OBJECTIVE: Microbiota transplant therapy is an emerging treatment for ulcerative colitis. One proposed mechanism for the benefit of microbiota transplant therapy is through engraftment of donor microbiota. However, the kinetics of engraftment are unknown. We identified SourceTracker as an efficient method both to determine engraftment and for the kinetic study of engrafting donor taxa to aid in determining the mechanism of how this therapy may treat ulcerative colitis.
METHODS: Ulcerative colitis patients were treated with either encapsulated (drug name MTP-101C) or placebo capsules daily for eight weeks followed by a four-week washout period. Amplicon sequence data from donors and patients were analyzed using the Bayesian algorithm SourceTracker.
RESULTS: Twenty-seven patients were enrolled, 14 to the placebo group and 13 to the microbiota transplant therapy group. Baseline Shannon and Chao1 indices negatively correlated with week 12 donor engraftment for patients treated with active drug capsules but not for placebo patients. SourceTracker engraftment positively correlated with the week 12 distance from donors measured using the Bray-Curtis similarity metric in treated patients but not with placebo. We identified engrafting taxa from donors in our patients as well as quantified the proportion of donor similarity or engraftment during weeks one through eight (active treatment) and week 12, four weeks after the last dose.
CONCLUSIONS: SourceTracker can be used as a simple and reliable method to quantify donor microbial community engraftment and donor taxa contribution in patients with ulcerative colitis and other inflammatory conditions treated with microbiota transplant therapy.

Clostridioides difficile is the main causative agent of antibiotic-associated diarrhea (AAD) in hospitals in the developed world. Both infected patients and asymptomatic colonized individuals represent important transmission sources of C. difficile. C. difficile infection (CDI) shows a large range of symptoms, from mild diarrhea to severe manifestations such as pseudomembranous colitis. Epidemiological changes in CDIs have been observed in the last two decades, with the emergence of highly virulent types and more numerous and severe CDI cases in the community. C. difficile interacts with the gut microbiota throughout its entire life cycle, and the C. difficile\'s role as colonizer or invader largely depends on alterations in the gut microbiota, which C. difficile itself can promote and maintain. The restoration of the gut microbiota to a healthy state is considered potentially effective for the prevention and treatment of CDI. Besides a fecal microbiota transplantation (FMT), many other approaches to re-establishing intestinal eubiosis are currently under investigation. This review aims to explore current data on C. difficile and gut microbiota changes in colonized individuals and infected patients with a consideration of the recent emergence of highly virulent C. difficile types, with an overview of the microbial interventions used to restore the human gut microbiota.

OBJECTIVE: This study is to investigate the role of gut microbiota transmission in the development of anxiety/depression in offspring exposed to maternal depression.
METHODS: Offspring rats were cohabitated with their depressed mother or father rats (which exposed to chronic unpredictable mild stress (CUMS)) for 2, 4, and 6 months, the anxiety- and depression-like behaviors, and interaction/caring activities between mother/father and their pups were detected. The gut microbiota composition and its relationship with behaviors were analyzed. Fecal microbiota transplantation (FMT) was performed to establish the gut microbiota of depressed/normal mother rats in the offspring rats to further confirm the role of \"depressive gut microbiota\" transmission in mediating the anxiety/depression in the pups.
RESULTS: Anxiety and depression phenotypes can be transmitted from depressed mother rats to their cohabited offspring. Frequent interactions and gut microbiota assimilation were observed between rat mothers and their pups. Remodeling of the gut microbiota in pups by FMT could induce or attenuate anxiety- and depression-like phenotypes depending on the origin of the fecal microbiota. By comparison, the pups cohabiting with depressed father rats exhibited milder anxiety and depression.
CONCLUSIONS: These data together support that depressed mothers can transmit anxiety/depression to their pups through gut microbiota assimilation, which is related to frequent interactions. Our study reinforces the significance of mental health of mothers in preventing the occurrence of childhood anxiety and depression, and pointing out the possibility of remodeling intestinal microbiota as an effective therapeutic approach for treating anxiety/depression in children.

The intricate ecosystem of microorganisms residing within and on the human body, collectively known as the microbiome, significantly influences human health. Imbalances in this microbiome, referred to as dysbiosis, have been associated with various diseases, prompting the exploration of novel therapeutic approaches. Personalized medicine, Tailors treatments to individual patient characteristics, offers a promising avenue for addressing microbiome-related health issues. This review highlights recent developments in utilizing personalized medicine to target the microbiome, aiming to enhance health outcomes. Noteworthy strategies include fecal microbiota transplantation (FMT), where healthy donor microbes are transferred to patients, showing promise in treating conditions such as recurrent Clostridium difficile infection. Additionally, probiotics, which are live microorganisms similar to beneficial gut inhabitants, and prebiotics, non-digestible compounds promoting microbial growth, are emerging as tools to restore microbiome balance. The integration of these approaches, known as synbiotics, enhances microbial colonization and therapeutic effects. Advances in metagenomics and sequencing technologies provide the means to understand individual microbiome profiles, enabling tailored interventions. This paper aims to present the latest insights in leveraging personalized medicine to address microbiome-related health concerns, envisioning a future where microbiome-based therapies reshape disease management and promote human health.

Preparing fecal microbiota transplants immediately after donation is resource-intensive, and a proportion are destroyed following abnormal screening results. We retrospectively compared two processes, frozen fecal preparation (FFP) and fresh native frozen preparation (FNFP), for clinical efficacy in the treatment of recurrent Clostridioides difficile infection (rCDI). FFP and FNFP were similarly effective with clinical success rates of 76.7% and 86.7% (P = 0.32), respectively. FNFP is an efficient procedure that saves resources while maintaining clinical efficacy in rCDI.

Fecal Microbiota Transplantation (FMT) has emerged as a potential modality for mitigating microbiome-associated diseases. Despite this potential, the precise causal pathways by which specific gut microbiota strains induce remission remain inadequately elucidated. In this study, we aimed to discern the impact of engraftment of donor-infused strains on alterations in plasma metabolites, subsequently contributing to the amelioration of clinical parameters involved in subjects with metabolic syndrome (MetSyn) receiving an FMT. We observed that a higher fraction of donor strains engrafted in the recipient is correlated to a reduction in diastolic blood pressure and found specific strain associations through canonical correlation analysis. Integrating the metabolomics profile shows that engraftment of Collinsella aerofaciens and Fusocatenibacter saccharovorans was related to a reduction in 2-oxoarginine in plasma, which was subsequently correlated to a reduction in diastolic blood pressure. In conclusion, we applied a novel framework to elucidate on the complex and heterogenous FMT intervention, establishing a connection between engrafted microbiota and clinical outcome parameters. Our findings underscore the potential therapeutic efficacy of FMT in ameliorating MetSyn, demonstrating a potential contribution of microbial strain engraftment to the improvement of MetSyn via modulation of circulating metabolites.

UNASSIGNED: Pouchitis is the most common long-term complication after ileal-pouch anal anastomosis in patients with ulcerative colitis. We conducted a systematic review and meta-analysis evaluating the safety and efficacy of fecal microbiota transplant (FMT) in chronic antibiotic dependent and refractory pouchitis.
UNASSIGNED: Multiple databases were searched through April 2022 for studies that reported the efficacy and safety of FMT in patients with chronic pouchitis. Meta-analysis using random effects model was performed to calculate pooled rates.
UNASSIGNED: Eight studies with a total of 89 patients were included in our review, with 74 patients having received FMT and 15 patients having received placebo. The mean age ranged from 32.6 to 51.5 years. In patients that received FMT, the pooled rates of overall remission was (Pouchitis Disease Activity Index score < 7) 22% (95% CI, 9%-43%; I2, 29%), clinical remission was 20% (95% CI, 6%-49%; I2, 25%), clinical response rate was 42% (95% CI, 30%-54%; I2, 7%), and the relapse rate 60% (95% CI, 40%-77%, I2 16%) over the mean follow up of 4.67 months (range 1-12 months). The pooled proportion of patients with adverse events was 54% (95% CI, 21%-84%; I2, 73%). There were no serious adverse events or deaths.
UNASSIGNED: In patients with chronic pouchitis, FMT is safe though there are mixed results in terms of its long-term efficacy. Future Randomized Controlled Trials with larger sample sizes and greater standardization in terms of preparation, delivery, and length of treatment of FMT are needed to determine efficacy.

Recent research indicates that the microbiome has a significant impact on the progression of inflammatory bowel disease (IBD) and that creating therapies that change its composition could positively impact the outcomes of IBD treatment. This review summarizes the results of extensive studies that examined IBD patients undergoing several therapies, including anti-TNF medication, vedolizumab, ustekinumab, probiotics, and fecal microbiota transplantation (FMT), and the alterations in their gut microbiota\'s composition and function. The objective was to investigate the variety and effectiveness of microbial species in order to discover new biomarkers or therapeutic targets that could improve the outcome of treatment for these patients. This research aimed to offer useful insights into personalized medicine techniques for managing IBD. Beneficial bacteria such as Faecalibacterium prausnitzii and Roseburia have been consistently linked to favorable clinical outcomes, whereas pathogenic bacteria such as Escherichia coli and Clostridioides difficile are associated with worsening disease conditions. Although many studies have examined the role of gut microbiota in IBD, there is still a need for more targeted research on the connection between specific microbial communities and treatment outcomes. This study sought to address this gap by exploring the intricate relationship between the gut microbiota composition and the effectiveness of IBD medications.

OBJECTIVE: Dogs with acute hemorrhagic diarrhea syndrome (AHDS) present with similar clinical signs and histopathological findings as dogs with parvovirosis, in which fecal microbiota transplantation (FMT) has led to a significantly faster resolution of diarrhea and shorter hospitalization times. We investigated whether FMT results in faster clinical improvement and normalization of the intestinal microbiome compared to standard treatment.
METHODS: 32 client-owned dogs with AHDS.
METHODS: A prospective, double-anonymized clinical trial included 3 groups: symptomatic treatment (n = 12), FMT treatment (FMTT; 12), and antibiotic treatment (AT; 8). Clinical improvement was determined on the basis of AHDS index, changes in the microbiome based on the dysbiosis index, and PCR results for clostridial strains.
UNASSIGNED: Overall, no significant differences in clinical scores between the treatment groups over time were detected except on day 2 (higher AHDS index in the AT group compared to FMTT group; P = .046). The dysbiosis index increased and P hiranonis decreased on day 1 in some dogs, but these changes were transient in the symptomatic treatment and FMTT groups. In the AT group, the dysbiosis index was persistently elevated and 4 of 8 dogs showed a reduced abundance of P hiranonis on day 42. In 67% of the dogs on day 1, NetF-encoding Clostridium perfringens was detected and enterotoxin-encoding strains increased, but these changes were transient in all dogs, regardless of therapy.
CONCLUSIONS: Overall, in dogs with AHDS, neither FMT nor AT resulted in faster clinical improvement. In addition, C perfringens strains are self-limiting and do not require antibiotic therapy.

BACKGROUND: Silicosis is an irreversible fibrotic disease of the lung caused by chronic exposure to silica dust, which manifests as infiltration of inflammatory cells, excessive secretion of pro-inflammatory cytokines, and pulmonary diffuse fibrosis. As the disease progresses, lung function further deteriorates, leading to poorer quality of life of patients. Currently, few effective drugs are available for the treatment of silicosis. Bicyclol (BIC) is a compound widely employed to treat chronic viral hepatitis and drug-induced liver injury. While recent studies have demonstrated anti-fibrosis effects of BIC on multiple organs, including liver, lung, and kidney, its therapeutic benefit against silicosis remains unclear. In this study, we established a rat model of silicosis, with the aim of evaluating the potential therapeutic effects of BIC.
METHODS: We constructed a silicotic rat model and administered BIC after injury. The FlexiVent instrument with a forced oscillation system was used to detect the pulmonary function of rats. HE and Masson staining were used to assess the effect of BIC on silica-induced rats. Macrophages-inflammatory model of RAW264.7 cells, fibroblast-myofibroblast transition (FMT) model of NIH-3T3 cells, and epithelial-mesenchymal transition (EMT) model of TC-1 cells were established in vitro. And the levels of inflammatory mediators and fibrosis-related proteins were evaluated in vivo and in vitro after BIC treatment by Western Blot analysis, RT-PCR, ELISA, and flow cytometry experiments.
RESULTS: BIC significantly improved static compliance of lung and expiratory and inspiratory capacity of silica-induced rats. Moreover, BIC reduced number of inflammatory cells and cytokines as well as collagen deposition in lungs, leading to delayed fibrosis progression in the silicosis rat model. Further exploration of the underlying molecular mechanisms revealed that BIC suppressed the activation, polarization, and apoptosis of RAW264.7 macrophages induced by SiO2. Additionally, BIC inhibited SiO2-mediated secretion of the inflammatory cytokines IL-1β, IL-6, TNF-α, and TGF-β1 in macrophages. BIC inhibited FMT of NIH-3T3 as well as EMT of TC-1 in the in vitro silicosis model, resulting in reduced proliferation and migration capability of NIH-3T3 cells. Further investigation of the cytokines secreted by macrophages revealed suppression of both FMT and EMT by BIC through targeting of TGF-β1. Notably, BIC blocked the activation of JAK2/STAT3 in NIH-3T3 cells required for FMT while preventing both phosphorylation and nuclear translocation of SMAD2/3 in TC-1 cells necessary for the EMT process.
CONCLUSIONS: The collective data suggest that BIC prevents both FMT and EMT processes, in turn, reducing aberrant collagen deposition. Our findings demonstrate for the first time that BIC ameliorates inflammatory cytokine secretion, in particular, TGF-β1, and consequently inhibits FMT and EMT via TGF-β1 canonical and non-canonical pathways, ultimately resulting in reduction of aberrant collagen deposition and slower progression of silicosis, supporting its potential as a novel therapeutic agent.