Your search keyword '"Fecal Microbiota Transplantation"' showing total 13,475 results

1. Sustained mucosal colonization and fecal metabolic dysfunction by Bacteroides associates with fecal microbial transplant failure in ulcerative colitis patients.

Author

Zhang, Bing, Magnaye, Kevin, Stryker, Emily, Moltzau-Anderson, Jacqueline, Porsche, Cara, Hertz, Sandra, McCauley, Kathryn, Smith, Byron, Zydek, Martin, Pollard, Katherine, Ma, Averil, El-Nachef, Najwa, and Lynch, Susan

Subjects

Humans, Colitis, Ulcerative, Fecal Microbiota Transplantation, Male, Female, Feces, Bacteroides, Adult, Intestinal Mucosa, Middle Aged, Gastrointestinal Microbiome, Treatment Failure, RNA, Ribosomal, 16S, Metabolome

Abstract

Fecal microbial transplantation (FMT) offers promise for treating ulcerative colitis (UC), though the mechanisms underlying treatment failure are unknown. This study harnessed longitudinally collected colonic biopsies (n = 38) and fecal samples (n = 179) from 19 adults with mild-to-moderate UC undergoing serial FMT in which antimicrobial pre-treatment and delivery mode (capsules versus enema) were assessed for clinical response (≥ 3 points decrease from the pre-treatment Mayo score). Colonic biopsies underwent dual RNA-Seq; fecal samples underwent parallel 16S rRNA and shotgun metagenomic sequencing as well as untargeted metabolomic analyses. Pre-FMT, the colonic mucosa of non-responsive (NR) patients harbored an increased burden of bacteria, including Bacteroides, that expressed more antimicrobial resistance genes compared to responsive (R) patients. NR patients also exhibited muted mucosal expression of innate immune antimicrobial response genes. Post-FMT, NR and R fecal microbiomes and metabolomes exhibited significant divergence. NR metabolomes had elevated concentrations of immunostimulatory compounds including sphingomyelins, lysophospholipids and taurine. NR fecal microbiomes were enriched for Bacteroides fragilis and Bacteroides salyersiae strains that encoded genes capable of taurine production. These findings suggest that both effective mucosal microbial clearance and reintroduction of bacteria that reshape luminal metabolism associate with FMT success and that persistent mucosal and fecal colonization by antimicrobial-resistant Bacteroides species may contribute to FMT failure.

Published

2024

2. A Double-Humanized Mouse Model for Studying Host Gut Microbiome-Immune Interactions in Gulf War Illness.

Author

Bose, Dipro, Saha, Punnag, Roy, Subhajit, Trivedi, Ayushi, More, Madhura, Klimas, Nancy, Tuteja, Ashok, and Chatterjee, Saurabh

Subjects

IL-6, NSG, TNF R-1, bacteriome, gut–immune axis, humanized mice, Animals, Gastrointestinal Microbiome, Persian Gulf Syndrome, Humans, Mice, Disease Models, Animal, Cytokines, Fecal Microbiota Transplantation

Abstract

Unraveling the multisymptomatic Gulf War Illness (GWI) pathology and finding an effective cure have eluded researchers for decades. The chronic symptom persistence and limitations for studying the etiologies in mouse models that differ significantly from those in humans pose challenges for drug discovery and finding effective therapeutic regimens. The GWI exposome differs significantly in the study cohorts, and the above makes it difficult to recreate a model closely resembling the GWI symptom pathology. We have used a double engraftment strategy for reconstituting a human immune system coupled with human microbiome transfer to create a humanized-mouse model for GWI. Using whole-genome shotgun sequencing and blood immune cytokine enzyme linked immunosorbent assay (ELISA), we show that our double humanized mice treated with Gulf War (GW) chemicals show significantly altered gut microbiomes, similar to those reported in a Veteran cohort of GWI. The results also showed similar cytokine profiles, such as increased levels of IL-1β, IL-6, and TNF R-1, in the double humanized model, as found previously in a human cohort. Further, a novel GWI Veteran fecal microbiota transfer was used to create a second alternative model that closely resembled the microbiome and immune-system-associated pathology of a GWI Veteran. A GWI Veteran microbiota transplant in humanized mice showed a human microbiome reconstitution and a systemic inflammatory pathology, as reflected by increases in interleukins 1β, 6, 8 (IL-1β, IL-6, IL-8), tumor necrosis factor receptor 1 (TNF R-1), and endotoxemia. In conclusion, though preliminary, we report a novel in vivo model with a human microbiome reconstitution and an engrafted human immune phenotype that may help to better understand gut-immune interactions in GWI.

Published

2024

3. Safety profile and effects on the peripheral immune response of fecal microbiota transplantation in clinically healthy dogs

Author

Lee, Mary Ann, Questa, Maria, Wanakumjorn, Patrawin, Kol, Amir, McLaughlin, Bridget, Weimer, Bart C, Buono, Agostino, Suchodolski, Jan S, and Marsilio, Sina

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Transplantation, Prevention, Patient Safety, Digestive Diseases, Inflammatory and immune system, Animals, Dogs, Fecal Microbiota Transplantation, Female, Male, Feces, Prospective Studies, Cytokines, Dysbiosis, Gastrointestinal Microbiome, canine, C-reactive protein, cytokines, fecal microbiota transplantation, FMT, peripheral immune modulation, C‐reactive protein, Veterinary sciences

Abstract

BackgroundFecal microbiota transplantation (FMT) is increasingly used for gastrointestinal and extra-gastrointestinal diseases in veterinary medicine. However, its effects on immune responses and possible adverse events have not been systematically investigated.Hypothesis/objectivesDetermine the short-term safety profile and changes in the peripheral immune system after a single FMT administration in healthy dogs.AnimalsTen client-owned, clinically healthy dogs as FMT recipients, and 2 client-owned clinically healthy dogs as FMT donors.MethodsProspective non-randomized clinical trial. A single rectal enema of 5 g/kg was given to clinically healthy canine recipients. During the 28 days after FMT administration, owners self-reported adverse events and fecal scores. On Days 0 (baseline), 1, 4, 10, and 28 after FMT, fecal and blood samples were collected. The canine fecal dysbiosis index (DI) was calculated using qPCR.ResultsNo significant changes were found in the following variables: CBC, serum biochemistry, C-reactive protein, serum cytokines (interleukins [IL]-2, -6, -8, tumor necrosis factor [TNF]-α), peripheral leukocytes (B cells, T cells, cluster of differentiation [CD]4+ T cells, CD8+ T cells, T regulatory cells), and the canine DI. Mild vomiting (n = 3), diarrhea (n = 4), decreased activity (n = 2), and inappetence (n = 1) were reported, and resolved without intervention.Conclusions and clinical importanceFecal microbiota transplantation did not significantly alter the evaluated variables and recipients experienced minimal adverse events associated with FMT administration. Fecal microbiota transplantation was not associated with serious adverse events, changes in peripheral immunologic variables, or the canine DI in the short-term.

Published

2024

4. Dermal injury drives a skin to gut axis that disrupts the intestinal microbiome and intestinal immune homeostasis in mice.

Author

Dokoshi, Tatsuya, Chen, Yang, Cavagnero, Kellen, Rahman, Gibraan, Hakim, Daniel, Brinton, Samantha, Schwarz, Hana, Brown, Elizabeth, ONeill, Alan, Nakamura, Yoshiyuki, Li, Fengwu, Salzman, Nita, Knight, Rob, and Gallo, Richard

Subjects

Mice, Animals, Gastrointestinal Microbiome, Hyaluronic Acid, Colitis, Intestinal Mucosa, Fecal Microbiota Transplantation, Dextran Sulfate, Mice, Inbred C57BL, Disease Models, Animal, Colon

Abstract

The composition of the microbial community in the intestine may influence the functions of distant organs such as the brain, lung, and skin. These microbes can promote disease or have beneficial functions, leading to the hypothesis that microbes in the gut explain the co-occurrence of intestinal and skin diseases. Here, we show that the reverse can occur, and that skin directly alters the gut microbiome. Disruption of the dermis by skin wounding or the digestion of dermal hyaluronan results in increased expression in the colon of the host defense genes Reg3 and Muc2, and skin wounding changes the composition and behavior of intestinal bacteria. Enhanced expression Reg3 and Muc2 is induced in vitro by exposure to hyaluronan released by these skin interventions. The change in the colon microbiome after skin wounding is functionally important as these bacteria penetrate the intestinal epithelium and enhance colitis from dextran sodium sulfate (DSS) as seen by the ability to rescue skin associated DSS colitis with oral antibiotics, in germ-free mice, and fecal microbiome transplantation to unwounded mice from mice with skin wounds. These observations provide direct evidence of a skin-gut axis by demonstrating that damage to the skin disrupts homeostasis in intestinal host defense and alters the gut microbiome.

Published

2024

5. Evaluation of the safety and efficacy of fecal microbiota transplantations in bottlenose dolphins (Tursiops truncatus) using metagenomic sequencing.

Author

Linnehan, Barbara, Kodera, Sho, Allard, Sarah, Brodie, Erin, Allaband, Celeste, Lutz, Holly, Carroll, Maureen, Meegan, Jennifer, Jensen, Eric, Knight, Robin, and Gilbert, Jack

Subjects

Tursiops truncatus, fecal microbiota transplantation, microbiome, shotgun metagenomics, Animals, Fecal Microbiota Transplantation, Bottle-Nosed Dolphin, Prospective Studies, Feces, Gastrointestinal Microbiome, Treatment Outcome

Abstract

AIMS: Gastrointestinal disease is a leading cause of morbidity in bottlenose dolphins (Tursiops truncatus) under managed care. Fecal microbiota transplantation (FMT) holds promise as a therapeutic tool to restore gut microbiota without antibiotic use. This prospective clinical study aimed to develop a screening protocol for FMT donors to ensure safety, determine an effective FMT administration protocol for managed dolphins, and evaluate the efficacy of FMTs in four recipient dolphins. METHODS AND RESULTS: Comprehensive health monitoring was performed on donor and recipient dolphins. Fecal samples were collected before, during, and after FMT therapy. Screening of donor and recipient fecal samples was accomplished by in-house and reference lab diagnostic tests. Shotgun metagenomics was used for sequencing. Following FMT treatment, all four recipient communities experienced engraftment of novel microbial species from donor communities. Engraftment coincided with resolution of clinical signs and a sustained increase in alpha diversity. CONCLUSION: The donor screening protocol proved to be safe in this study and no adverse effects were observed in four recipient dolphins. Treatment coincided with improvement in clinical signs.

Published

2024

6. Gut Microbiota Dysbiosis: A Neglected Risk Factor for Male and Female Fertility.

Author

Beni, Faeze Ahmadi, Saffarfar, Hossein, Elhami, Anis, Kazemi, Mohammad, and Ahmed, Sheik

Abstract

Infertility is a condition where a male or female is unable to achieve pregnancy through at least 1 year of regular, unprotected sexual intercourse. There are several known causes and risk factors associated with infertility. The gut microbiota is a complex community of trillions of microorganisms living in the gut. Due to modern lifestyle changes, such as dietary habits, physical inactivity, and increasing antibiotic use, the diversity and composition of these microbes may change in a detrimental manner. Dysbiosis or an imbalance of the gut microbiota compared to a normal composition can lead to various abnormalities, such as obesity, Alzheimer's, metabolic disorders, and infertility. This review will cover the factors influencing gut microbiota composition, the mechanisms by which gut microbiota contributes to infertility in men and women, the effects of gut microbiota on problems that may arise during pregnancy, and therapeutic methods for diseases caused by dysbiosis of the gut microbiota. [ABSTRACT FROM AUTHOR]

Published

2024

7. Gut microbial and metabolomics profiles reveal the potential mechanism of fecal microbiota transplantation in modulating the progression of colitis-associated colorectal cancer in mice.

Author

Song, Qishi, Gao, Yongchao, Liu, Kun, Tang, Yukai, Man, Yichun, and Wu, Haijun

Abstract

Purpose: Intestinal flora promotes the pathogenesis of colorectal cancer (CRC) through microorganisms and their metabolites. This study aimed to investigate the composition of intestinal flora in different stages of CRC progression and the effect of fecal microbiota transplantation (FMT) on CRC mice. Methods: The fecal microbiome from healthy volunteers (HC), colorectal adenoma (CRA), inflammatory bowel disease (IBD), and CRC patients were analyzed by 16s rRNA gene sequencing. In an azoxymethane (AOM)/dextran-sulfate-sodium (DSS)-induced CRC mouse, the effect of FMT from HC, CRA, CRC, and IBD patients on CRC mice was assessed by histological analysis. Expression of inflammation- EMT-associated proteins and Wnt/β-catenin pathway were assessed using qRT-PCR and western blot. The ratio of the fecal microorganisms and metabolomics alteration after FMT were also assessed. Result: Prevotella, Faecalibacterium, Phascolarctobacterium, Veillonella, Alistipes, Fusobacterium, Oscillibacter, Blautia, and Ruminococcus abundance was different among HC, IBD, CRC, and CRA patients. HC-FMT alleviated disease progression and inflammatory response in CRC mice, inhibited splenic T help (Th)1 and Th17 cell numbers, and suppressed the EMT and Wnt/β-catenin pathways in tumor tissues of CRC mice. IBD-FMT, CRA-FMT, and CRC-FMT played deleterious roles; the CRC-FMT mice exhibited the most malignant phenotype. Compared with the non-FMT CRC mice, Muribaculaceae abundance was lower after FMT, especially lowest in the IBD-FMT group; while Lactobacillus abundance was higher after FMT and especially high in HC-FMT. Akkermansia and Ileibacterium abundance increased after FMT-HC compared to other groups. Metabolite correlation analysis revealed that Muribaculaceae abundance was significantly correlated with metabolites such as Betaine, LysoPC, and Soyasaponin III. Lactobacillus abundance was positively correlated with Taurocholic acid 3-sulfate, and Ileibacterium abundance was positively correlated with Linoleoyl ethanolamide. Conclusion: The different intestinal microbiota communities of HC, IBD, CRA, and CRC patients may be attributed to the different modulation effects of FMT on CRC mice. CRC-FMT promoted, while HC-FMT inhibited the progress of CRC. Increased linoleoyl ethanolamide levels and abundance of Muribaculaceae, Akkermansia, and Ileibacterium and reduced Fusobacterium might participate in inhibiting CRC initiation and development. This study demonstrated that FMT intervention could restore the intestinal microbiota and metabolomics of CRC mice, suggesting FMT as a potential strategy for CRC therapy. [ABSTRACT FROM AUTHOR]

Published

2024

8. Safety comparison of single-donor and pooled fecal microbiota transfer product preparation in ulcerative colitis: systematic review and meta-analysis.

Author

Laperrousaz, Bastien, Levast, Benoît, Fontaine, Mathieu, Nancey, Stéphane, Dechelotte, Pierre, Doré, Joël, and Lehert, Philippe

Subjects

*FECAL microbiota transplantation, *ULCERATIVE colitis, *ORBITS (Astronomy)

Abstract

Background: Multiple studies have evaluated fecal microbiota transfer (FMT) in patients with ulcerative colitis (UC) using single-donor (SDN) and multidonor (MDN) products. Systematic review and meta-analysis were performed to compare the safety of SDN and MDN products. Methods: Systematic searches were performed in Web of Science, Scopus, PubMed, and Orbit Intelligence to identify studies that compared FMT products manufactured using SDN or MDN strategies against control treatment in patients with UC. Fifteen controlled studies were selected for meta-analysis (11 randomized controlled trials and 4 controlled cohort trials). Safety of each treatment type was assessed using the counts of adverse events and serious adverse events using fixed- and random-effects models. Significance of the indirect difference between FMT preparations was assessed using a network approach. Benefit-risk ratios were calculated by multiplicative utility model, incorporating geometric mean of risk ratios (RRs) of efficacy and safety. Results: Safety data was collected for a total of 587 patients (193 exposed to SDN products, 114 exposed to MDN products and 280 exposed to control treatment). The 12 studies showed similar overall safety event counts for MDN and SDN versus placebo (RRs: 0.90 and 1.09, respectively [P = 0.206 and P = 0.420, respectively]). Results indicated similar risk of safety events for MDN compared to SDN (RR: 0.83, P = 0.159). Positive benefit-risk ratios were demonstrated for MDN and SDN versus placebo (RRs: 1.70 and 1.16, respectively [P = 0.003 and P = 0.173, respectively]). MDN had a greater benefit-risk ratio compared to SDN (RR: 1.46, P = 0.072). Conclusion: Similar safety profiles were observed for MDN and SDN strategies. Alongside previously described superior efficacy, treatment with MDN has greater benefit-risk ratio than SDN in patients with UC. Further development of MDN FMT treatment for UC should be considered. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fecal microbiota transplantation alleviates cognitive impairment by improving gut microbiome composition and barrier function in male rats of traumatic brain injury following gas explosion.

Author

Dong, Xinwen, Su, Yaguang, Luo, Zheng, Li, Cuiying, Gao, Jie, Han, Xiaofeng, Yao, Sanqiao, Wu, Weidong, Tian, Linqiang, Bai, Yichun, Wang, Guizhi, and Ren, Wenjie

Abstract

Background: Dysbiosis of gut microbiota (GM) is intricately linked with cognitive impairment and the incidence of traumatic brain injury (TBI) in both animal models and human subjects. However, there is limited understanding of the impact and mechanisms of fecal microbiota transplantation (FMT) on brain and gut barrier function in the treatment of TBI induced by gas explosion (GE). Methods: We have employed FMT technology to establish models of gut microbiota dysbiosis in male rats, and subsequently conducted non-targeted metabolomics and microbiota diversity analysis to explore the bacteria with potential functional roles. Results: Hematoxylin–eosin and transmission electron microscopy revealed that GE induced significant pathological damage and inflammation responses, as well as varying degrees of mitochondrial impairment in neuronal cells in the brains of rats, which was associated with cognitive decline. Furthermore, GE markedly elevated the levels of regulatory T cell (Tregs)-related factors interleukin-10, programmed death 1, and fork head box protein P3 in the brains of rats. Similar changes in these indicators were also observed in the colon; however, these alterations were reversed upon transfer of normal flora into the GE-exposed rats. Combined microbiome and metabolome analysis indicated up-regulation of Clostridium_T and Allobaculum , along with activation of fatty acid biosynthesis after FMT. Correlation network analysis indirectly suggested a causal relationship between FMT and alleviation of GE-induced TBI. FMT improved intestinal structure and up-regulated expression of tight junction proteins Claudin-1, Occludin, and ZO-1, potentially contributing to its protective effects on both brain and gut. Conclusion: Transplantation of gut microbiota from healthy rats significantly enhanced cognitive function in male rats with traumatic brain injury caused by a gas explosion, through the modulation of gut microbiome composition and the improvement of both gut and brain barrier integrity via the gut-brain axis. These findings may offer a scientific foundation for potential clinical interventions targeting gas explosion-induced TBI using FMT. [ABSTRACT FROM AUTHOR]

Published

2024

10. Bone loss with aging is independent of gut microbiome in mice.

Author

You, Xiaomeng, Yan, Jing, Herzog, Jeremy, Nobakhti, Sabah, Campbell, Ross, Hoke, Allison, Hammamieh, Rasha, Sartor, R. Balfour, Shefelbine, Sandra, Kacena, Melissa A., Chakraborty, Nabarun, and Charles, Julia F.

Subjects

OSTEOPOROSIS, BONE health, METHIONINE metabolism, GUT microbiome, FECAL microbiota transplantation

Abstract

Emerging evidence suggests a significant role of gut microbiome in bone health. Aging is well recognized as a crucial factor influencing the gut microbiome. In this study, we investigated whether age-dependent microbial change contributes to age-related bone loss in CB6F1 mice. The bone phenotype of 24-month-old germ-free (GF) mice was indistinguishable compared to their littermates colonized by fecal transplant at 1-month-old. Moreover, bone loss from 3 to 24-month-old was comparable between GF and specific pathogen-free (SPF) mice. Thus, GF mice were not protected from age-related bone loss. 16S rRNA gene sequencing of fecal samples from 3-month and 24-month-old SPF males indicated an age-dependent microbial shift with an alteration in energy and nutrient metabolism potential. An integrative analysis of 16S predicted metagenome function and LC-MS fecal metabolome revealed an enrichment of protein and amino acid biosynthesis pathways in aged mice. Microbial S-adenosyl methionine metabolism was increased in the aged mice, which has previously been associated with the host aging process. Collectively, aging caused microbial taxonomic and functional alteration in mice. To demonstrate the functional importance of young and old microbiome to bone, we colonized GF mice with fecal microbiome from 3-month or 24-month-old SPF donor mice for 1 and 8 months. The effect of microbial colonization on bone phenotypes was independent of the microbiome donors' age. In conclusion, our study indicates age-related bone loss occurs independent of gut microbiome. [ABSTRACT FROM AUTHOR]

Published

2024

11. Gut microbiota modulates depressive-like behaviors induced by chronic ethanol exposure through short-chain fatty acids.

Author

Shen, Hui, Zhang, Chaoxu, Zhang, Qian, Lv, Qing, Liu, Hao, Yuan, Huiya, Wang, Changliang, Meng, Fanyue, Guo, Yufu, Pei, Jiaxin, Yu, Chenyang, Tie, Jinming, Chen, Xiaohuan, Yu, Hao, Zhang, Guohua, and Wang, Xiaolong

Subjects

*SHORT-chain fatty acids, *FECAL microbiota transplantation, *CENTRAL nervous system, *BLOOD-brain barrier, *DIETARY fiber

Abstract

Background: Chronic ethanol exposure (CEE) is recognized as an important risk factor for depression, and the gut-brain axis has emerged as a key mechanism underlying chronic ethanol exposure-induced anxiety and depression-like behaviors. Short-chain fatty acids (SCFAs), which are the key metabolites generated by gut microbiota from insoluble dietary fiber, exert protective roles on the central nervous system, including the reduction of neuroinflammation. However, the link between gut microbial disturbances caused by chronic ethanol exposure, production of SCFAs, and anxiety and depression-like behaviors remains unclear. Methods: Initially, a 90-day chronic ethanol exposure model was established, followed by fecal microbiota transplantation model, which was supplemented with SCFAs via gavage. Anxiety and depression-like behaviors were determined by open field test, forced swim test, and elevated plus-maze. Serum and intestinal SCFAs levels were quantified using GC-MS. Changes in related indicators, including the intestinal barrier, intestinal inflammation, neuroinflammation, neurotrophy, and nerve damage, were detected using Western blotting, immunofluorescence, and Nissl staining. Results: Chronic ethanol exposure disrupted with gut microbial homeostasis, reduced the production of SCFAs, and led to anxiety and depression-like behaviors. Recipient mice transplanted with fecal microbiota that had been affected by chronic ethanol exposure exhibited impaired intestinal structure and function, low levels of SCFAs, intestinal inflammation, activation of neuroinflammation, a compromised blood-brain barrier, neurotrophic defects, alterations in the GABA system, anxiety and depression-like behaviors. Notably, the negative effects observed in these recipient mice were significantly alleviated through the supplementation of SCFAs. Conclusion: SCFAs not only mitigate damage to intestinal structure and function but also alleviate various lesions in the central nervous system, such as neuroinflammation, and reduce anxiety and depression-like behaviors, which were triggered by transplantation with fecal microbiota that had been affected by chronic ethanol exposure, adding more support that SCFAs serve as a bridge between the gut and the brain. [ABSTRACT FROM AUTHOR]

Published

2024

12. Fecal microbiota transplantation for the treatment of intestinal and extra‐intestinal diseases: Mechanism basis, clinical application, and potential prospect.

Author

Yi, Dongxin, Li, Tao, Xiao, Yuji, Zhang, Xue, Hao, Qiangqiang, Zhang, Feng, Qiu, Tianming, Yang, Guang, Sun, Xiance, Dong, Ying, and Wang, Ningning

Subjects

*FECAL microbiota transplantation, *NEUROLOGICAL disorders, *INTESTINAL diseases, *ANIMAL diseases, *ANIMAL experimentation

Abstract

To review the theoretical basis and therapeutic effects of fecal microbiota transplantation (FMT) in various diseases in animal experiments and clinical studies, as well as the limitations and current standards of FMT application. PubMed and Web of Science databases were searched for articles published only in English between 1975 and 2023 on reliable results of animal experiments and clinical treatment of FMT. The properties of the gut microbiota and its interactions with the host metabolism are critical to human health, and microbiome disturbance is closely associated with human intestinal and extra‐intestinal diseases. Therefore, therapeutic tools targeting on the modulation of gut microbiota have attracted increasing attention, among which FMT represents the most widely studied intervention strategy. This review gathered and summarized application of FMT in intestinal diseases, metabolic diseases, hypertension, cancer, nervous system diseases and arthritis, and elaborated the beneficial effects that can be achieved by altering the microbiota with FMT and the mechanisms of action. In addition, the potential risks and side effects of FMT approach are discussed, as well as current efforts to standardize the development of FMT. Through a systemic review of the outcome and mechanism of FMT in the treatment of intestinal diseases and extra‐intestinal diseases, we aimed to provide a theoretical basis for the construction of an optimized FMT framework, so as to better exert its application prospects. [ABSTRACT FROM AUTHOR]

Published

2024

13. Gut-brain axis and neurodegeneration: mechanisms and therapeutic potentials.

Author

Park, Kelly Jimin and Gao, Yao

Subjects

FECAL microbiota transplantation, GUT microbiome, SHORT-chain fatty acids, MICROBIAL ecology, FATTY acid derivatives

Abstract

This paper reviews the effects of gut microbiota in regulating neurodegenerative diseases through controlling gut-brain axis. Specific microbial populations and their metabolites (short-chain fatty acids and tryptophan derivatives) regulate neuroinflammation, neurogenesis and neural barrier integrity. We then discuss ways by which these insights lead to possible interventions - probiotics, prebiotics, dietary modification, and fecal microbiota transplantation (FMT). We also describe what epidemiological and clinical studies have related certain microbiota profiles with the courses of neurodegenerative diseases and how these impact the establishment of microbiome-based diagnostics and individualized treatment options. We aim to guide microbial ecology research on this key link to neurodegenerative disorders and also to highlight collaborative approaches to manage neurological health by targeting microbiome-related factors. [ABSTRACT FROM AUTHOR]

Published

2024

14. Protective effect of gut microbiota restored by fecal microbiota transplantation in a sepsis model in juvenile mice.

Author

Han, Young Joo, Kim, SungSu, Shin, Haksup, Kim, Hyun Woo, and Park, June Dong

Subjects

CRITICALLY ill children, MACROPHAGE colony-stimulating factor, FECAL microbiota transplantation, GRANULOCYTE-colony stimulating factor, GUT microbiome

Abstract

Introduction: Restoring a balanced, healthy gut microbiota through fecal microbiota transplantation (FMT) has the potential to be a treatment option for sepsis, despite the current lack of evidence. This study aimed to investigate the effect of FMT on sepsis in relation to the gut microbiota through a sepsis model in juvenile mice. Methods: Three-week-old male mice were divided into three groups: the antibiotic treatment (ABX), ABX-FMT, and control groups. The ABX and ABX-FMT groups received antibiotics for seven days. FMT was performed through oral gavage in the ABX-FMT group over the subsequent seven days. On day 14, all mice underwent cecal ligation and puncture (CLP) to induce abdominal sepsis. Blood cytokine levels and the composition of fecal microbiota were analyzed, and survival was monitored for seven days post-CLP. Results: Initially, the fecal microbiota was predominantly composed of the phyla Bacteroidetes and Firmicutes. After antibiotic intake, an extreme predominance of the class Bacilli emerged. FMT successfully restored antibiotic-induced fecal dysbiosis. After CLP, the phylum Bacteroidetes became extremely dominant in the ABX-FMT and control groups. Alpha diversity of the microbiota decreased after antibiotic intake, was restored after FMT, and decreased again following CLP. In the ABX group, the concentrations of interleukin-1β (IL-1β), IL-2, IL-6, IL-10, granulocyte macrophage colony-stimulating factor, tumor necrosis factor-α, and C-X-C motif chemokine ligand 1 increased more rapidly and to a higher degree compared to other groups. The survival rate in the ABX group was significantly lower (20.0%) compared to other groups (85.7%). Conclusion: FMT-induced microbiota restoration demonstrated a protective effect against sepsis. This study uniquely validates the effectiveness of FMT in a juvenile mouse sepsis model, offering potential implications for clinical research in critically ill children. [ABSTRACT FROM AUTHOR]

Published

2024

15. The Microbiota and Microbiome in COVID-19 in Adults and Children and Potential Therapeutic Interventions: A Review.

Author

Benitez-Baez, Miriam Jaqueline, Angulo-Varela, Enrique Alonso, Aispuro-Heredia, Jarianth del Rosario, Vázquez-Noriega, Edgar Gabino, Karam-León, Alejandra, Angulo-Zamudio, Uriel Alberto, Canizalez-Roman, Adrian, and León-Sicairos, Nidia

Subjects

*COVID-19, *GUT microbiome, *HUMAN microbiota, *FECAL microbiota transplantation, *THERAPEUTICS

Abstract

The work presented is a comprehensive review of the role of the human microbiota in the context of the COVID-19 pandemic. A diverse microbial community heavily colonizes the human body called the microbiota, with the gut microbiota being the most diverse. The composition of the microbiota varies in different parts of the body and changes with age, diet, and other environmental factors. Emerging evidence suggests that the gut microbiota plays a critical role in modulating the host immune response and may influence the severity of COVID-19. Patients with COVID-19 have significant alterations in their gut and respiratory microbiota, characterized by a depletion of beneficial commensal bacteria and an enrichment of opportunistic pathogens. These changes in microbiota composition are associated with elevated inflammatory markers, a dysregulated immune response, and more severe disease outcomes. In addition, changes in the gut microbiota can affect lung and brain function, influencing the severity of COVID-19 cases and neurological symptoms, as well as long-term neurological complications associated with the disease. Due to the importance of the microbiota in COVID-19, several therapeutic approaches targeting the microbiota have been proposed to improve outcomes in this disease, including fecal microbiota transplantation, probiotic and prebiotic supplementation, postbiotic or microbiota-derived metabolite supplementation, dietary interventions, and lifestyle strategies. Overall, the review highlights the critical role of the human microbiota in the pathogenesis and progression of COVID-19 and the potential of microbiota-targeted interventions to improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Fecal Microbiota Transplantation: Insights into Colon Carcinogenesis and Immune Regulation.

Author

Brusnic, Olga, Onisor, Danusia, Boicean, Adrian, Hasegan, Adrian, Ichim, Cristian, Guzun, Andreea, Chicea, Radu, Todor, Samuel Bogdan, Vintila, Bogdan Ioan, Anderco, Paula, Porr, Corina, Dura, Horatiu, Fleaca, Sorin Radu, and Cristian, Adrian Nicolae

Subjects

*FECAL microbiota transplantation, *GUT microbiome, *COLORECTAL cancer, *THERAPEUTIC complications, *TREATMENT effectiveness

Abstract

Colorectal cancer (CRC) constitutes a significant global health challenge, with recent studies underscoring the pivotal role of the gut microbiome in its pathogenesis and progression. Fecal microbiota transplantation (FMT) has emerged as a compelling therapeutic approach, offering the potential to modulate microbial composition and optimize treatment outcomes. Research suggests that specific bacterial strains are closely linked to CRC, influencing both its clinical management and therapeutic interventions. Moreover, the gut microbiome's impact on immunotherapy responsiveness heralds new avenues for personalized medicine. Despite the promise of FMT, safety concerns, particularly in immunocompromised individuals, remain a critical issue. Clinical outcomes vary widely, influenced by genetic predispositions and the specific transplantation methodologies employed. Additionally, rigorous donor selection and screening protocols are paramount to minimize risks and maximize therapeutic efficacy. The current body of literature advocates for the establishment of standardized protocols and further clinical trials to substantiate FMT's role in CRC management. As our understanding of the microbiome deepens, FMT is poised to become a cornerstone in CRC treatment, underscoring the imperative for continued research and clinical validation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Amelanotic Melanoma—Biochemical and Molecular Induction Pathways.

Author

Misiąg, Piotr, Molik, Klaudia, Kisielewska, Monika, Typek, Paulina, Skowron, Izabela, Karwowska, Anna, Kuźnicki, Jacek, Wojno, Aleksandra, Ekiert, Marcin, and Choromańska, Anna

Subjects

*FECAL microbiota transplantation, *IMMUNE checkpoint inhibitors, *INDOLEAMINE 2,3-dioxygenase, *IMMUNE checkpoint proteins, *DEATH receptors

Abstract

Amelanotic melanoma (AM) is a subtype of hypomelanotic or completely amelanotic melanoma. AM is a rare subtype of melanoma that exhibits a higher recurrence rate and aggressiveness as well as worse surveillance than typical melanoma. AM shows a dysregulation of melanin production, cell cycle control, and apoptosis pathways. Knowing these pathways has an application in medicine due to targeted therapies based on the inhibiting elements of the abovementioned pathways. Therefore, we summarized and discussed AM biochemical and molecular induction pathways and personalized medicine approaches, clinical management, and future directions due to the fact that AM is relatively rare. AM is commonly misdiagnosed. Hence, the role of biomarkers is becoming significant. Nonetheless, there is a shortage of biomarkers specific to AM. BRAF, NRAS, and c-KIT genes are the main targets of therapy. However, the role of BRAF and KIT in AM varied among studies. BRAF inhibitors combined with MAK inhibitors demonstrate better results. Immune checkpoint inhibitors targeting CTLA-4 combined with a programmed death receptor 1 (PD-1) show better outcomes than separately. Fecal microbiota transplantation may overcome resistance to immune checkpoint therapy of AM. Immune-modulatory vaccines against indoleamine 2,3-dioxygenase (IDO) and PD ligand (PD-L1) combined with nivolumab may be efficient in melanoma treatment. [ABSTRACT FROM AUTHOR]

Published

2024

18. Fecal microbial transplants as investigative tools in cancer.

Author

Bohm, Margaret S., Ramesh, Arvind V., Pierre, Joseph F., Cook, Katherine L., Murphy, E. Angela, and Makowski, Liza

Subjects

*FECAL microbiota transplantation, *GUT microbiome, *TREATMENT effectiveness, *DISEASE risk factors, *PROBIOTICS

Abstract

The gut microbiome plays a critical role in the development, progression, and treatment of cancer. As interest in microbiome-immune-cancer interactions expands, the prevalence of fecal microbial transplant (FMT) models has increased proportionally. However, current literature does not provide adequate details or consistent approaches to allow for necessary rigor and experimental reproducibility. In this review, we evaluate key studies using FMT to investigate the relationship between the gut microbiome and various types of cancer. In addition, we will discuss the common pitfalls of these experiments and methods for improved standardization and validation as the field uses FMT with greater frequency. Finally, this review focuses on the impacts of the gut and extraintestinal microbes, prebiotics, probiotics, and postbiotics in cancer risk and response to therapy across a variety of tumor types. NEW & NOTEWORTHY: The microbiome impacts the onset, progression, and therapy response of certain types of cancer. Fecal microbial transplants (FMTs) are an increasingly prevalent tool to test these mechanisms that require standardization by the field. [ABSTRACT FROM AUTHOR]

Published

2024

19. Intraduodenal fecal microbiota transplantation ameliorates gut atrophy and cholestasis in a novel parenteral nutrition piglet model.

Author

Manithody, Chandrashekhara, Denton, Christine, Mehta, Shaurya, Carter, Jasmine, Kurashima, Kento, Bagwe, Ashlesha, Swiderska-Syn, Marzena, Guzman, Miguel, Besmer, Sherri, Jain, Sonali, McHale, Matthew, Qureshi, Kamran, Nazzal, Mustafa, Caliskan, Yasar, Long, John, Lin, Chien-Jung, Hutchinson, Chelsea, Ericsson, Aaron C., and Jain, Ajay Kumar

Subjects

*FIBROBLAST growth factor receptors, *FARNESOID X receptor, *G protein coupled receptors, *MULTIVARIATE analysis, *DRUG discovery, *LIVER histology, *FECAL microbiota transplantation

Abstract

Total parenteral nutrition (TPN) provides lifesaving nutritional support intravenously; however, it is associated with significant side effects. Given gut microbial alterations noted with TPN, we hypothesized that transferring fecal microbiota from healthy controls would restore gut-systemic signaling in TPN and mitigate injury. Using our novel ambulatory model (US Patent: US 63/136,165), 31 piglets were randomly allocated to enteral nutrition (EN), TPN only, TPN + antibiotics (TPN-A), or TPN + intraduodenal fecal microbiota transplant (TPN + FMT) for 14 days. Gut, liver, and serum were assessed through histology, biochemistry, and qPCR. Stool samples underwent 16 s rRNA sequencing. Permutational multivariate analysis of variance, Jaccard, and Bray–Curtis metrics were performed. Significant bilirubin elevation in TPN and TPN-A versus EN (P < 0.0001) was prevented with FMT. IFN-G, TNF-α, IL-β, IL-8, and lipopolysaccharide (LPS) were significantly higher in TPN (P = 0.009, P = 0.001, P = 0.043, P = 0.011, P < 0.0001), with preservation upon FMT. Significant gut atrophy by villous-to-crypt ratio in TPN (P < 0.0001) and TPN-A (P = 0.0001) versus EN was prevented by FMT (P = 0.426 vs. EN). Microbiota profiles using principal coordinate analysis demonstrated significant FMT and EN overlap, with the largest separation in TPN-A followed by TPN, driven primarily by Firmicutes and Fusobacteria. TPN-altered gut barrier was preserved upon FMT; upregulated cholesterol 7 α-hydroxylase and bile salt export pump in TPN and TPN-A and downregulated fibroblast growth factor receptor 4, EGF, farnesoid X receptor, and Takeda G Protein-coupled Receptor 5 (TGR5) versus EN was prevented by FMT. This study provides novel evidence of prevention of gut atrophy, liver injury, and microbial dysbiosis with intraduodenal FMT, challenging current paradigms into TPN injury mechanisms and underscores the importance of gut microbes as prime targets for therapeutics and drug discovery. NEW & NOTEWORTHY: Intraduodenal fecal microbiota transplantation presents a novel strategy to mitigate complications associated with total parenteral nutrition (TPN), highlighting gut microbiota as a prime target for therapeutic and diagnostic approaches. These results from a highly translatable model provide hope for TPN side effect mitigation for thousands of chronically TPN-dependent patients. [ABSTRACT FROM AUTHOR]

Published

2024

20. Relationships between Gut Microbiota and Autism Spectrum Disorders: Development and Treatment.

Author

Poupard, Lisa, Page, Guylène, Thoreau, Vincent, and Kaouah, Zahyra

Subjects

*AUTISM spectrum disorders, *FECAL microbiota transplantation, *SHORT-chain fatty acids, *GABA, *GUT microbiome

Abstract

Many studies have demonstrated the impact of intestinal microbiota on normal brain development. Moreover, the gut microbiota (GM) is impacted by multiple endogenous and environmental factors that may promote gut dysbiosis (GD). An increasing number of studies are investigating the possible role of the GD in the development of neurological and behavioral disorders. For autism spectrum disorders (ASD), specific intestinal bacterial signatures have been identified, knowing that gastrointestinal symptoms are frequently found in ASD. In this review, the peri and post-natal factors modulating the GM are described and the specific gut bacterial signature of ASD children is detailed. Through bidirectional communication between the GM and the brain, several mechanisms are involved in the development of ASD, such as cytokine-mediated neuroinflammation and decreased production of neuroprotective factors such as short-chain fatty acids by the GM. Imbalance of certain neurotransmitters such as serotonin or gamma-aminobutyric acid could also play a role in these gut-brain interactions. Some studies show that this GD in ASD is partly reversible by treatment with pre- and probiotics, or fecal microbiota transplantation with promising results. However, certain limitations have been raised, in particular concerning the short duration of treatment, the small sample sizes and the diversity of protocols. The development of standardized therapeutics acting on GD in large cohort could rescue the gastrointestinal symptoms and behavioral impairments, as well as patient management. [ABSTRACT FROM AUTHOR]

Published

2024

21. Gut dysbiosis contributes to TMAO accumulation in CKD.

Author

Holle, Johannes, McParland, Victoria, Anandakumar, Harithaa, Gerritzmann, Frederick, Behrens, Felix, Schumacher, Fabian, Thumfart, Julia, Eckardt, Kai-Uwe, Kleuser, Burkhard, Bartolomaeus, Hendrik, and Wilck, Nicola

Subjects

*FECAL microbiota transplantation, *BACTERIAL enzymes, *DISEASE risk factors, *DIETARY patterns, *ACUTE kidney failure, *PEDIATRIC nursing

Published

2024

22. Microbiome dynamics in immune checkpoint blockade.

Author

Kim, Chae Won, Kim, Hyun-Jin, and Lee, Heung Kyu

Subjects

*GUT microbiome, *FECAL microbiota transplantation, *IMMUNE checkpoint proteins, *INTESTINAL tumors, *CLINICAL trials

Abstract

The microbiome is a modifiable factor influencing the efficacy of immune checkpoint blockade (ICB) through multiple mechanisms. Clinical trial reports reveal that modulation of the efficacy of ICB through fecal microbiota transplantation (FMT) and probiotics for altering the intestinal microbiome is clinically feasible. The presence and role of a tumor microbiome, in addition to the intestinal microbiome, may be crucial in the regulation of tumorigenesis. Advances in sequencing technology and analytical methods are accelerating microbiome research, enabling more in-depth investigations. Immune checkpoint blockade (ICB) is one of the leading immunotherapies, although a variable extent of resistance has been observed among patients and across cancer types. Among the efforts underway to overcome this challenge, the microbiome has emerged as a factor affecting the responsiveness and efficacy of ICB. Active research, facilitated by advances in sequencing techniques, is assessing the predominant influence of the intestinal microbiome, as well as the effects of the presence of an intratumoral microbiome. In this review, we describe recent findings from clinical trials, observational studies of human patients, and animal studies on the impact of the microbiome on the efficacy of ICB, highlighting the role of the intestinal and tumor microbiomes and the contribution of methodological advances in their study. [ABSTRACT FROM AUTHOR]

Published

2024

23. Understanding gut dysbiosis for hepatocellular carcinoma diagnosis and treatment.

Author

Yu, Jingjing, Chen, Xiaoping, Yang, Xiangliang, and Zhang, Bixiang

Subjects

*FECAL microbiota transplantation, *GUT microbiome, *METABOLIC reprogramming, *ENTEROHEPATIC circulation, *IMMUNE checkpoint inhibitors

Abstract

Gut dysbiosis has been implicated in the pathogenesis of hepatocellular carcinoma (HCC) arising from diverse etiological factors. Microbe-associated molecular patterns (MAMPs), microbial metabolites, and fungi are capable of modulating the metabolic pathways and immune composition of the HCC microenvironment. The gut microbiome holds potential as a novel tool for early diagnosis and evaluation of the outcome response, especially to immune checkpoint inhibitors (ICIs). Targeted manipulation of the gut microbiome through diets, antibiotics, probiotics, fecal microbiota transplantation (FMT), and nano-delivery systems may augment therapeutic efficacy in the management of HCC. The gut microbiome can play a crucial role in hepatocellular carcinoma (HCC) progression through the enterohepatic circulation, primarily acting via metabolic reprogramming and alterations in the hepatic immune microenvironment triggered by microbe-associated molecular patterns (MAMPs), metabolites, and fungi. In addition, the gut microbiome shows potential as a biomarker for early HCC diagnosis and for assessing the efficacy of immunotherapy in unresectable HCC. This review examines how gut microbiota dysbiosis, with varied functional profiles, contributes to HCCs of different etiologies. We discuss therapeutic strategies to modulate the gut microbiome including diets, antibiotics, probiotics, fecal microbiota transplantation, and nano-delivery systems, and underscore their potential as an adjunctive treatment modality for HCC. [ABSTRACT FROM AUTHOR]

Published

2024

24. Good Bacteria Business.

Subjects

FECAL microbiota transplantation, MOLECULAR biology, ESCHERICHIA coli, IMMUNE checkpoint inhibitors, ULCERATIVE colitis

Abstract

The article "Good Bacteria Business" discusses the growing market for microbiome-based therapeutics, which are expected to reach a global multi-billion-dollar market by 2030. Various companies have developed products, such as Ferring Pharmaceuticals' Rebyota and Seres Therapeutics' Vowst, to treat C. diff infections using bacterial species derived from donor-supplied material. Research is ongoing to understand the link between unhealthy microbiomes and disease, with potential applications in treating a range of health challenges and diseases by restoring healthy microbial communities. [Extracted from the article]

Published

2024

25. Safety and efficacy of fecal microbiota transplantation (FMT) as a modern adjuvant therapy in various diseases and disorders: a comprehensive literature review.

Author

Karimi, Mehdi, Shirsalimi, Niyousha, Hashempour, Zahra, Omran, Hossein Salehi, Sedighi, Eshagh, Beigi, Farzan, and Mortezazadeh, Masoud

Subjects

FECAL microbiota transplantation, LITERATURE reviews, AUTOIMMUNE diseases, FECES, INTESTINAL diseases

Abstract

The human gastrointestinal (GI) tract microbiome is a complex and allencompassing ecological system of trillions of microorganisms. It plays a vital role in digestion, disease prevention, and overall health. When this delicate balance is disrupted, it can lead to various health issues. Fecal microbiota transplantation (FMT) is an emerging therapeutic intervention used as an adjuvant therapy for many diseases, particularly those with dysbiosis as their underlying cause. Its goal is to restore this balance by transferring fecal material from healthy donors to the recipients. FMT has an impressive reported cure rate between 80% and 90% and has become a favored treatment for many diseases. While FMT may have generally mild to moderate transient adverse effects, rare severe complications underscore the importance of rigorous donor screening and standardized administration. FMT has enormous potential as a practical therapeutic approach; however, additional research is required to further determine its potential for clinical utilization, as well as its safety and efficiency in different patient populations. This comprehensive literature review offers increased confidence in the safety and effectiveness of FMT for several diseases affecting the intestines and other systems, including diabetes, obesity, inflammatory and autoimmune illness, and other conditions. [ABSTRACT FROM AUTHOR]

Published

2024

26. Dysbiosis and fecal microbiota transplant: Contemplating progress in health, neurodegeneration and longevity.

Author

Ahmadi, Somayeh, Hasani, Alka, Khabbaz, Aytak, Poortahmasbe, Vahdat, Hosseini, Samaneh, Yasdchi, Mohammad, Mehdizadehfar, Elham, Mousavi, Zahra, Hasani, Roqaiyeh, Nabizadeh, Edris, and Nezhadi, Javad

Abstract

The gut-brain axis plays an important role in mental health. The intestinal epithelial surface is colonized by billions of commensal and transitory bacteria, known as the Gut Microbiota (GM). However, potential pathogens continuously stimulate intestinal immunity when they find the place. The last two decades have witnessed several studies revealing intestinal bacteria as a key factor in the health-disease balance of the gut, as well as disease-emergent in other parts of the body. Various neurological processes, such as cognition, learning, and memory, could be affected by dysbiosis in GM. Additionally, the aging process and longevity are related to systemic inflammation caused by dysbiosis. Commensal GM affects brain development, behavior, and healthy aging suggesting that building changes in GM might be a potential therapeutic method. The innovation in GM dysbiosis is intervention by Fecal Microbiota Transplantation (FMT), which has been confirmed as a therapy for recurrent Clostridium difficile infections and is promising for other clinical disorders, such as Parkinson's disease, Multiple Sclerosis (MS), Alzheimer's disease, and depression. Additionally, FMT may be possible to promote healthy aging, and extend longevity. This review aims to connect dysbiosis, neurological disorders, and aging and the potential of FMT as a therapeutic strategy to treat these disorders, and to enhance the quality of life in the elderly. [ABSTRACT FROM AUTHOR]

Published

2024

27. Exploring the Gut Microbiota: Key Insights Into Its Role in Obesity, Metabolic Syndrome, and Type 2 Diabetes.

Author

Pillai, Sabitha Sasidharan, Gagnon, Charles A, Foster, Christy, and Ashraf, Ambika P

Subjects

FECAL microbiota transplantation, TYPE 2 diabetes, DIETARY patterns, SUSTAINABILITY, METABOLIC disorders

Abstract

The gut microbiota (GM), comprising trillions of microorganisms in the gastrointestinal tract, is a key player in the development of obesity and related metabolic disorders, such as type 2 diabetes (T2D), metabolic syndrome (MS), and cardiovascular diseases. This mini-review delves into the intricate roles and mechanisms of the GM in these conditions, offering insights into potential therapeutic strategies targeting the microbiota. The review elucidates the diversity and development of the human GM, highlighting its pivotal functions in host physiology, including nutrient absorption, immune regulation, and energy metabolism. Studies show that GM dysbiosis is linked to increased energy extraction, altered metabolic pathways, and inflammation, contributing to obesity, MS, and T2D. The interplay between dietary habits and GM composition is explored, underscoring the influence of diet on microbial diversity and metabolic functions. Additionally, the review addresses the impact of common medications and therapeutic interventions like fecal microbiota transplantation on GM composition. The evidence so far advocates for further research to delineate the therapeutic potential of GM modulation in mitigating obesity and metabolic diseases, emphasizing the necessity of clinical trials to establish effective and sustainable treatment protocols. [ABSTRACT FROM AUTHOR]

Published

2024

28. Gut microbiome‐targeted therapies as adjuvant treatments in inflammatory bowel diseases: a systematic review and network meta‐analysis.

Author

Zhang, Tao, Li, Xiaoang, Li, Jun, Sun, Feng, and Duan, Liping

Subjects

*INFLAMMATORY bowel diseases, *CROHN'S disease, *FECAL microbiota transplantation, *DISEASE remission, *DISEASE relapse

Abstract

Background and Aim Methods Results Conclusions Gut microbiome‐targeted therapies (MTTs), including prebiotics, probiotics, synbiotics, and fecal microbiota transplantation (FMT), have been widely used in inflammatory bowel diseases (IBD), but the best MTTs has not yet been confirmed. We performed a network meta‐analysis (NMA) to examine this in ulcerative colitis (UC) and Crohn's disease (CD).We searched for randomized controlled trials (RCTs) on the efficacy and safety of MTTs as adjuvant therapies for IBD until December 10, 2023. Data were pooled using a random effects model, with efficacy reported as pooled relative risks with 95% CIs, and interventions ranked according to means of surfaces under cumulative ranking values.Thirty‐eight RCTs met the inclusion criteria. Firstly, we compared the efficacy of MTTs in IBD patients. Only FMT and probiotics were superior to placebo in all outcomes, but FMT ranked best in improving clinical response rate and clinical and endoscopic remission rate, and probiotics ranked second in reducing clinical relapse rate showed significant efficacy, while prebiotics ranked first showed nonsignificant efficacy. Subsequently, we conducted NMA for specific MTT formulations in UC and CD separately, which revealed that FMT, especially combined FMT via colonoscopy and enema, showed significant efficacy and was superior in improving clinical response and remission rate of active UC patients. As for endoscopic remission and clinical relapse, multistrain probiotics based on specific genera of Lactobacillus and Bifidobacterium showed significant efficacy and ranked best in UC. In CD, we found that no MTTs were significantly better than placebo, but synbiotics comprising Bifidobacterium and fructo‐oligosaccharide/inulin mix and Saccharomyces ranked best in improving clinical remission and reducing clinical relapse, respectively. Moreover, FMT was safe in both UC and CD.FMT and multistrain probiotics showed superior efficacy in UC. However, the efficacy of MTTs varies among different IBD subtypes and disease stages; thus, the personalized treatment strategies of MTTs are necessary. [ABSTRACT FROM AUTHOR]

Published

2024

29. Current progress on the microbial therapies for acute liver failure.

Author

Jiayuan Huang, Tianyu Xu, Guoqiao Quan, Yuange Li, Xiaoya Yang, and Wenrui Xie

Subjects

HEPATIC encephalopathy, FECAL microbiota transplantation, LIVER failure, LIVER diseases, DEATH rate

Abstract

Acute liver failure (ALF), associated with a clinical fatality rate exceeding 80%, is characterized by severe liver damage resulting from various factors in the absence of pre-existing liver disease. The role of microbiota in the progression of diverse liver diseases, including ALF, has been increasingly recognized, with the interactions between the microbiota and the host significantly influencing both disease onset and progression. Despite growing interest in the microbiological aspects of ALF, comprehensive reviews remain limited. This review critically examines the mechanisms and efficacy of microbiota-based treatments for ALF, focusing on their role in prevention, treatment, and prognosis over the past decade. [ABSTRACT FROM AUTHOR]

Published

2024

30. Comparative effectiveness of treatments for recurrent Clostridioides difficile infection: a network meta-analysis of randomized controlled trials.

Author

Hong Duo, Yanwei Yang, Guqing Zhang, Yingxin Chen, Yumeng Cao, Linjie Luo, Huaqin Pan, and Qifa Ye

Subjects

FECAL microbiota transplantation, CLOSTRIDIOIDES difficile, BAYESIAN analysis, RANDOMIZED controlled trials, ODDS ratio

Abstract

Background: Clostridioides difficile infection (CDI) is the most common cause of healthcare-associated infectious diarrhea. A major clinical challenge is recurrent CDI (rCDI) without effective standard drug-based therapy. Additionally, a comprehensive comparison of various therapy effectiveness in rCDI patients is still under investigation. Methods: A Bayesian network meta-analysis (NMA) of randomized control trials up to March 2024 was performed to investigate the efficacy of rCDI interventions. Results: Seventeen trials were included, comprising 4,148 CDI patients with ten interventions, including fecal microbiota transplantation (FMT) by lower gastrointestinal (LGI), FMT by upper gastrointestinal (UGI), Autologous FMT (AFMT), vancomycin + FMT, vancomycin, placebo, fidaxomicin, Vowst (SER109), Rebyota (RBX2660), and monoclonal antibody. NMA showed that FMT by LGI had the highest efficacy in treating rCDIs with an odds ratio (95% confidence interval) of 32.33 (4.03, 248.69) compared with placebo. FMT by UGI also showed high efficacy, whereas the efficacy comparison between FMT by LGI and UGI was not statistically significant (ORs) (95% CI), 1.72 (0.65, 5.21). The rankogram and surface under the cumulative ranking curve (SUCRA) also showed FMT by LGI ranked at the top and FMT by UGI ranked second in the curative effect. Conclusion: NMA demonstrates FMT’s significant efficacy in rCDI management, regardless of administration route (lower or upper gastrointestinal). Despite its significant benefits, FMT’s safety is a concern due to the lack of standardized FDAcompliant manufacturing and oversight. Microbiota-based therapies also exhibit potential. However, limited research mandates further clinical exploration. Antibiotics, in contrast, display comparatively reduced efficacy in rCDI, potentially linked to disruptions in native gut microflora balance [ABSTRACT FROM AUTHOR]

Published

2024

31. Fecal microbiota transplantation against moderate‐to‐severe atopic dermatitis: A randomized, double‐blind controlled explorer trial.

Author

Liu, Xiaochun, Luo, Yang, Chen, Xingyu, Wu, Mingyang, Xu, Xiaoqiang, Tian, Jingru, Gao, Yingxia, Zhu, Jun, Wang, Zhifeng, Zhou, Yuan, Zhang, Yu, Wang, Xiaokai, Li, Wei, Lu, Qianjin, and Yao, Xu

Subjects

*MONONUCLEAR leukocytes, *KILLER cells, *TH2 cells, *T helper cells, *GUT microbiome, *SHOTGUN sequencing, *FECAL microbiota transplantation

Abstract

Background Methods Results Conclusion Fecal microbiota transplantation (FMT) is a novel treatment for inflammatory diseases. Herein, we assess its safety, efficacy, and immunological impact in patients with moderate‐to‐severe atopic dermatitis (AD).In this randomized, double‐blind, placebo‐controlled clinical trial, we performed the efficacy and safety assessment of FMT for moderate‐to‐severe adult patients with AD. All patients received FMT or placebo once a week for 3 weeks, in addition to their standard background treatments. Patients underwent disease severity assessments at weeks 0, 1, 2, 4, 8, 12, and 16, and blood and fecal samples were collected for immunologic analysis and metagenomic shotgun sequencing, respectively. Safety was monitored throughout the trial.Improvements in eczema area and severity index (EASI) scores and percentage of patients achieving EASI 50 (50% reduction in EASI score) were greater in patients treated with FMT than in placebo‐treated patients. No serious adverse reactions occurred during the trial. FMT treatment decreased the Th2 and Th17 cell proportions among the peripheral blood mononuclear cells, and the levels of TNF‐α, and total IgE in serum. By contrast, the expression levels of IL‐12p70 and perforin on NK cells were increased. Moreover, FMT altered the abundance of species and functional pathways of the gut microbiota in the patients, especially the abundance of Megamonas funiformis and the pathway for 1,4‐dihydroxy‐6‐naphthoate biosynthesis II.FMT was a safe and effective therapy in moderate‐to‐severe adult patients with AD; the treatment changed the gut microbiota compositions and functions. [ABSTRACT FROM AUTHOR]

Published

2024

32. Fecal microbiota transplantation from protozoa-exposed donors downregulates immune response in a germ-free mouse model, its role in immune response and physiology of the intestine.

Author

Partida-Rodríguez, Oswaldo, Brown, Eric M., Woodward, Sarah E., Cirstea, Mihai, Reynolds, Lisa A., Petersen, Charisse, Vogt, Stefanie L., Peña-Díaz, Jorge, Thorson, Lisa, Arrieta, Marie-Claire, Hernández, Eric G., Rojas-Velázquez, Liliana, Moran, Patricia, González Rivas, Enrique, Serrano-Vázquez, Angélica, Pérez-Juárez, Horacio, Torres, Javier, Ximénez, Cecilia, and Finlay, B. B.

Subjects

*IMMUNOREGULATION, *REGULATORY T cells, *FECAL microbiota transplantation, *ENTAMOEBA histolytica, *GENE expression

Abstract

Intestinal parasites are part of the intestinal ecosystem and have been shown to establish close interactions with the intestinal microbiota. However, little is known about the influence of intestinal protozoa on the regulation of the immune response. In this study, we analyzed the regulation of the immune response of germ-free mice transplanted with fecal microbiota (FMT) from individuals with multiple parasitic protozoans (P) and non-parasitized individuals (NP). We determined the production of intestinal cytokines, the lymphocyte populations in both the colon and the spleen, and the genetic expression of markers of intestinal epithelial integrity. We observed a general downregulation of the intestinal immune response in mice receiving FMT-P. We found significantly lower intestinal production of the cytokines IL-6, TNF, IFN-γ, MCP-1, IL-10, and IL-12 in the FMT-P. Furthermore, a significant decrease in the proportion of CD3+, CD4+, and Foxp3+ T regulatory cells (Treg) was observed in both, the colon and spleen with FMT-P in contrast to FMT-NP. We also found that in FMT-P mice there was a significant decrease in tjp1 expression in all three regions of the small intestine; ocln in the ileum; reg3γ in the duodenum and relmβ in both the duodenum and ileum. We also found an increase in colonic mucus layer thickness in mice colonized with FMT-P in contrast with FMT-NP. Finally, our results suggest that gut protozoa, such as Blastocystis hominis, Entamoeba coli, Endolimax nana, Entamoeba histolytica/E. dispar, Iodamoeba bütschlii, and Chilomastix mesnili consortia affect the immunoinflammatory state and induce functional changes in the intestine via the gut microbiota. Likewise, it allows us to establish an FMT model in germ-free mice as a viable alternative to explore the effects that exposure to intestinal parasites could have on the immune response in humans. [ABSTRACT FROM AUTHOR]

Published

2024

33. FMT and TCM to treat diarrhoeal irritable bowel syndrome with induced spleen deficiency syndrome- microbiomic and metabolomic insights.

Author

Tang, Bin-Bin, Su, Cheng-Xia, Wen, Na, Zhang, Qian, Chen, Jian-Hui, Liu, Bin-Bin, Wang, Yi-Qing, Huang, Chao-Qun, and Hu, Yun-Lian

Subjects

*IRRITABLE colon, *INTESTINAL barrier function, *FECAL microbiota transplantation, *CHINESE medicine, *SPLEEN

Abstract

Background: Diarrheal irritable bowel syndrome (IBS-D) is a functional bowel disease with diarrhea, and can be associated with common spleen deficiency syndrome of the prevelent traditional Chinese medicine (TCM) syndrome. Fecal microbiota transplantation (FMT) could help treating IBS-D, but may provide variable effects. Our study evaluated the efficacy of TCM- shenling Baizhu decoction and FMT in treating IBS-D with spleen deficiency syndrome, with significant implications on gut microbiome and serum metabolites. Methods: The new borne rats were procured from SPF facility and separated as healthy (1 group) and IBS-D model (3 groups) rats were prepared articially using mother's separation and senna leaf treatment. 2 groups of IBS-D models were further treated with TCM- shenling Baizhu decoction and FMT. The efficacy was evaluated by defecation frequency, bristol stool score, and intestinal tight junction proteins (occludin-1 and claudin-1) expression. Microbiomic analysis was conducted using 16 S rRNA sequencing and bioinformatics tools. Metabolomics were detected in sera of rats by LC-MS and annotated by using KEGG database. Results: Significant increment in occludin-1 and claudin-1 protein expression alleviated the diarrheal severity in IBS-D rats (P < 0.05) after treatment with FMT and TCM. FMT and TCM altered the gut microbiota and regulated the tryptophan metabolism, steroid hormone biosynthesis and glycerophospholipid metabolism of IBS-D rats with spleen deficiency syndrome.The microbial abundance were changed in each case e.g., Monoglobus, Dubosiella, and Akkermansia and othe metabolic profiles. Conclusion: FMT and TCM treatment improved the intestinal barrier function by regulating gut microbiota and improved metabolic pathways in IBS-D with spleen deficiency syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

34. Improved health-related quality of life in patients with recurrent <italic>Clostridioides difficile</italic> infection after treatment with faecal microbiota transplantation.

Author

Magnusson, Cecilia, Ölfvingsson, Elis, Hjortswang, Henrik, Östholm, Åse, and Serrander, Lena

Subjects

*FECAL microbiota transplantation, *QUALITY of life, *CLOSTRIDIOIDES difficile, *COHORT analysis, *MEDICAL care

Abstract

AbstractBackgroundObjectivesMethodsResultsConclusionsClostridioides difficile is a major burden for both healthcare systems and the patients. Faecal microbiota transplantation (FMT) is becoming more common as a treatment since it reduces the risk of recurrent Clostridioides difficile infection (rCDI).To evaluate how treatment with FMT is affecting the health-related quality of life (HRQoL) in patients with rCDI.A prospective observational cohort study was conducted where patients who were offered FMT as a treatment for rCDI were asked to fill in a questionnaire based on the Short Health Scale (SHS) and EuroQol 5-Dimensions 5-Levels (EQ-5D-5L) about their HRQoL before and after treatment.Patients with rCDI had poor HRQoL, which improved following FMT.Since FMT cures, reduces the risk of new recurrences of CDI and improves the HRQoL of the patients, it should be offered as a treatment for patients with rCDI. Also, SHS is a useful and reliable instrument for measuring HRQoL in patients with rCDI. [ABSTRACT FROM AUTHOR]

Published

2024

35. Safety and efficacy of fecal microbiota transplantation for viral diseases: A systematic review of clinical trials.

Author

Ebrahimi, Rasoul, Masouri, Mohammad Mahdi, Salehi Amniyeh Khozani, Amir Abbas, Ramadhan Hussein, Dana, and Nejadghaderi, Seyed Aria

Subjects

*FECAL microbiota transplantation, *CLOSTRIDIOIDES difficile, *HIV, *HEPATITIS B, *DISEASE remission

Abstract

Background: Gut microbiota play important roles in several diseases like viral infections. In this systematic review, our objective was to assess the efficacy and safety of fecal microbiota transplantation (FMT) in treating various viral diseases. Methods: We conducted searches on databases including PubMed, Web of Science, Scopus, and Google Scholar until November 2023. Clinical trials reported outcomes related to safety of FMT or its efficacy in patients with viral diseases were included. We excluded other types of studies that enrolled healthy individuals or patients with other disorders and did not use FMT. The assessment of bias risk was conducted using the National Institutes of Health (NIH) study quality evaluation tool. Results: Eight studies with total 196 participants were included. Viral diseases were human immunodeficiency virus (HIV), hepatitis B, COVID-19 and Clostridioides difficile coinfection, and cytomegalovirus colitis. In hepatitis B cases, HBeAg clearance was significant in those received FMT (p<0.01), while it was not significant in another one (p = 0.19). A clinical response was noted in 37.5% of patients with cytomegalovirus colitis, with an equal percentage achieving clinical remission post-FMT. There was a significant reduction in Clostridioides difficile relapse rate in FMT group than controls in coinfection of Clostridioides difficile and COVID-19 (2.17% vs. 42.5%, p<0.05). In patients with HIV, partial engraftment of the donor microbiome and increases in alpha diversity were observed after FMT. No severe adverse events were reported. Most studies had fair or good qualities. Conclusions: Our findings revealed FMT as a promising, safe treatment for some viral diseases. It improved viral clearance, clinical outcomes, and inflammation. However, the varying responses and small sample sizes call for more trials on FMT in viral diseases. [ABSTRACT FROM AUTHOR]

Published

2024

36. Editorial: Probiotics and their metabolites in cancer therapy.

Author

Gholizadeh, Pourya, Faghfouri, Amir Hossein, Furneri, Pio Maria, and Faghfuri, Elnaz

Subjects

DIGESTIVE system diseases, MEDICAL sciences, TUMOR necrosis factors, CASHEW tree, FECAL microbiota transplantation, JATROPHA, GARLIC, COFFEE plantations

Abstract

The editorial in the Frontiers in Pharmacology journal explores the potential of probiotics and their metabolites in cancer therapy, emphasizing their role in modulating immune responses and enhancing innate immunity. The research highlights the anticancer properties of probiotics and calls for further human trials and molecular mechanism studies to fully establish their effectiveness. Additionally, the document provides information on various plant species used in Brazilian folk medicine, detailing their traditional names, growth forms, parts used, preparation methods, and applications for treating ailments like headaches, stomachaches, malaria, and skin conditions, showcasing the diverse medicinal practices of different cultures. [Extracted from the article]

Published

2024

37. The potential influence and intervention measures of gut microbiota on sperm: it is time to focus on testis-gut microbiota axis.

Author

Wenkang Chen, Hede Zou, Haoran Xu, Rui Cao, Hekun Zhang, Yapeng Zhang, and Jiayou Zhao

Subjects

GUT microbiome, FECAL microbiota transplantation, MALE infertility, SPERM motility, SPERMATOZOA, PROBIOTICS

Abstract

As the global male infertility rate continues to rise, there is an urgent imperative to investigate the underlying causes of sustained deterioration in sperm quality. The gut microbiota emerges as a pivotal factor in host health regulation, with mounting evidence highlighting its dual influence on semen. This review underscores the interplay between the Testis-Gut microbiota axis and its consequential effects on sperm. Potential mechanisms driving the dual impact of gut microbiota on sperm encompass immune modulation, inflammatory responses mediated by endotoxins, oxidative stress, antioxidant defenses, gut microbiota-derived metabolites, epigenetic modifications, regulatory sex hormone signaling. Interventions such as probiotics, prebiotics, synbiotics, fecal microbiota transplantation, and Traditional natural herbal extracts are hypothesized to rectify dysbiosis, offering avenues to modulate gut microbiota and enhance Spermatogenesis and motility. Future investigations should delve into elucidating the mechanisms and foundational principles governing the interaction between gut microbiota and sperm within the Testis-Gut microbiota Axis. Understanding and modulating the Testis-Gut microbiota Axis may yield novel therapeutic strategies to enhance male fertility and combat the global decline in sperm quality. [ABSTRACT FROM AUTHOR]

Published

2024

38. Fecal microbiota transplantation alters the proteomic landscape of inflammation in HIV: identifying bacterial drivers.

Author

Díaz-García, Claudio, Moreno, Elena, Talavera-Rodríguez, Alba, Martín-Fernández, Lucía, González-Bodí, Sara, Martín-Pedraza, Laura, Pérez-Molina, José A., Dronda, Fernando, Gosalbes, María José, Luna, Laura, Vivancos, María Jesús, Huerta-Cepas, Jaime, Moreno, Santiago, and Serrano-Villar, Sergio

Subjects

FECAL microbiota transplantation, BLOOD proteins, PROTEIN expression, PROTEOMICS, GUT microbiome

Abstract

Background: Despite effective antiretroviral therapy, people with HIV (PWH) experience persistent systemic inflammation and increased morbidity and mortality. Modulating the gut microbiome through fecal microbiota transplantation (FMT) represents a novel therapeutic strategy. We aimed to evaluate proteomic changes in inflammatory pathways following repeated, low-dose FMT versus placebo. Methods: This double-masked, placebo-controlled pilot study assessed the proteomic impacts of weekly FMT versus placebo treatment over 8 weeks on systemic inflammation in 29 PWH receiving stable antiretroviral therapy (ART). Three stool donors with high Faecalibacterium and butyrate profiles were selected, and their individual stools were used for FMT capsule preparation. Proteomic changes in 345 inflammatory proteins in plasma were quantified using the proximity extension assay, with samples collected at baseline and at weeks 1, 8, and 24. Concurrently, we characterized shifts in the gut microbiota composition and annotated functions through shotgun metagenomics. We fitted generalized additive models to evaluate the dynamics of protein expression. We selected the most relevant proteins to explore their correlations with microbiome composition and functionality over time using linear mixed models. Results: FMT significantly reduced the plasma levels of 45 inflammatory proteins, including established mortality predictors such as IL6 and TNF-α. We found notable reductions persisting up to 16 weeks after the final FMT procedure, including in the expression of proteins such as CCL20 and CD22. We identified changes in 46 proteins, including decreases in FT3LG, IL6, IL10RB, IL12B, and IL17A, which correlated with multiple bacterial species. We found that specific bacterial species within the Ruminococcaceae, Succinivibrionaceae, Prevotellaceae families, and the Clostridium genus, in addition to their associated genes and functions, were significantly correlated with changes in inflammatory markers. Conclusions: Targeting the gut microbiome through FMT effectively decreased inflammatory proteins in PWH, with sustained effects. These findings suggest the potential of the microbiome as a therapeutic target to mitigate inflammation-related complications in this population, encouraging further research and development of microbiome-based interventions. 3bGeWVUV_8zBqrmtjgQWmW Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

39. Intestinal homeostasis disrupted by Periodontitis exacerbates Alzheimer's Disease in APP/PS1 mice.

Author

Qian, Xueshen, Lin, Xuxin, Hu, Weiqiang, Zhang, Lu, Chen, Wenqian, Zhang, Shuang, Ge, Song, Xu, Xiongcheng, and Luo, Kai

Subjects

*INTESTINAL barrier function, *FECAL microbiota transplantation, *ALZHEIMER'S disease, *GUT microbiome, *BLOOD-brain barrier

Abstract

Periodontitis exacerbates Alzheimer's disease (AD) through multiple pathways. Both periodontitis and AD are intricately correlated to intestinal homeostasis, yet there is still a lack of direct evidence regarding whether periodontitis can regulate the progression of AD by modulating intestinal homeostasis. The current study induced experimental periodontitis in AD mice by bilaterally ligating the maxillary second molars with silk and administering Pg-LPS injections in APPswe/PS1ΔE9 (APP/PS1) mice. Behavioral tests and histological analyses of brain tissue were conducted after 8 weeks. Gut microbiota was analyzed and colon tissue were also evaluated. Then, fecal microbiota from mice with periodontitis was transplanted into antibiotic-treated mice to confirm the effects of periodontitis on AD and the potential mechanism was explored. The results indicated periodontitis exacerbated cognitive impairment and anxious behaviour in APP/PS1 mice, with increased Aβ deposition, microglial overactivation and neuroinflammation in brain. Moreover, the intestinal homeostasis of AD mice was altered by periodontitis, including affecting gut microbiota composition, causing colon inflammation and destroyed intestinal epithelial barrier. Furthermore, AD mice that underwent fecal transplantation from mice with periodontitis exhibited worsened AD progression and disrupted intestinal homeostasis. It also impaired intestinal barrier function, elevated peripheral inflammation, damaged blood-brain barrier (BBB) and caused neuroinflammation and synapses impairment. Taken together, the current study demonstrated that periodontitis could disrupt intestinal homeostasis to exacerbate AD progression potential via causing gut microbial dysbiosis, intestinal inflammation and intestinal barrier impairment to induce peripheral inflammation and damage BBB, ultimately leading to neuroinflammation and synapse impairment. It underscores the importance of maintaining both periodontal health and intestinal homeostasis to reduce the risk of AD. [ABSTRACT FROM AUTHOR]

Published

2024

40. Decolonization strategies for ESBL-producing or carbapenem-resistant Enterobacterales carriage: a systematic review and meta-analysis.

Author

Zhang, Hai-jiao, Wang, Hong-wei, Tian, Fang-ying, Yang, Cai-zheng, Zhao, Ming, Ding, Yong-xia, Wang, Xue-yu, and Cui, Xin-yu

Subjects

*FECAL microbiota transplantation, *END of treatment, *DECOLONIZATION, *ODDS ratio, *EXPERIMENTAL groups

Abstract

The prevalence of extended-spectrum β-lactamase-producing Enterobacterales (ESBL-E) and carbapenem-resistant Enterobacterales (CRE) has become a global public health problem. ESBL-E/CRE colonization can increase the risk of infection in patients and lead to poor disease prognosis. We conducted a systematic review and meta-analysis to evaluate current decolonization strategies regarding ESBL-E/CRE and their efficacy. A literature search was conducted until August 2023 on the five databases to review decolonization strategies associated with ESBL-E/CRE. A meta-analysis was conducted using RevMan 5.4 to compare differences in the decolonization strategy with placebo controls. The primary outcome was decolonization rates, with secondary outcomes of attributable death and adverse events. Quality of identified studies was determined using the Newcastle–Ottawa scale and cochrane risk assessment tool. Random and fixed effects meta-analyses were performed to calculate pooled value. A total of 25 studies were included. In five randomized controlled trial (RCT) studies, the decolonization effect of selective digestive decontamination(SDD) on ESBL-E/CRE at the end of treatment was significantly better in the experimental group than the controls [risk radio (RR): 3.30; 95% CI 1.78–6.14]. In three n-RCT studies, the decolonization effect in the experimental group was still better than the controls one month after SDD therapy [odds ratio (OR): 4.01; 95% CI 1.88–8.56]. The combined decolonization rates reported by six single-arm trial studies of SDD therapy ranged from 53.8 to 68.0%. Additionally, TSA analysis confirmed the effectiveness of SDD therapy. In studies on Faecal microbiota transplantation (FMT) therapy, the decolonization effect of the experimental group was significantly better than the controls 1 month after treatment (OR: 2.57; 95% CI 1.07–6.16). In studies without a control group and with varying follow-up times, the decolonization rates varied widely but indicated the effectiveness trend of FMT therapy (61.3–81.2%). Currently, research on the decolonization effect of probiotic therapy on ESBL-E/CRE is insufficient, and only a systematic review was conducted. SDD and FMT strategies have short-term benefits for ESBL-E/CRE decolonization, but long-term effects are unclear. The effect of probiotic therapy on ESBL-E/CRE decolonization is an interesting topic that still requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

41. The phageome of patients with ulcerative colitis treated with donor fecal microbiota reveals markers associated with disease remission.

Author

Majzoub, Marwan E., Paramsothy, Sudarshan, Haifer, Craig, Parthasarathy, Rohit, Borody, Thomas J., Leong, Rupert W., Kamm, Michael A., and Kaakoush, Nadeem O.

Subjects

VITAMIN B complex, FECAL microbiota transplantation, ULCERATIVE colitis, DISEASE remission, HUMAN microbiota, BACTERIOPHAGES

Abstract

Bacteriophages are influential within the human gut microbiota, yet they remain understudied relative to bacteria. This is a limitation of studies on fecal microbiota transplantation (FMT) where bacteriophages likely influence outcome. Here, using metagenomics, we profile phage populations - the phageome - in individuals recruited into two double-blind randomized trials of FMT in ulcerative colitis. We leverage the trial designs to observe that phage populations behave similarly to bacterial populations, showing temporal stability in health, dysbiosis in active disease, modulation by antibiotic treatment and by FMT. We identify a donor bacteriophage putatively associated with disease remission, which on genomic analysis was found integrated in a bacterium classified to Oscillospiraceae, previously isolated from a centenarian and predicted to produce vitamin B complex except B12. Our study provides an in-depth assessment of phage populations during different states and suggests that bacteriophage tracking has utility in identifying determinants of disease activity and resolution. Here, the authors profile the gut phageome of individuals recruited into two double-blind randomized trials of Fecal Microbial Transplantation for ulcerative colitis, showing that phage communities are stable in health, dysbiotic in ulcerative colitis, modulated by antibiotics and by fecal transplants, with one Oscillospiraceae phage being associated with disease remission. [ABSTRACT FROM AUTHOR]

Published

2024

42. The Gut Microbiome in Sepsis: From Dysbiosis to Personalized Therapy.

Author

Piccioni, Andrea, Spagnuolo, Fabio, Candelli, Marcello, Voza, Antonio, Covino, Marcello, Gasbarrini, Antonio, and Franceschi, Francesco

Subjects

*INTESTINAL barrier function, *FATTY acid-binding proteins, *FECAL microbiota transplantation, *SEPTIC shock, *SHORT-chain fatty acids

Abstract

Sepsis is a complex clinical syndrome characterized by an uncontrolled inflammatory response to an infection that may result in septic shock and death. Recent research has revealed a crucial link between sepsis and alterations in the gut microbiota, showing that the microbiome could serve an essential function in its pathogenesis and prognosis. In sepsis, the gut microbiota undergoes significant dysbiosis, transitioning from a beneficial commensal flora to a predominance of pathobionts. This transformation can lead to a dysfunction of the intestinal barrier, compromising the host's immune response, which contributes to the severity of the disease. The gut microbiota is an intricate system of protozoa, fungi, bacteria, and viruses that are essential for maintaining immunity and metabolic balance. In sepsis, there is a reduction in microbial heterogeneity and a predominance of pathogenic bacteria, such as proteobacteria, which can exacerbate inflammation and negatively influence clinical outcomes. Microbial compounds, such as short-chain fatty acids (SCFAs), perform a crucial task in modulating the inflammatory response and maintaining intestinal barrier function. However, the role of other microbiota components, such as viruses and fungi, in sepsis remains unclear. Innovative therapeutic strategies aim to modulate the gut microbiota to improve the management of sepsis. These include selective digestive decontamination (SDD), probiotics, prebiotics, synbiotics, postbiotics, and fecal microbiota transplantation (FMT), all of which have shown potential, although variable, results. The future of sepsis management could benefit greatly from personalized treatment based on the microbiota. Rapid and easy-to-implement tests to assess microbiome profiles and metabolites associated with sepsis could revolutionize the disease's diagnosis and management. These approaches could not only improve patient prognosis but also reduce dependence on antibiotic therapies and promote more targeted and sustainable treatment strategies. Nevertheless, there is still limited clarity regarding the ideal composition of the microbiota, which should be further characterized in the near future. Similarly, the benefits of therapeutic approaches should be validated through additional studies. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Gut Microbiome Advances Precision Medicine and Diagnostics for Inflammatory Bowel Diseases.

Author

Mousa, Walaa K. and Al Ali, Aya

Subjects

*INFLAMMATORY bowel diseases, *GUT microbiome, *FECAL microbiota transplantation, *THERAPEUTICS, *NUCLEOTIDE sequencing, *INDIVIDUALIZED medicine

Abstract

The gut microbiome emerges as an integral component of precision medicine because of its signature variability among individuals and its plasticity, which enables personalized therapeutic interventions, especially when integrated with other multiomics data. This promise is further fueled by advances in next-generation sequencing and metabolomics, which allow in-depth high-precision profiling of microbiome communities, their genetic contents, and secreted chemistry. This knowledge has advanced our understanding of our microbial partners, their interaction with cellular targets, and their implication in human conditions such as inflammatory bowel disease (IBD). This explosion of microbiome data inspired the development of next-generation therapeutics for treating IBD that depend on manipulating the gut microbiome by diet modulation or using live products as therapeutics. The current landscape of artificial microbiome therapeutics is not limited to probiotics and fecal transplants but has expanded to include community consortia, engineered probiotics, and defined metabolites, bypassing several limitations that hindered rapid progress in this field such as safety and regulatory issues. More integrated research will reveal new therapeutic targets such as enzymes or receptors mediating interactions between microbiota-secreted molecules that drive or modulate diseases. With the shift toward precision medicine and the enhanced integration of host genetics and polymorphism in treatment regimes, the following key questions emerge: How can we effectively implement microbiomics to further personalize the treatment of diseases like IBD, leveraging proven and validated microbiome links? Can we modulate the microbiome to manage IBD by altering the host immune response? In this review, we discuss recent advances in understanding the mechanism underpinning the role of gut microbes in driving or preventing IBD. We highlight developed targeted approaches to reverse dysbiosis through precision editing of the microbiome. We analyze limitations and opportunities while defining the specific clinical niche for this innovative therapeutic modality for the treatment, prevention, and diagnosis of IBD and its potential implication in precision medicine. [ABSTRACT FROM AUTHOR]

Published

2024

44. The Role of Gut Microbiota Modification in Nonalcoholic Fatty Liver Disease Treatment Strategies.

Author

Yaghmaei, Hessam, Bahanesteh, Amirhossein, Soltanipur, Masood, Takaloo, Sobhan, Rezaei, Mahdi, Siadat, Seyed Davar, and Mircea-Catalin, Fortofoiu

Subjects

*NON-alcoholic fatty liver disease, *FECAL microbiota transplantation, *WEIGHT loss, *GUT microbiome, *THERAPEUTICS

Abstract

One of the most common chronic liver diseases is nonalcoholic fatty liver disease (NAFLD), which affects many people around the world. Gut microbiota (GM) dysbiosis seems to be an influential factor in the pathophysiology of NAFLD because changes in GM lead to fundamental changes in host metabolism. Therefore, the study of the effect of dysbiosis on the pathogenicity of NAFLD is important. European clinical guidelines state that the best advice for people with NAFLD is to lose weight and improve their lifestyle, but only 40% of people can achieve this goal. Accordingly, it is necessary to provide new treatment approaches for prevention and treatment. In addition to dietary interventions and lifestyle modifications, GM modification‐based therapies are of interest. These therapies include probiotics, synbiotics, fecal microbiota transplantation (FMT), and next‐generation probiotics. All of these treatments have had promising results in animal studies, and it can be imagined that acceptable results will be obtained in human studies as well. However, further investigations are required to generalize the outcomes of animal studies to humans. [ABSTRACT FROM AUTHOR]

Published

2024

45. Intestinal microbiome dysbiosis increases Mycobacteria pulmonary colonization in mice by regulating the Nos2-associated pathways.

Author

MeiQing Han, Xia Wang, Lin Su, Shiqi Pan, Ningning Liu, Duan Li, Liang Liu, JunWei Cui, Huajie Zhao, and Fan Yang

Subjects

*BACTERIAL colonies, *COLONIZATION (Ecology), *INTESTINAL barrier function, *GUT microbiome, *FECAL microbiota transplantation, *MYCOBACTERIUM tuberculosis

Abstract

Increasing researches reveal gut microbiota was associated with the development of tuberculosis (TB). How to prevent or reduce Mycobacterium tuberculosis colonization in the lungs is a key measure to prevent TB. However, the data on gut microbiota preventing Mycobacterium colonization in the lungs were scarce. Here, we established the clindamycin-inducing intestinal microbiome dysbiosis and fecal microbial transplantation models in mice to identify gut microbiota's effect on Mycobacterium's colonization in the mouse lungs and explore its potential mechanisms. The results showed that clindamycin treatment altered the diversity and composition of the intestinal bacterial and fungal microbiome, weakened the trans-kingdom network interactions between bacteria and fungi, and induced gut microbiome dysbiosis in the mice. Gut microbiota dysbiosis increases intestinal permeability and enhances the susceptibility of Mycobacterium colonization in the lungs of mice. The potential mechanisms were gut microbiota dysbiosis altered the lung transcriptome and increased Nos2 expression through the 'gut-lung axis'. Nos2 high expression disrupts the intracellular antimicrobial and anti-inflammatory environment by increasing the concentration of nitric oxide, decreasing the levels of reactive oxygen species and Defb1 in the cells, and promoting Mycobacteria colonization in the lungs of mice. The present study raises a potential strategy for reducing the risks of Mycobacteria infections and transmission by regulating the gut microbiome balance. [ABSTRACT FROM AUTHOR]

Published

2024

46. Unveiling the overlooked fungi: the vital of gut fungi in inflammatory bowel disease and colorectal cancer.

Author

Huang, Yilin, Wang, Yang, Huang, Xiaotian, and Yu, Xiaomin

Subjects

*INFLAMMATORY bowel diseases, *FECAL microbiota transplantation, *INTESTINAL diseases, *HUMAN microbiota, *COLORECTAL cancer

Abstract

The fungi of the human microbiota play important roles in the nutritional metabolism and immunological balance of the host. Recently, research has increasingly emphasised the role of fungi in modulating inflammation in intestinal diseases and maintaining health in this environment. It is therefore necessary to understand more clearly the interactions and mechanisms of the microbiota/pathogen/host relationship and the resulting inflammatory processes, as well as to offer new insights into the prevention, diagnosis and treatment of inflammatory bowel disease (IBD), colorectal cancer (CRC) and other intestinal pathologies. In this review, we comprehensively elucidate the fungal-associated pathogenic mechanisms of intestinal inflammation in IBD and related CRC, with an emphasis on three main aspects: the direct effects of fungi and their metabolites on the host, the indirect effects mediated by interactions with other intestinal microorganisms and the immune regulation of the host. Understanding these mechanisms will enable the development of innovative approaches based on the use of fungi from the resident human microbiota such as dietary interventions, fungal probiotics and faecal microbiota transplantation in the prevention, diagnosis and treatment of intestinal diseases. [ABSTRACT FROM AUTHOR]

Published

2024

47. Probiotics as adjuvants to mitigate adverse reactions and enhance effectiveness in Food Allergy Immunotherapy.

Author

Lamminpää, Ingrid, Niccolai, Elena, and Amedei, Amedeo

Subjects

*FECAL microbiota transplantation, *ALLERGY desensitization, *REGULATORY T cells, *FOOD allergy, *SUBLINGUAL immunotherapy

Abstract

In the past decades, food allergies became increasingly dominant since early childhood, leading to a lower quality of life and to increasing costs addressed by the health care system. Beside standard avoidance of specific allergens and drug treatments following allergen exposure, a great deal of research has lately focused on Food Allergy Allergen Immunotherapy (FA‐AIT). SCIT and EPIT (Subcutaneous and Epicutaneous Immunotherapy), OIT (Oral Immunotherapy), and SLIT (Sublingual Immunotherapy) consist in gradual exposure to allergens to desensitize and achieve tolerance once therapy has ended. Although promising, FA‐AIT may bring acute local and systemic adverse reactions. To enhance efficacy, safety and convenience of AIT, the quest of potential adjuvants to mitigate the adverse reactions becomes crucial. Immunomodulatory activities, such as that of increasing the regulatory T cells and decreasing the IgE, have been observed in specific probiotics' strains and multiple studies elucidated the role of gut microbiota as a major interplayer among the host and its immune system. In this review, the microbiome modulation is shown as potential AIT adjuvant, nevertheless the need of more clinical studies in the near future is pivotal to assess the efficacy of targeted bacterial therapies and faecal microbiota transplantation. [ABSTRACT FROM AUTHOR]

Published

2024

48. Kui‐Jie‐Ling capsule inhibits ulcerative colitis by modulating inflammation and gut microbiota.

Author

Li, Kun, Guo, Lengqiu, Yu, Jinghua, Yang, Yun, Wei, Lan, Min, Chunyan, Xu, Xinkang, Li, Fang, Liu, Jiangyun, Zhou, Guangquan, and Zhang, Jian

Subjects

*FECAL microbiota transplantation, *ULCERATIVE colitis, *SUBCUTANEOUS injections, *GUT microbiome, *ANIMAL experimentation, *OSTEOCLASTS, *ADALIMUMAB

Abstract

Background and Aim Methods Results Conclusion Kui‐Jie‐Ling capsule (Kui‐Jie‐Ling) is a hospital preparation for ulcerative colitis (UC) in China. This study aimed at evaluating the protective effects and mechanisms of Kui‐Jie‐Ling and Kui‐Jie‐Ling combined with adalimumab on UC induced by dextran sulfate sodium (DSS).Network pharmacology was combined with an animal experiment to reveal the targets of Kui‐Jie‐Ling alleviating UC. The UC model was established by drinking 2.5% DSS solution for 7 days. On the second day, the mice in the Kui‐Jie‐Ling group were orally administered with Kui‐Jie‐Ling (1.5 and 3.0 g/kg) daily for seven consecutive days, and the mice in the combination group were orally administered with Kui‐Jie‐Ling (3.0 g/kg) once a day for seven consecutive days and received one subcutaneous injection of adalimumab. The disease activity index, the colon length, the spleen index, the cytokines, the colon, the short‐chain fatty acid content, and the gut microbiota in the colon were analyzed. The role of gut microbiota against UC was verified by fecal microbiota transplantation experiments.The animal study's results were consistent with the network pharmacology analysis, which reflected that Kui‐Jie‐Ling alleviated UC via multi‐pathway. Kui‐Jie‐Ling ameliorated UC by inhibiting the formation of neutrophil extracellular traps (NETs), regulating inflammatory factors through the lipopolysaccharide–toll‐like receptor 4/nuclear factor kappa B and interleukin‐23–Janus kinase 2/signal transducer and activator of transcription 3 signaling pathway, and restoring intestinal homeostasis.These studies provided the experimental basis for the clinical administration of Kui‐Jie‐Ling and Kui‐Jie‐Ling combined with adalimumab against UC. [ABSTRACT FROM AUTHOR]

Published

2024

49. Fusobacterium nucleatum facilitates anti-PD-1 therapy in microsatellite stable colorectal cancer.

Author

Wang, Xueliang, Fang, Yi, Liang, Wei, Wong, Chi Chun, Qin, Huanlong, Gao, Yaohui, Liang, Meinong, Song, Lei, Zhang, Yongxin, Fan, Miao, Liu, Chuanfa, Lau, Harry Cheuk-Hay, Xu, Lixia, Li, Xiaoxing, Song, Wu, Wang, Junlin, Wang, Na, Yang, Tao, Mo, Mengmiao, and Zhang, Xiang

Subjects

*T-cell exhaustion, *FECAL microbiota transplantation, *BUTYRIC acid, *COLORECTAL cancer, *HISTONE deacetylase

Abstract

Microsatellite stable (MSS) colorectal cancers (CRCs) are often resistant to anti-programmed death-1 (PD-1) therapy. Here, we show that a CRC pathogen, Fusobacterium nucleatum (Fn), paradoxically sensitizes MSS CRC to anti-PD-1. Fecal microbiota transplantation (FMT) from patients with Fn -high MSS CRC to germ-free mice bearing MSS CRC confers sensitivity to anti-PD-1 compared to FMT from Fn -low counterparts. Single Fn administration also potentiates anti-PD-1 efficacy in murine allografts and CD34+-humanized mice bearing MSS CRC. Mechanistically, we demonstrate that intratumoral Fn generates abundant butyric acid, which inhibits histone deacetylase (HDAC) 3/8 in CD8+ T cells, inducing Tbx21 promoter H3K27 acetylation and expression. TBX21 transcriptionally represses PD-1, alleviating CD8+ T cell exhaustion and promoting effector function. Supporting this notion, knockout of a butyric acid-producing gene in Fn abolishes its anti-PD-1 boosting effect. In patients with MSS CRC, high intratumoral Fn predicts favorable response to anti-PD-1 therapy, indicating Fn as a potential biomarker of immunotherapy response in MSS CRC. [Display omitted] • Fn boosts anti-PD-1 efficacy in microsatellite stable colorectal cancer (MSS CRC) • Fn represses PD-1 expression on CD8+ TILs and reactivates their effector functions • Fn -derived butyric acid down-regulates PD-1 on CD8+ TILs via a HDAC3/8-TBX21 axis • High intratumoral Fn abundance correlates with favorable response in MSS CRC Wang et al. report that colorectal cancer (CRC)-promoting gut pathogen Fusobacterium nucleatum paradoxically sensitizes microsatellite stable colorectal cancer (MSS CRC) to anti-PD-1 in experimental models and predicts favorable response to anti-PD-1 in patients with MSS CRC. Mechanistically, F. nucleatum- derived butyric acid relieves CD8+ TIL exhaustion by repressing PD-1 via a HDAC3/8-TBX21 axis. [ABSTRACT FROM AUTHOR]

Published

2024

50. Significance of the Gut-Brain Axis in the Development of Overweight and Obesity.

Author

Kuśmierska, Martyna, Kuśmierski, Jakub, Janik, Izabela, Martyka, Anna, and Ujma, Przemysław

Subjects

WESTERN diet, FECAL microbiota transplantation, OBESITY, MICROBIAL metabolites, INSULIN sensitivity, METABOLIC disorders

Abstract

Introduction: The global obesity crisis results from inactive lifestyles and poor diets, increasing the risk of metabolic disorders. Emerging research links obesity with gut microbiome changes influenced by factors like age, genetics, and diet. Gut-brain communication via neural, endocrine, and inflammatory pathways, influenced by microbial compounds, affects nervous system function. Materials and Methods of Research: A thorough literature review was performed using PubMed and Google Scholar, employing keywords related to the gut-brain axis and obesity. Results: Obesity shifts gut microbiota composition due to factors like childbirth method, diet, antibiotics, and environment. This imbalance impacts metabolism, appetite, and insulin sensitivity. Gut microbes influence the brain, regulating energy balance and inflammation. Dysregulated tryptophan metabolism leads to insulin resistance. Gut-brain communication via the vagal nerve affects nutrient metabolism. Hormones like insulin and leptin, along with microbial metabolites, affect lipid metabolism and appetite. Gut microbiota abundance correlates with leptin signaling, and changes in ghrelin levels relate to microbiota composition. Microbial presence affects food cravings. Inflammation in obesity is linked to gut microbiota changes, mediated by bile acids and microbial metabolites. Interventions like probiotics and fecal microbiota transplantation offer potential for managing obesity. Emerging therapies like peptide D3 hold promise but require further study. Conclusion: The microbiome-gut-brain axis is vital in obesity, affecting metabolism, inflammation, and appetite. Utilizing interventions such as dietary adjustments and probiotics targeting gut-brain signaling shows promise in managing obesity. Personalized approaches are crucial due to microbiome complexity. Further research is needed to develop effective therapies for the obesity epidemic. [ABSTRACT FROM AUTHOR]

Published

2024