are needed and will be important for the acceptance of this procedure.

Published

2017

29. Treatment of wild-type mice with 2,3-butanediol, a urinary biomarker of Fmo5−/− mice, decreases plasma cholesterol and epididymal fat deposition

Author

Sunil Veeravalli, Dorsa Varshavi, Flora H. Scott, Dorna Varshavi, Frank S. Pullen, Kirill Veselkov, Ian R. Phillips, Jeremy R. Everett, and Elizabeth A. Shephard

Subjects

antibiotic, fecal transplant, gut microbiome, metabolite, NMR, stomach, Physiology, QP1-981

Abstract

We previously showed that Fmo5−/− mice exhibit a lean phenotype and slower metabolic ageing. Their characteristics include lower plasma glucose and cholesterol, greater glucose tolerance and insulin sensitivity, and a reduction in age-related weight gain and whole-body fat deposition. In this paper, nuclear magnetic resonance (NMR) spectroscopy-based metabolite analyses of the urine of Fmo5−/− and wild-type mice identified two isomers of 2,3-butanediol as discriminating urinary biomarkers of Fmo5−/− mice. Antibiotic-treatment of Fmo5−/− mice increased plasma cholesterol concentration and substantially reduced urinary excretion of 2,3-butanediol isomers, indicating that the gut microbiome contributed to the lower plasma cholesterol of Fmo5−/− mice, and that 2,3-butanediol is microbially derived. Short- and long-term treatment of wild-type mice with a 2,3-butanediol isomer mix decreased plasma cholesterol and epididymal fat deposition but had no effect on plasma concentrations of glucose or insulin, or on body weight. In the case of long-term treatment, the effects were maintained after withdrawal of 2,3-butanediol. Short-, but not long-term treatment, also decreased plasma concentrations of triglycerides and non-esterified fatty acids. Fecal transplant from Fmo5−/− to wild-type mice had no effect on plasma cholesterol, and 2,3-butanediol was not detected in the urine of recipient mice, suggesting that the microbiota of the large intestine was not the source of 2,3-butanediol. However, 2,3-butanediol was detected in the stomach of Fmo5−/− mice, which was enriched for Lactobacillus genera, known to produce 2,3-butanediol. Our results indicate a microbial contribution to the phenotypic characteristic of Fmo5−/− mice of decreased plasma cholesterol and identify 2,3-butanediol as a potential agent for lowering plasma cholesterol.

Published

2022

30. Diluted Fecal Community Transplant Restores Clostridioides difficile Colonization Resistance to Antibiotic-Perturbed Murine Communities

Author

Nicholas A. Lesniak, Sarah Tomkovich, Andrew Henry, Ana Taylor, Joanna Colovas, Lucas Bishop, Kathryn McBride, and Patrick D. Schloss

Subjects

Clostridioides difficile, colonization resistance, microbial ecology, microbiome, fecal transplant, mice, Microbiology, QR1-502

Abstract

ABSTRACT Fecal communities transplanted into individuals can eliminate recurrent Clostridioides difficile infection (CDI) with high efficacy. However, this treatment is only used once CDI becomes resistant to antibiotics or has recurred multiple times. We sought to investigate whether a fecal community transplant (FCT) pretreatment could be used to prevent CDI altogether. We treated male C57BL/6 mice with either clindamycin, cefoperazone, or streptomycin and then inoculated them with the microbial community from untreated mice before challenge with C. difficile. We measured colonization and sequenced the V4 region of the 16S rRNA gene to understand the dynamics of the murine fecal community in response to the FCT and C. difficile challenge. Clindamycin-treated mice became colonized with C. difficile but cleared it naturally and did not benefit from the FCT. Cefoperazone-treated mice became colonized by C. difficile, but the FCT enabled clearance of C. difficile. In streptomycin-treated mice, the FCT was able to prevent C. difficile from colonizing. We then diluted the FCT and repeated the experiments. Cefoperazone-treated mice no longer cleared C. difficile. However, streptomycin-treated mice colonized with 1:102 dilutions resisted C. difficile colonization. Streptomycin-treated mice that received an FCT diluted 1:103 became colonized with C. difficile but later cleared the infection. In streptomycin-treated mice, inhibition of C. difficile was associated with increased relative abundance of a group of bacteria related to Porphyromonadaceae and Lachnospiraceae. These data demonstrate that C. difficile colonization resistance can be restored to a susceptible community with an FCT as long as it complements the missing populations. IMPORTANCE Antibiotic use, ubiquitous with the health care environment, is a major risk factor for Clostridioides difficile infection (CDI), the most common nosocomial infection. When C. difficile becomes resistant to antibiotics, a fecal microbiota transplant from a healthy individual can effectively restore the gut bacterial community and eliminate the infection. While this relationship between the gut bacteria and CDI is well established, there are no therapies to treat a perturbed gut community to prevent CDI. This study explored the potential of restoring colonization resistance to antibiotic-induced susceptible gut communities. We described the effect that gut bacterial community variation has on the effectiveness of a fecal community transplant for inhibiting CDI. These data demonstrated that communities susceptible to CDI can be supplemented with fecal communities but that the effectiveness depended on the structure of the community following the perturbation. Thus, a reduced bacterial community may be able to recover colonization resistance in patients treated with antibiotics.

Published

2022

31. Bee Pollen and Probiotics May Alter Brain Neuropeptide Levels in a Rodent Model of Autism Spectrum Disorders.

Author

Alghamdi, Mashael A., Al-Ayadhi, Laila, Hassan, Wail M., Bhat, Ramesa Shafi, Alonazi, Mona A., and El-Ansary, Afaf

Subjects

BEE pollen, AUTISM spectrum disorders, SUBSTANCE P, RECEIVER operating characteristic curves, PROBIOTICS, PRINCIPAL components analysis, SOCIAL interaction in children

Abstract

Neuropeptides play a major role in maintaining normal brain development in children. Dysfunction of some specific neuropeptides can lead to autism spectrum disorders (ASD) in terms of social interaction and repetitive behavior, but the exact underlying etiological mechanisms are still not clear. In this study, we used an animal model of autism to investigate the role of bee pollen and probiotic in maintaining neuropeptide levels in the brain. We measured the Alpha-melanocyte-stimulating hormone (α-MSH), Beta-endorphin (β-End), neurotensin (NT), and substance P (SP) in brain homogenates of six studied groups of rats. Group I served as control, given only PBS for 30 days; Group II as an autistic model treated with 250 mg PPA/kg BW/day for 3 days after being given PBS for 27 days. Groups III-VI were denoted as intervention groups. G-III was treated with bee pollen (BP) 250 mg/kg body weight/day; G-IV with Lactobacillus paracaseii (LB) (109 CFU/mL) suspended in PBS; G-V with 0.2 g/kg body weight/day Protexin®, a mixture of probiotics (MPB); and G-VI was transplanted with stool from normal animals (FT) for 27 days prior to the induction of PPA neurotoxicity on the last 3 days of study (days 28–30). The obtained data were analyzed through the use of principal component analysis (PCA), discriminant analysis (DA), hierarchical clustering, and receiver operating characteristic (ROC) curves as excellent statistical tools in the field of biomarkers. The obtained data revealed that brain levels of the four measured neuropeptides were significantly reduced in PPA-treated animals compared to healthy control animals. Moreover, the findings demonstrate the ameliorative effects of bee pollen as a prebiotic and of the pure or mixed probiotics. This study proves the protective effects of pre and probiotics against the neurotoxic effects of PPA presented as impaired levels of α-MSH, β-End, NT, and SP. [ABSTRACT FROM AUTHOR]

Published

2022

32. Fecal Microbiota Transplant in a Pre-Clinical Model of Type 2 Diabetes Mellitus, Obesity and Diabetic Kidney Disease.

Author

Bastos, Rosana M. C., Simplício-Filho, Antônio, Sávio-Silva, Christian, Oliveira, Luiz Felipe V., Cruz, Giuliano N. F., Sousa, Eliza H., Noronha, Irene L., Mangueira, Cristóvão L. P., Quaglierini-Ribeiro, Heloísa, Josefi-Rocha, Gleice R., and Rangel, Érika B.

Subjects

*DIABETIC nephropathies, *FECAL microbiota transplantation, *TYPE 2 diabetes, *ANIMAL models in research, *METABOLIC disorders, *CHRONIC kidney failure

Abstract

Diabetes mellitus (DM) burden encompasses diabetic kidney disease (DKD), the leading cause of end-stage renal disease worldwide. Despite compelling evidence indicating that pharmacological intervention curtails DKD progression, the search for non-pharmacological strategies can identify novel targets for drug development against metabolic diseases. One of those emergent strategies comprises the modulation of the intestinal microbiota through fecal transplant from healthy donors. This study sought to investigate the benefits of fecal microbiota transplant (FMT) on functional and morphological parameters in a preclinical model of type 2 DM, obesity, and DKD using BTBRob/ob mice. These animals develop hyperglycemia and albuminuria in a time-dependent manner, mimicking DKD in humans. Our main findings unveiled that FMT prevented body weight gain, reduced albuminuria and tumor necrosis factor-α (TNF-α) levels within the ileum and ascending colon, and potentially ameliorated insulin resistance in BTBRob/ob mice. Intestinal structural integrity was maintained. Notably, FMT was associated with the abundance of the succinate-consuming Odoribacteraceae bacteria family throughout the intestine. Collectively, our data pointed out the safety and efficacy of FMT in a preclinical model of type 2 DM, obesity, and DKD. These findings provide a basis for translational research on intestinal microbiota modulation and testing its therapeutic potential combined with current treatment for DM. [ABSTRACT FROM AUTHOR]

Published

2022

33. Fecal microbiota transplantation in alcohol-associated acute-on-chronic liver failure: an open-label clinical trial.

Author

Sharma, Anima, Roy, Akash, Premkumar, Madhumita, Verma, Nipun, Duseja, Ajay, Taneja, Sunil, Grover, Sandeep, Chopra, Madhu, and Dhiman, Radha K.

Abstract

Background: Severe alcoholic hepatitis (SAH) presenting as acute-on-chronic liver failure (ACLF) carries a high short-term mortality. Alteration of gut microbiota is a crucial component implicated in its pathogenesis, whose modulation has been suggested as a potential therapeutic tool. We evaluated the safety of fecal microbiota transplantation (FMT) and its efficacy in improving short-term survival and clinical severity scores in patients with SAH–ACLF. Methods: Thirty-three patients [13 in the FMT arm; 20 in the standard of care arm (SOC)] with SAH–ACLF were included in this open-label study. A single FMT session was administered as a freshly prepared stool suspension from pre-identified healthy family member stool donors through a nasojejunal tube. Patients were followed up on days 7, 28, and 90. Results: Survival at 28 and 90 days was significantly better in the FMT arm (100% versus 60%, p = 0.01; 53.84% versus 25%, p = 0.02). Hepatic encephalopathy resolved in 100% versus 57.14% (FMT versus SOC, p = 0.11) patients, while ascites resolved in 100% versus 40% survivors (p = 0.04). Major adverse event rates, including spontaneous bacterial peritonitis and gastrointestinal bleeding, were similar in both groups (p = 0.77; p = 0.70). Median IL1beta decreased by 21.39% (IQR − 73.67 to 7.63) in the FMT group, whereas it increased in the SOC by 27.44% (IQR − 0.88 to 128.11) (p = 0.01). Percentage changes in bilirubin and ALT between baseline and day 7 emerged as predictors of 90-day mortality. Conclusion: FMT is safe, improves short-term and medium-term survival, and leads to improvement in clinical severity scores in patients with SAH–ACLF. Clinical trial number: NCT03827772 available from http://clinicaltrials.gov/ct2/show/NCT03827772 CTRI Reference number: CTRI/2019/02/017538 dated 7 February 2019. [ABSTRACT FROM AUTHOR]

Published

2022

34. Clostridium difficile Infection

Author

Stewart, David B., Steele, Scott R., editor, Hull, Tracy L., editor, Hyman, Neil, editor, Maykel, Justin A., editor, Read, Thomas E., editor, and Whitlow, Charles B., editor

Published

2019

35. Role of the microbiome, probiotics, and ‘dysbiosis therapy’ in critical illness

Author

Wischmeyer, Paul E, McDonald, Daniel, and Knight, Rob

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Nutrition, Hematology, Digestive Diseases, Infectious Diseases, Sepsis, Prevention, Complementary and Integrative Health, Emerging Infectious Diseases, Patient Safety, 2.1 Biological and endogenous factors, Aetiology, Infection, Inflammatory and immune system, Good Health and Well Being, Critical Illness, Cross Infection, Dysbiosis, Humans, Intensive Care Units, Microbiota, Probiotics, antibiotics, bacteria, critical care, fecal transplant, infection, Emergency & Critical Care Medicine, Clinical sciences

Abstract

Purpose of reviewLoss of 'health-promoting' microbes and overgrowth of pathogenic bacteria (dysbiosis) in ICU is believed to contribute to nosocomial infections, sepsis, and organ failure (multiple organ dysfunction syndrome). This review discusses new understanding of ICU dysbiosis, new data for probiotics and fecal transplantation in ICU, and new data characterizing the ICU microbiome.Recent findingsICU dysbiosis results from many factors, including ubiquitous antibiotic use and overuse. Despite advances in antibiotic therapy, infections and mortality from often multidrug-resistant organisms (i.e., Clostridium difficile) are increasing. This raises the question of whether restoration of a healthy microbiome via probiotics or other 'dysbiosis therapies' would be an optimal alternative, or parallel treatment option, to antibiotics. Recent clinical data demonstrate probiotics can reduce ICU infections and probiotics or fecal microbial transplant (FMT) can treat Clostridium difficile. This contributes to recommendations that probiotics should be considered to prevent infection in ICU. Unfortunately, significant clinical variability limits the strength of current recommendations and further large clinical trials of probiotics and FMT are needed. Before larger trials of 'dysbiosis therapy' can be thoughtfully undertaken, further characterization of ICU dysbiosis is needed. To addressing this, we conducted an initial analysis demonstrating a rapid and marked change from a 'healthy' microbiome to an often pathogen-dominant microbiota (dysbiosis) in a broad ICU population.SummaryA growing body of evidence suggests critical illness and ubiquitous antibiotic use leads to ICU dysbiosis that is associated with increased ICU infection, sepsis, and multiple organ dysfunction syndrome. Probiotics and FMT show promise as ICU therapies for infection. We hope future-targeted therapies using microbiome signatures can be developed to correct 'illness-promoting' dysbiosis to restore a healthy microbiome post-ICU to improve patient outcomes.

Published

2016

36. Perceptions of fecal microbiota transplantation for Clostridium difficile infection: factors that predict acceptance

Author

Park, Leslie, Mone, Anjali, Price, Jennifer C, Tzimas, Demetrios, Hirsh, Jacqueline, Poles, Michael A, Malter, Lisa, and Chen, Lea Ann

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Transplantation, Infectious Diseases, Prevention, Clinical Research, Digestive Diseases, Fecal microbiota transplantation, fecal transplant, FMT, patient perceptions, Clostridium difficile, Clinical sciences

Abstract

BackgroundDespite the effectiveness of fecal microbiota transplantation (FMT) for treating recurrent Clostridium difficile (C. difficile) infection, some patients are reluctant to accept this therapy. Our study examined attitudes towards FMT and factors that contribute to patients' acceptance of this treatment.MethodsWe distributed patient surveys at a Veterans Affairs hospital, a public hospital, and an academic faculty practice. Multivariable logistic regression was performed, adjusting for factors associated with FMT acceptance on univariate analysis and prior experience with C. difficile infection.ResultsOf 267 patients, only 12% knew of FMT prior to the survey, but 77% would undergo the procedure if medically indicated. On multivariable analysis, those with children and with college degrees or higher were more likely to agree to FMT (odds ratio [OR] 2.11, 95% confidence interval [CI] 1.02-4.35; OR 2.27, 95% CI 1.11-4.60 respectively). Sixty-five respondents (71%) chose colonoscopy as the preferred vehicle for FMT, while nasogastric tube was least preferred. Disease transmission was the most common concern (30%, n=242), and FMT success rate was the least selected concern (9.1%).ConclusionsMost patients in a diverse sample of gastroenterology clinics had no prior knowledge of FMT, but were receptive to the procedure. Having children and higher education levels were predictors for FMT acceptance. Our findings suggest that barriers to FMT utilization may be overcome with counseling about safety concerns. More data on the risk of transmitting diseases or clinical characteristics, such as obesity, through FMT are needed and will be important for the acceptance of this procedure.

Published

2016

37. Recent Advances in Understanding the Structure and Function of the Human Microbiome.

Author

Mousa, Walaa K., Chehadeh, Fadia, and Husband, Shannon

Subjects

HUMAN microbiota, MICROORGANISM populations, NUCLEOTIDE sequencing, BIOMARKERS, FACTOR structure, FECAL microbiota transplantation

Abstract

Trillions of microbes live within our bodies in a deep symbiotic relationship. Microbial populations vary across body sites, driven by differences in the environment, immunological factors, and interactions between microbial species. Major advances in genome sequencing enable a better understanding of microbiome composition. However, most of the microbial taxa and species of the human microbiome are still unknown. Without revealing the identity of these microbes as a first step, we cannot appreciate their role in human health and diseases. A shift in the microbial balance, termed dysbiosis, is linked to a broad range of diseases from simple colitis and indigestion to cancer and dementia. The last decade has witnessed an explosion in microbiome research that led to a better understanding of the microbiome structure and function. This understanding leads to potential opportunities to develop next-generation microbiome-based drugs and diagnostic biomarkers. However, our understanding is limited given the highly personalized nature of the microbiome and its complex and multidirectional interactions with the host. In this review, we discuss: (1) our current knowledge of microbiome structure and factors that shape the microbial composition, (2) recent associations between microbiome dysbiosis and diseases, and (3) opportunities of new microbiome-based therapeutics. We analyze common themes, promises, gaps, and challenges of the microbiome research. [ABSTRACT FROM AUTHOR]

Published

2022

38. The Efficacy of Fecal Transplantation and Bifidobacterium Supplementation in Ameliorating Propionic Acid-Induced Behavioral and Biochemical Autistic Features in Juvenile Male Rats.

Author

Abuaish, Sameera, Al-Otaibi, Norah M., Aabed, Kawther, Abujamel, Turki S., Alzahrani, Saleha Ahmad, Alotaibi, Sohailah Masoud, Bhat, Ramesa Shafi, Arzoo, Shaista, Algahtani, Norah, Moubayed, Nadine MS, and El-Ansary, Afaf

Abstract

Gut microbiota plays a major role in neurological disorders, including autism. Modulation of the gut microbiota through fecal microbiota transplantation (FMT) or probiotic administration, such as Bifidobacteria, is suggested to alleviate autistic symptoms; however, their effects on the brain are not fully examined. We tested both approaches in a propionic acid (PPA) rodent model of autism as treatment strategies. Autism was induced in Sprague–Dawley rats by administering PPA orally (250 mg/kg) for 3 days. Animals were later treated with either saline, FMT, or Bifidobacteria for 22 days. Control animals were treated with saline throughout the study. Social behavior and selected brain biochemical markers related to stress hormones, inflammation, and oxidative stress were assessed. PPA treatment induced social impairments, which was rescued by the treatments. In the brain, Bifidobacteria treatment increased oxytocin relative to control and PPA groups. Moreover, Bifidobacteria treatment rescued the PPA-induced increase in IFN-γ levels. Both treatments increased GST levels, which was diminished by the PPA treatment. These findings indicate the potential of gut microbiota-targeted therapeutics in ameliorating behavioral deficit and underlying neural biochemistry. [ABSTRACT FROM AUTHOR]

Published

2022

39. A Central Role for Lipocalin-2 in the Adaptation to Short-Bowel Syndrome Through Down-Regulation of IL22 in MiceSummary

Author

Ailan Zhang, Chhinder P. Sodhi, Menghan Wang, Darla R. Shores, William Fulton, Thomas Prindle, Serena Brosten, Elizabeth O’Hare, Alexander Lau, Hua Ding, Hongpeng Jia, Peng Lu, James R. White, Justin Hui, Cynthia L. Sears, David J. Hackam, and Samuel M. Alaish

Subjects

Microbiome, Fecal Transplant, Dysbiosis, Small-Bowel Resection, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: In short-bowel syndrome (SBS), inadequate intestinal adaptation is responsible for the majority of complications, including sepsis, liver failure, and death. In this study, we sought to further delineate the adaptive response to identify potential therapeutic targets. Methods: We performed a 75% small-bowel resection (SBR) or sham operation on C57Bl/6J wild-type (WT), lipocalin-2 (LCN2)-/-, and interleukin 22 (IL22)-/- mice. Exogenous IL22 was administered to SBR WT mice. Cecal fecal matter from SBR WT and SBR LCN2-/- mice were transplanted into germ-free mice. Intestinal permeability, inflammation, proliferation, and the microbiome were evaluated 1 week after surgery. CD4+IL22+ laminal propria lymphocytes were sorted by flow cytometry. Naïve T cells were polarized to T-helper cells with or without LCN2. Results: A 75% SBR in a mouse re-creates the increased intestinal permeability, enterocyte proliferation, and intestinal dysbiosis seen in SBS. LCN2 expression increases after 75% SBR, and this increase can be abrogated with broad-spectrum antibiotic treatment. LCN2-/- mice have less intestinal inflammation, increased IL22 expression, and greater adaptation as evidenced by less intestinal permeability, increased carbohydrate enzyme expression, less weight loss, and less dysbiosis after 75% SBR than WT mice. The proinflammatory and anti-adaptive effects of LCN2 can be transferred to germ-free mice via a fecal transplant. Administration of exogenous IL22 improves adaptation and restores the normal microbiome after 75% SBR in WT mice. Conclusions: LCN2 promotes inflammation and slows intestinal adaptation through changes in the microbiome and IL22 inhibition in a mouse SBS model. Strategies to reduce LCN2 may offer novel therapeutic approaches to enhance adaptation in SBS.

Published

2020

40. Recent Advances in Understanding the Structure and Function of the Human Microbiome

Author

Walaa K. Mousa, Fadia Chehadeh, and Shannon Husband

Subjects

human microbiome, disease associations, microbial diversity, probiotics, fecal transplant, Microbiology, QR1-502

Abstract

Trillions of microbes live within our bodies in a deep symbiotic relationship. Microbial populations vary across body sites, driven by differences in the environment, immunological factors, and interactions between microbial species. Major advances in genome sequencing enable a better understanding of microbiome composition. However, most of the microbial taxa and species of the human microbiome are still unknown. Without revealing the identity of these microbes as a first step, we cannot appreciate their role in human health and diseases. A shift in the microbial balance, termed dysbiosis, is linked to a broad range of diseases from simple colitis and indigestion to cancer and dementia. The last decade has witnessed an explosion in microbiome research that led to a better understanding of the microbiome structure and function. This understanding leads to potential opportunities to develop next-generation microbiome-based drugs and diagnostic biomarkers. However, our understanding is limited given the highly personalized nature of the microbiome and its complex and multidirectional interactions with the host. In this review, we discuss: (1) our current knowledge of microbiome structure and factors that shape the microbial composition, (2) recent associations between microbiome dysbiosis and diseases, and (3) opportunities of new microbiome-based therapeutics. We analyze common themes, promises, gaps, and challenges of the microbiome research.

Published

2022

41. Bariatric-induced microbiome changes alter MASLD development in association with changes in the innate immune system.

Author

Shera S, Katzka W, Yang JC, Chang C, Arias-Jayo N, Lagishetty V, Balioukova A, Chen Y, Dutson E, Li Z, Mayer EA, Pisegna JR, Sanmiguel C, Pawar S, Zhang D, Leitman M, Hernandez L, Jacobs JP, and Dong TS

Abstract

Introduction: Metabolic dysfunction-associated steatotic liver disease (MASLD) affects nearly 25% of the population and is the leading cause for liver-related mortality. Bariatric surgery is a well-known treatment for MASLD and obesity. Understanding the fundamental mechanisms by which bariatric surgery can alter MASLD can lead to new avenues of therapy and research. Previous studies have identified the microbiome's role in bariatric surgery and in inflammatory immune cell populations. The host innate immune system modulates hepatic inflammation and fibrosis, and thus the progression of MASLD. The precise role of immune cell types in the pathogenesis of MASLD remains an active area of investigation. The aim of this study was to understand the interplay between microbiota composition post-bariatric surgery and the immune system in MASLD., Methods: Eighteen morbidly obese females undergoing sleeve gastrectomy were followed pre-and post-surgery. Stool from four patients, showing resolved MASLD post-surgery with sustained weight loss, was transplanted into antibiotic treated mice. Mice received pre-or post-surgery stool and were fed a standard or high-fat diet. Bodyweight, food intake, and physiological parameters were tracked weekly. Metabolic parameters were measured post-study termination., Results: The human study revealed that bariatric surgery led to significant weight loss ( p  > 0.05), decreased inflammatory markers, and improved glucose levels six months post-surgery. Patients with weight loss of 20% or more showed distinct changes in blood metabolites and gut microbiome composition, notably an increase in Bacteroides . The mouse model confirmed surgery-induced microbiome changes to be a major factor in the reduction of markers and attenuation of MASLD progression. Mice receiving post-surgery fecal transplants had significantly less weight gain and liver steatosis compared to pre-surgery recipients. There was also a significant decrease in inflammatory cytokines interferon gamma, interleukin 2, interleukin 15, and mig. This was accompanied by alterations in liver immunophenotype, including an increase in natural killer T cells and reduction of Kupfer cells in the post-surgery transplant group., Discussion: Our findings suggest surgery induced microbial changes significantly reduce inflammatory markers and fatty liver progression. The results indicate a potential causal link between the microbiome and the host immune system, possibly mediated through modulation of liver NKT and Kupffer cells., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Shera, Katzka, Yang, Chang, Arias-Jayo, Lagishetty, Balioukova, Chen, Dutson, Li, Mayer, Pisegna, Sanmiguel, Pawar, Zhang, Leitman, Hernandez, Jacobs and Dong.)

Published

2024

42. Microbiome therapeutics for hepatic encephalopathy.

Author

Bloom, Patricia P., Tapper, Elliot B., Young, Vincent B., and Lok, Anna S.

Subjects

*HEPATIC encephalopathy, *TREATMENT effectiveness, *THERAPEUTICS, *MICROBIAL products, *LACTULOSE

Abstract

Hepatic encephalopathy (HE) is a complication of cirrhosis characterised by neuropsychiatric and motor dysfunction. Microbiota-host interactions play an important role in HE pathogenesis. Therapies targeting microbial community composition and function have been explored for the treatment of HE. Prebiotics, probiotics and faecal microbiota transplant (FMT) have been used with the aim of increasing the abundance of potentially beneficial taxa, while antibiotics have been used to decrease the abundance of potentially harmful taxa. Other microbiome therapeutics, including postbiotics and absorbents, have been used to target microbial products. Microbiome-targeted therapies for HE have had some success, notably lactulose and rifaximin, with probiotics and FMT also showing promise. However, there remain several challenges to the effective application of microbiome therapeutics in HE, including the resilience of the microbiome to sustainable change and unpredictable clinical outcomes from microbiota alterations. Future work in this space should focus on rigorous trial design, microbiome therapy selection, and a personalised approach to HE. [ABSTRACT FROM AUTHOR]

Published

2021

43. Improving Chicken Responses to Glycoconjugate Vaccination Against Campylobacter jejuni.

Author

Nothaft, Harald, Perez-Muñoz, Maria Elisa, Yang, Tianfu, Murugan, Abarna V. M., Miller, Michelle, Kolarich, Daniel, Plastow, Graham S., Walter, Jens, and Szymanski, Christine M.

Subjects

CAMPYLOBACTER jejuni, GENOME-wide association studies, IMMUNE response, VACCINATION, POULTRY products, VACCINE development

Abstract

Campylobacter jejuni is a common cause of diarrheal disease worldwide. Human infection typically occurs through the ingestion of contaminated poultry products. We previously demonstrated that an attenuated Escherichia coli live vaccine strain expressing the C. jejuni N-glycan on its surface reduced the Campylobacter load in more than 50% of vaccinated leghorn and broiler birds to undetectable levels (responder birds), whereas the remainder of the animals was still colonized (non-responders). To understand the underlying mechanism, we conducted three vaccination and challenge studies using 135 broiler birds and found a similar responder/non-responder effect. Subsequent genome-wide association studies (GWAS), analyses of bird sex and levels of vaccine-induced IgY responses did not correlate with the responder versus non-responder phenotype. In contrast, antibodies isolated from responder birds displayed a higher Campylobacter -opsonophagocytic activity when compared to antisera from non-responder birds. No differences in the N-glycome of the sera could be detected, although minor changes in IgY glycosylation warrant further investigation. As reported before, the composition of the microbiota, particularly levels of OTU classified as Clostridium spp., Ruminococcaceae and Lachnospiraceae are associated with the response. Transplantation of the cecal microbiota of responder birds into new birds in combination with vaccination resulted in further increases in vaccine-induced antigen-specific IgY responses when compared to birds that did not receive microbiota transplants. Our work suggests that the IgY effector function and microbiota contribute to the efficacy of the E. coli live vaccine, information that could form the basis for the development of improved vaccines targeted at the elimination of C. jejuni from poultry. [ABSTRACT FROM AUTHOR]

Published

2021

44. Current status of fecal microbiota transplantation for irritable bowel syndrome.

Author

El‐Salhy, Magdy, Hausken, Trygve, and Hatlebakk, Jan Gunnar

Subjects

*IRRITABLE colon, *FECAL microbiota transplantation, *RETRIEVAL practice, *LARGE intestine, *QUALITY of life, *RANDOMIZED controlled trials, *SMALL intestine

Abstract

Background: Irritable bowel syndrome (IBS) is a common gastrointestinal functional disorder. Although IBS is a benign condition, it reduces the quality of life considerably. While there is currently no effective treatment for this disorder, fecal microbiota transplantation (FMT) seems to be promising. Purpose: The aim of this review was to analysis possible factors affecting the success or failure of the randomized controlled trials (RCTs) of FMT for IBS and highlighting the gaps in our knowledge that need to be filled and of sketching a possible model for successful FMT in IBS patients. Methods: A systematic search was conducted of literature published in English from January 2015 to December 2020 using the keywords: fecal microbiota transplantation, randomized trials, and IBS. Key Results: Seven randomized controlled trials (RCTs) on the efficacy of FMT for IBS were found in the literature. Four of the seven RCTs found various positive effects, while the other three did not find any effect. Conclusions and Inferences: The efficacy of FMT for IBS appears to be donor‐dependent. The effective (super) donor would need to have a favorable microbiota signature, and 11 clinical criteria that are known to be associated with a favorable microbiota have been suggested for selecting FMT donors for IBS. Comparing the microbiota of the effective donors with those of healthy subjects would reveal the favorable microbiota signature required for a super‐donor. However, the studies reviewed were not designed to compare efficacy of different donor types. The dose of the fecal transplant is also an important factor influencing the outcome of FMT for IBS. However, further studies designed to test the effect of fecal transplant dose are needed to answer this question. Administering the fecal transplant to either the small or large intestine seems to be effective, but the optimal route of administration remains to be determined. Moreover, whether single or repeated FMT is more effective is also still unclear. A 1‐year follow‐up of IBS patients who received FMT showed that adverse events of abdominal pain, diarrhea, and constipation were both mild and self‐limiting. [ABSTRACT FROM AUTHOR]

Published

2021

45. Gut microbiota dysbiosis contributes to the development of chronic obstructive pulmonary disease.

Author

Li, Naijian, Dai, Zhouli, Wang, Zhang, Deng, Zhishan, Zhang, Jiahuan, Pu, Jinding, Cao, Weitao, Pan, Tianhui, Zhou, Yumin, Yang, Zhaowei, Li, Jing, Li, Bing, and Ran, Pixin

Subjects

*OBSTRUCTIVE lung diseases, *GUT microbiome, *DYSBIOSIS, *SHORT-chain fatty acids, *CHRONIC bronchitis, *FATTY acid analysis, *INTESTINAL diseases

Abstract

Background: Dysbiosis of the gut microbiome is involved in the pathogenesis of various diseases, but the contribution of gut microbes to the progression of chronic obstructive pulmonary disease (COPD) is still poorly understood.Methods: We carried out 16S rRNA gene sequencing and short-chain fatty acid analyses in stool samples from a cohort of 73 healthy controls, 67 patients with COPD of GOLD stages I and II severity, and 32 patients with COPD of GOLD stages III and IV severity. Fecal microbiota from the three groups were then inoculated into recipient mice for a total of 14 times in 28 days to induce pulmonary changes. Furthermore, fecal microbiota from the three groups were inoculated into mice exposed to smoke from biomass fuel to induce COPD-like changes.Results: We observed that the gut microbiome of COPD patients varied from that of healthy controls and was characterized by a distinct overall microbial diversity and composition, a Prevotella-dominated gut enterotype and lower levels of short-chain fatty acids. After 28 days of fecal transplantation from COPD patients, recipient mice exhibited elevated lung inflammation. Moreover, when mice were under both fecal transplantation and biomass fuel smoke exposure for a total of 20 weeks, accelerated declines in lung function, severe emphysematous changes, airway remodeling and mucus hypersecretion were observed.Conclusion: These data demonstrate that altered gut microbiota in COPD patients is associated with disease progression in mice model. [ABSTRACT FROM AUTHOR]

Published

2021

46. Improving Chicken Responses to Glycoconjugate Vaccination Against Campylobacter jejuni

Author

Harald Nothaft, Maria Elisa Perez-Muñoz, Tianfu Yang, Abarna V. M. Murugan, Michelle Miller, Daniel Kolarich, Graham S. Plastow, Jens Walter, and Christine M. Szymanski

Subjects

vaccine, N-glycan, Campylobacter, immune response, fecal transplant, Microbiology, QR1-502

Abstract

Campylobacter jejuni is a common cause of diarrheal disease worldwide. Human infection typically occurs through the ingestion of contaminated poultry products. We previously demonstrated that an attenuated Escherichia coli live vaccine strain expressing the C. jejuni N-glycan on its surface reduced the Campylobacter load in more than 50% of vaccinated leghorn and broiler birds to undetectable levels (responder birds), whereas the remainder of the animals was still colonized (non-responders). To understand the underlying mechanism, we conducted three vaccination and challenge studies using 135 broiler birds and found a similar responder/non-responder effect. Subsequent genome-wide association studies (GWAS), analyses of bird sex and levels of vaccine-induced IgY responses did not correlate with the responder versus non-responder phenotype. In contrast, antibodies isolated from responder birds displayed a higher Campylobacter-opsonophagocytic activity when compared to antisera from non-responder birds. No differences in the N-glycome of the sera could be detected, although minor changes in IgY glycosylation warrant further investigation. As reported before, the composition of the microbiota, particularly levels of OTU classified as Clostridium spp., Ruminococcaceae and Lachnospiraceae are associated with the response. Transplantation of the cecal microbiota of responder birds into new birds in combination with vaccination resulted in further increases in vaccine-induced antigen-specific IgY responses when compared to birds that did not receive microbiota transplants. Our work suggests that the IgY effector function and microbiota contribute to the efficacy of the E. coli live vaccine, information that could form the basis for the development of improved vaccines targeted at the elimination of C. jejuni from poultry.

Published

2021

47. The Genetic and Microbial Influences in Obesity

Author

Streett, Sarah, Azagury, Dan E., Reavis, Kevin M., editor, Barrett, Allison M., editor, and Kroh, Matthew D., editor

Published

2018

48. Low-molecular alginate improved diet-induced obesity and metabolic syndrome through modulating the gut microbiota in BALB/c mice.

Author

Zheng, Weiyun, Duan, Mengmeng, Jia, Jinhui, Song, Shuang, and Ai, Chunqing

Subjects

*GUT microbiome, *ALGINATES, *METABOLIC syndrome, *ALGINIC acid, *OBESITY, *ADIPOSE tissues

Abstract

Alginate is the most abundant polysaccharide in brown seaweed, which is widely used as a food additive, but its high viscosity and gel property limit its applications in foods as a functional ingredient. In this study, low-molecular alginate from Laminaria japonica (L-LJA) was prepared, and its effect on obesity and metabolic syndrome was analyzed in high-fat diet (HFD)-fed mice. L-LJA reduced weight gain, fat accumulation in the liver and epididymal adipose tissue, lipid abnormality and inflammation in HFD-fed mice accompanied with the improvement of gut microbiota. L-LJA modulated the structure of gut microbiota, increased some Bacteroidales members, and reduced some Clostridiales members in mice, which were positively correlated with the improvement of physiological status. Fecal transplant from L-LJA-fed mice reduced fat accumulation in body tissues and lipid abnormality in the serum and liver and increased short chain fatty acids production in HFD-fed mice, confirming that L-LJA-induced gut microbiota alteration played an important role in its bioactivity. L-LJA has better solubility and can be utilized in food systems in high dose, implying that it can be developed as a prebiotic agent to increase both economic value and nutritive value of alginate. [ABSTRACT FROM AUTHOR]

Published

2021

49. Integrando el trasplante fecal en la práctica clínica.

Author

González Fuenmayor, Marco Antonio, Farfán Inga, Priscila Natalí, Sánchez Bonilla, Estefanía Belén, Herrera Alomoto, Cristian Gabriel, Minta Minta, Jessica Karina, Jara Zúñiga, Manuel Mesías, Guichay Villa, Estefanía Carolina, Vega Quispe, Jesy Ximena, and Sánchez Pachucho, Tannia Alexandra

Subjects

CLOSTRIDIUM diseases, NON-communicable diseases, IRRITABLE colon, FECAL microbiota transplantation, CARDIOVASCULAR diseases, INFLAMMATORY bowel diseases

Abstract

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Published

2021

50. Performance and Consequences for Fecal Transplant in the Treatment of Pseudomembranous Colitis.

Author

Aurelia, Hangan, Sorin, Rugina, Elena, Mocanu, Eugen, Dumitru, and Magdalena, Dumitru Irina

Subjects

*FECAL microbiota transplantation, *COLITIS, *DRUG resistance in bacteria, *CLOSTRIDIOIDES difficile, *ANTIBIOTICS

Abstract

Under conditions of increased consumption of antibiotics, pseudomembranous colitis has become a common condition in Romanian hospitals. Severe forms of the disease are becoming more common, recurrences are numerous, and metronidazole and vancomycin therapy has failed to prevent these recurrences. The study aims to identify the characteristics of patients who require a fecal transplant, the time for its performance and what are the short-term and possibly long-term consequences of this method. We analyzed 26 patients who had a fecal transplant with a favorable evolution in 96%. We consider that FMT is an effective method for preventing recurrent CDI but also for those with resistance to the usual antibiotics. [ABSTRACT FROM AUTHOR]

Published

2021