Dysbiosis Of Gut Microbiota In Patients Research Articles

Gut microbiota dysbiosis-related susceptibility to nontuberculous mycobacterial lung disease

ABSTRACT The role of gut microbiota in host defense against nontuberculous mycobacterial lung disease (NTM-LD) was poorly understood. Here, we showed significant gut microbiota dysbiosis in patients with NTM-LD. Reduced abundance of Prevotella copri was significantly associated with NTM-LD and its disease severity. Compromised TLR2 activation activity in feces and plasma in the NTM-LD patients was highlighted. In the antibiotics-treated mice as a study model, gut microbiota dysbiosis with reduction of TLR2 activation activity in feces, sera, and lung tissue occurred. Transcriptomic analysis demonstrated immunocompromised in lung which were closely associated with increased NTM-LD susceptibility. Oral administration of P. copri or its capsular polysaccharides enhanced TLR2 signaling, restored immune response, and ameliorated NTM-LD susceptibility. Our data highlighted the association of gut microbiota dysbiosis, systematically compromised immunity and NTM-LD development. TLR2 activation by P. copri or its capsular polysaccharides might help prevent NTM-LD.

Liver Bacterial Colonization in Patients with Obesity and Gut Dysbiosis.

Recently, the link between gut microbiota, liver inflammation, and obesity has become an interesting focus of research. The aim of this study is to show the possible relation between gut microbiota dysbiosis in patients with obesity and the presence of bacterial genomes in their liver biopsies. A prospective study on patients undergoing bariatric surgery was carried out. Anthropometric and metabolic data, comorbidities, stool samples, and hepatic biopsies were collected and analyzed at the time of surgery. The V3-16S rRNA region was sequenced using the Ion Torrent new-generation sequencing platform. In each of the 23 patients enrolled, the bacterial population was analyzed both in the stools and liver. In eight patients (34.7%), Prevotella (62.5%), Bacteroides (50%), Streptococcus (12.5%), and Dalister (12.5%) were found in both samples, simultaneously; in 15 cases, the liver was free from colonization. The statistically significant difference between groups was a Roseburia intestinalis reduction in fecal samples of patients with liver biopsies colonized by bacteria (1% vs 3%; p = 0.0339). To the best of our knowledge, this is the first study reporting the presence of bacterial genome in a liver biopsy on bariatric patients, instead of the microbe-associated molecular patterns. Notably, in literature, the presence of Roseburia intestinalis in stool samples has been shown to prevent intestinal inflammation playing its role in the gut barrier integrity. In our population, the Roseburia reduction was associated with the presence of bacterial genome in the liver, probably related to a greater permeability of the gut and vascular barriers.

Probiotics and rifaximin for the prevention of travelers' diarrhea: A systematic review and network meta-analysis.

Background:Probiotics and rifaximin are treatments for gut microbiota dysbiosis in patients with traveler’s diarrhea (TD), and they both proved beneficial for the prevention of TD. However, comparative effectiveness research between them has not been performed. A systematic review and network meta-analysis are to be performed to clarify which of them is more effective in the prevention of TD.Methods:Literature concerning the effectiveness of probiotics or rifaximin in the prevention of TD was searched in Medline, Embase, the Cochrane Central Register of Controlled Trials, and clinical registries for randomized controlled trials (RCTs) from inception of these databases to November 30, 2021 without any language restrictions. The primary efficacy outcome was the incidence of TD, and the safety outcome was the incidence of adverse events. The effect size of probiotics was measured by using relative ratio (RR), and the network meta-analysis was performed by using a frequentist approach and a random-effect model.Results:Totally 17 RCTs after screening 1119 retrieved records were included in analysis and 9 RCTs were with low risk of bias. Compared with placebo, both probiotics and rifaximin were associated with lower incidence of TD (probiotics, RR 0.85, 95% CI 0.76–0.95; rifaximin, RR 0.47, 95% CI 0.35–0.63), and rifaximin was more effective than probiotics (RR 0.56, 95% CI 0.4–0.78). Further analysis showed that sodium butyrate, rifaximin and L. acidophilus + L. bulgaricus + Bifido.bifidum + Strept. Thermophilus were the three most effective treatments for TD.Conclusions:Both rifaximin and probiotics are superior over placebo, and rifaximin has better treatment effect than probiotics in reducing the incidence of TD. Different types of probiotics have heterogeneous treatment effects.

Altered Gut Microbiota in Patients With Peutz-Jeghers Syndrome.

BackgroundPeutz–Jeghers syndrome (PJS) is a rare genetic disorder characterized by the development of pigmented spots and gastrointestinal polyps and increased susceptibility to cancers. It remains unknown whether gut microbiota dysbiosis is linked to PJS.AimThis study aimed to assess the structure and composition of the gut microbiota, including both bacteria and fungi, in patients with PJS and investigate the relationship between gut microbiota dysbiosis and PJS pathogenesis.MethodsThe bacterial and fungal composition of the fecal microbiota was analyzed in 23 patients with PJS (cases), 17 first-degree asymptomatic relatives (ARs), and 24 healthy controls (HCs) using 16S (MiSeq) and ITS2 (pyrosequencing) sequencing for bacteria and fungi, respectively. Differential analyses of the intestinal flora were performed from the phylum to species level.ResultsAlpha-diversity distributions of bacteria and fungi indicated that the abundance of both taxa differed between PJS cases and controls. However, while the diversity and composition of fecal bacteria in PJS cases were significantly different from those in ARs and HCs, fungal flora was more stable. High-throughput sequencing confirmed the special characteristics and biodiversity of the fecal bacterial and fungal microflora in patients with PJS. They had lower bacterial biodiversity than controls, with a higher frequency of the Proteobacteria phylum, Enterobacteriaceae family, and Escherichia-Shigella genus, and a lower frequency of the Firmicutes phylum and the Lachnospiraceae and Ruminococcaceae families. Of fungi, Candida was significantly higher in PJS cases than in controls.ConclusionThe findings reported here confirm gut microbiota dysbiosis in patients with PJS. This is the first report on the bacterial and fungal microbiota profile of subjects with PJS, which may be meaningful to provide a structural basis for further research on intestinal microecology in PJS.

Current and Future Approaches for Diagnosing Small Intestinal Dysbiosis in Patients With Symptoms of Functional Dyspepsia.

The development and application of next generation sequencing technologies for clinical gastroenterology research has provided evidence that microbial dysbiosis is of relevance for the pathogenesis of gastrointestinal and extra-intestinal diseases. Microbial dysbiosis is characterized as alterations of diversity, function, and density of the intestinal microbes. Emerging evidence suggests that alterations of the gastrointestinal microbiome are important for the pathophysiology of a variety of functional gastrointestinal conditions, e.g., irritable bowel syndrome (IBS) and functional dyspepsia (FD), also known as disorders of brain-gut axis interaction. Clinicians have for many years recognized that small intestinal bacterial overgrowth (SIBO) is typified by a microbial dysbiosis that is underpinned by abnormal bacterial loads in these sites. SIBO presents with symptoms which overlap with symptoms of FD and IBS, point toward the possibility that SIBO is either the cause or the consequence of functional gastrointestinal disorders (FGIDs). More recently, new terms including “intestinal methanogen overgrowth” and “small intestinal fungal overgrowth” have been introduced to emphasize the contribution of methane production by archea and fungi in small intestinal dysbiosis. There is emerging data that targeted antimicrobial treatment of SIBO in patients with FD who simultaneously may or may not have IBS, results in symptom improvement and normalization of positive breath tests. However, the association between SIBO and FGIDs remains controversial, since widely accepted diagnostic tests for SIBO are lacking. Culture of jejunal fluid aspirate has been proposed as the “traditional gold standard” for establishing the diagnosis of SIBO. Utilizing jejunal fluid culture, the results can potentially be affected by cross contamination from oropharyngeal and luminal microbes, and there is controversy regarding the best cut off values for SIBO diagnosis. Thus, it is rarely used in routine clinical settings. These limitations have led to the development of breath tests, which when compared with the “traditional gold standard,” have sub-optimal sensitivity and specificity for SIBO diagnosis. With newer diagnostic approaches–based upon applications of the molecular techniques there is an opportunity to characterize the duodenal and colonic mucosa associated microbiome and associated gut microbiota dysbiosis in patients with various gastrointestinal and extraintestinal diseases. Furthermore, the role of confounders like psychological co-morbidities, medications, dietary practices, and environmental factors on the gastrointestinal microbiome in health and disease also needs to be explored.

Gut Microbiota Dysbiosis in Patients with Intracranial Sino-Venous Thrombosis and Acute Ischemic Stroke in the Young.

Gut Microbiota Dysbiosis in Patients with Intracranial Sino-Venous Thrombosis and Acute Ischemic Stroke in the Young.

What Links an Increased Cardiovascular Risk and Inflammatory Bowel Disease? A Narrative Review.

Several studies have shown increased rates of cardiovascular disease (CVD) in patients suffering from inflammatory bowel disease (IBD), particularly in cases of early atherosclerosis and myocardial infarction. IBD most frequently begins at an early age, patients usually present normal weight and remain under constant care of a physician, as well as of a nutritionist. Therefore, the classical risk factors of CVD are not reflected in the higher prevalence of CVD in the IBD population. Still, both groups are characterised by chronic inflammation and display similar physiopathological mechanisms. In the course of IBD, increased concentrations of pro-inflammatory cytokines, such as C-reactive protein (CRP) and homocysteine, may lead to endothelial dysfunctions and the development of CVD. Furthermore, gut microbiota dysbiosis in patients with IBD also constitutes a risk factor for an increased susceptibility to cardiovascular disease and atherosclerosis. Additionally, diet is an essential factor affecting both positively and negatively the course of the aforementioned diseases, whereas several dietary patterns may also influence the association between IBD and CVD. Thus, it is essential to investigate the factors responsible for the increased cardiovascular (CV) risk in this group of patients. Our paper attempts to review the role of potential inflammatory and nutritional factors, as well as intestinal dysbiosis and pharmacotherapy, in the increased risk of CVD in IBD patients.

Roles and Mechanisms of Gut Microbiota in Patients With Alzheimer's Disease.

Alzheimer’s disease (AD) is the most common age-related progressive neurodegenerative disease, characterized by a decline in cognitive function and neuronal loss, and is caused by several factors. Numerous clinical and experimental studies have suggested the involvement of gut microbiota dysbiosis in patients with AD. The altered gut microbiota can influence brain function and behavior through the microbiota–gut–brain axis via various pathways such as increased amyloid-β deposits and tau phosphorylation, neuroinflammation, metabolic dysfunctions, and chronic oxidative stress. With no current effective therapy to cure AD, gut microbiota modulation may be a promising therapeutic option to prevent or delay the onset of AD or counteract its progression. Our present review summarizes the alterations in the gut microbiota in patients with AD, the pathogenetic roles and mechanisms of gut microbiota in AD, and gut microbiota–targeted therapies for AD. Understanding the roles and mechanisms between gut microbiota and AD will help decipher the pathogenesis of AD from novel perspectives and shed light on novel therapeutic strategies for AD.

Dysbioza mikrobiomu jelitowego w anoreksji psychicznej

Streszczenie Anoreksja psychiczna (AN), zwana również jadłowstrętem psychicznym, to zaburzenie odżywiania, charakteryzujące się poważnym niedożywieniem, intensywnym strachem przed zwiększeniem masy ciała oraz zaburzonym obrazem własnego ciała. Choroba jest zależna od czynników biologicznych, psychologicznych i społeczno-kulturowych. Spośród różnych czynników biologicznych związanych z tym zaburzeniem, dużą uwagę przywiązuje się ostatnio do znaczenia mikrobioty jelit. Wyniki obserwacji dotyczących dysbiozy mikrobioty jelitowej u osób z anoreksją otworzyły nowe i obiecujące kierunki badań. Najnowsze obserwacje dotyczą zwłaszcza powiązania mikroorganizmów jelitowych z występowaniem funkcjonalnych zaburzeń żołądkowo-jelitowych związanych z anoreksją, z zaburzeniami lękowymi i depresyjnymi, a także z regulacją zachowań żywieniowych. Skład mikrobioty jelitowej różni się między pacjentami ze stwierdzoną anoreksją i osobami o prawidłowej masie ciała. Wynika to ze stosowania nieprawidłowej diety przez chorych, ale rośnie też zainteresowanie rolą mikrobioty jelit w patogenezie jadłowstrętu psychicznego, jej zmianami przez praktyki ponownego odżywiania, a zwłaszcza modulację składu mikrobiologicznego jelit za pomocą interwencji żywieniowych lub stosowania pre- i probiotyków jako środków wspomagających standardową terapię zaburzeń odżywiania. Następstwa zmiany sposobu żywienia w ramach leczenia AN są nieznane, co zwiększa potrzebę dalszych badań oraz pogłębiania wiedzy o osi mikrobiom-jelito-mózg. Jednak lepsza znajomość relacji mikrobiom jelit–mózg może być pomocna w usprawnieniu leczenia tego zaburzenia. W artykule przedstawiono aktualną wiedzę na temat przypuszczalnej roli mikrobioty jelit w patogenezie, przebiegu i leczeniu jadłowstrętu psychicznego.

The Role of Dietary Fibre in Modulating Gut Microbiota Dysbiosis in Patients with Type 2 Diabetes: A Systematic Review and Meta-Analysis of Randomised Controlled Trials.

Background: The prevalence of type 2 diabetes is on the increase worldwide, and it represents about 90% of adults who are diagnosed with diabetes. Overweight and obesity, lifestyle, genetic predisposition and gut microbiota dysbiosis have been implicated as possible risk factors in the development of type 2 diabetes. In particular, low intake of dietary fibre and consumption of foods high in fat and sugar, which are common in western lifestyle, have been reported to contribute to the depletion of specific bacterial taxa. Therefore, it is possible that intake of high dietary fibre may alter the environment in the gut and provide the needed substrate for microbial bloom. Aim: The current review is a systematic review and meta-analysis which evaluated the role of dietary fibre in modulating gut microbiota dysbiosis in patients with type 2 diabetes. Methods: This is a systematic review and meta-analysis of randomised controlled trials which relied on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) framework. Electronic searches were conducted using EBSCOHost with links to Health Sciences Research Databases, EMBASE and Google Scholar. The reference lists of articles were also searched for relevant studies. Searches were conducted from date of commencement of the database to 5 August 2020. The search strategy was based on the Population, Intervention, Comparator, Outcomes, Studies (PICOS) framework and involved the use of synonyms and medical subject headings (MesH). Search terms were combined with Boolean operators (OR/AND). Results: Nine studies which met the inclusion criteria were selected for the systematic review and meta-analysis, and four distinct areas were identified: the effect of dietary fibre on gut microbiota; the role of dietary fibre on short-chain fatty acids (SCFAs); glycaemic control; and adverse events. There was significant difference (p < 0.01) in the relative abundance of Bifidobacterium with a mean difference of 0.72 (95% CI, 0.56, 0.89) between the dietary fibre group compared with placebo. In relation to the meta-analysis for SCFAs, while there was significant difference (p = 0.02) between the dietary fibre group and placebo with a standardised mean difference of 0.5 (95% CI, 0.08, 0.91) regarding total SCFAs, the differences were not significant (p > 0.05) in relation to acetic acid, propionic acid and butyric acid. There was only significant improvement (p = 0.002) with respect to glycated haemoglobin with a mean difference of −0.18 (95% CI, −0.29, −0.06) between the dietary fibre group and placebo group. Differences between the two groups were not significant (p > 0.05) in relation to fasting blood glucose and homeostatic model assessment of insulin resistance (HOMA-IR). Furthermore, there were no significant differences between the two groups in subjects who reported adverse events. It is possible that the promotion of SCFA producers in greater diversity and abundance by dietary fibre in this review led to improvement in glycated haemoglobin, partly due to increased glucagon-like peptide-1 (GLP-1) production. In addition, Bifidobacterium lactis has been reported to increase glycogen synthesis, decrease expression of hepatic gluconeogenesis genes, improve translocation of glucose transport-4 and promote glucose uptake. It is also possible that the reduction in body weight of participants in the intervention group compared with control may have contributed to the observed improvement in glycated haemoglobin. Conclusion: This systematic review and meta-analysis have demonstrated that dietary fibre can significantly improve (p < 0.05) the relative abundance of Bifidobacterium, total SCFAs and glycated haemoglobin. However, dietary fibre did not appear to have significant effect (p > 0.05) on fasting blood glucose, HOMA-IR, acetic acid, propionic acid, butyric acid and adverse events.

Gut Microbiota Dysbiosis in Patients with Biopsy-Proven Nonalcoholic Fatty Liver Disease: A Cross-Sectional Study in Taiwan.

The gut microbiota plays a role in nonalcoholic fatty liver disease (NAFLD), but data about gut dysbiosis in Asians with NAFLD remains scarce. We analyzed the differences in fecal microbiota between adults with and without NAFLD. This cross-sectional study examined adults with histology-proven NAFLD (25 nonalcoholic fatty liver (NAFL) patients, 25 nonalcoholic steatohepatitis (NASH) patients, and 25 living liver donors (healthy controls)). The taxonomic composition of the gut microbiota was determined by 16S ribosomal RNA gene sequencing of stool samples. The NAFL and NASH groups showed lower total bacterial diversity and richness than the controls. NAFLD patients had higher levels of the phylum Bacteroidetes and lower levels of Firmicutes than controls. The genus Ruminococcaceae UCG-010, family Ruminococcaceae, order Clostridiales, and class Clostridia were less abundant in patients with NAFL or NASH than healthy individuals. The lipopolysaccharide biosynthesis pathway was differentially enriched in the NASH group. This study examined the largest number of Asian patients with biopsy-proven NAFL and NASH in terms of dysbiosis of the gut microbiota in NAFLD patients. NAFLD patients had higher levels of Bacteroidetes and lower levels of Firmicutes. These results are different from research from western countries and could provide different targets for therapies by region.

Analysis of intestinal patients' flora changes with severe pneumonia based on 16SrDNA sequencing technology

To investigate the characteristics of gut microbiota dysbosis in patients with severe pneumonia using 16SrDNA sequencing. A prospective observational research was conducted. The stool samples retained by natural defecation or enema within 2 days after hospital were collected from 16 patients with severe pneumonia admitted to department of intensive care unit (ICU) of General Hospital of Ningxia Medical University from June to December in 2018 and 10 persons for physical exam were enrolled as the healthy control group. The 16SrDNA sequencing technology was used to detect fecal flora and analyze biological information. (1) 1 015 475 effective sequences were obtained from the stool samples from the severe pneumonia group and the healthy control group. Using 16SrDNA method, it was found that the average effective length of the sample sequence was 458.35 bp and the average sequence number of the total samples was 39 056.73. (2) Analysis of α diversity of gut microbiota showed that, compared with the healthy control group, the Ace index, Chao index and the Shannon index of gut microbiota diversity in the severe pneumonia group were significantly decreased [Ace index: 167.23 (143.14, 211.26) vs. 227.71 (214.53, 247.05), Chao index: 152.38 (138.09, 182.54) vs. 228.25 (215.49, 248.95), Shannon index: 2.37 (1.68, 2.89) vs. 3.39 (3.03, 3.63), all P < 0.01], and the Simpson index was significantly increased [0.21 (0.11, 0.33) vs. 0.07 (0.06, 0.12), P < 0.01], which indicated the gut microbiota diversity of the severe pneumonia group was decreased. (3) Analysis of β diversity of gut microbiota, principal coordinate analysis (PCoA) showed that gut microbiota structural with the healthy control group was similar, while that in the severe pneumonia group was different. Adonis analysis showed that the structural of the gut microflora revealing significant differences between the severe pneumonia group and the healthy control group (R2 = 0.061, P = 0.05). (4) Analysis of phylum difference gut microflora showed that, compared with the healthy control group, the proportion of Firmicutes in severe pneumonia group was decreased [27.36 (18.12, 39.28)% vs. 52.25 (38.36, 63.82)%, P = 0.02], the proportions of Actinobacterias, Synergistetes and Fusobacterias were increased [2.30 (0.30, 4.80)% vs. 0.02 (0.00, 0.06)%, 0.36 (< 0.01, 0.57)% vs. < 0.01 (< 0.01, < 0.01)%, 0.01 (< 0.01, 0.08)% vs. < 0.01 (< 0.01, < 0.01)%, all P < 0.05]. (5) Analysis of genus difference gut microflora showed that, the proportions of Bifidobacterium, Ruminococcus, Pseudobutyrivibrio, Coprococcus, Lachnospira and Prevotella in the severe pneumonia group were significantly lower than those in healthy control group [0.18 (0.01, 0.25)% vs. 3.40 (0.46, 5.78)%, 0.01 (< 0.01, 0.29)% vs. 2.26 (0.84, 4.86)%, 0.01 (< 0.01, 0.02)% vs. 2.73 (1.87, 5.74)%, 0.02 (< 0.01, 0.07)% vs. 0.80 (0.50, 2.32)%, < 0.01 (< 0.01, < 0.01)% vs. 0.88 (0.33, 2.08)%, 0.02 (< 0.01, 0.31)% vs. 7.74 (0.07, 36.27)%, all P < 0.05]; the proportions of Escherichia and Enterococcus in the severe pneumonia group were higher than those in healthy control group, but there was no difference between the two groups [2.00 (0.57, 10.23)% vs. 1.16 (0.23, 2.68)%, 0.02 (< 0.01, 0.42)% vs. < 0.01 (< 0.01, 0.04)%, both P > 0.05]; the proportions of Fusobacterium and Staphylococcus in severe pneumonia group were significantly higher than those in healthy control group [0.01 (< 0.01, 0.08)% vs. < 0.01 (< 0.01, < 0.01)%, 0.01 (< 0.01, 0.02)% vs. < 0.01 (< 0.01, < 0.01)%, both P < 0.05]. Gut microbiota dysbiosis in patients with severe pneumonia shows that the abundance and diversity decrease, structure of intestinal flora changes, and beneficial symbiotic bacteria decrease and pathogenic bacteria increase, which may be associated with the occurrence and development of severe pneumonia.

Gut microbiota dysbiosis in patients with hepatitis B virus-induced chronic liver disease covering chronic hepatitis, liver cirrhosis and hepatocellular carcinoma.

The information regarding the effect of hepatitis B virus (HBV) infection on gut microbiota and the relationship between gut microbiota dysbiosis and hepatitis B virus-induced chronic liver disease (HBVCLD) is limited. In this study, we aimed at characterizing the gut microbiota composition in the three different stages of hepatitis B virus-induced chronic liver disease patients and healthy individuals. Faecal samples and clinical data were collected from HBVCLD patients and healthy individuals. The 16S rDNA gene amplification products were sequenced. Bioinformatic analysis including alpha diversity and PICRUSt was performed. A total of 19 phyla, 43 classes, 72 orders, 126 families and 225 genera were detected. The beta-diversity showed a separate clustering of healthy controls and HBVCLD patients covering chronic hepatitis (CHB), liver cirrhosis (LC) and hepatocellular carcinoma (HCC); and gut microbiota of healthy controls was more consistent, whereas those of CHB, LC and HCC varied substantially. The abundance of Firmicutes was lower, and Bacteroidetes was higher in patients with CHB, LC and HCC than in healthy controls. Predicted metagenomics of microbial communities showed an increase in glycan biosynthesis and metabolism-related genes and lipid metabolism-related genes in HBVCLD than in healthy individuals. Our study suggested that HBVCLD is associated with gut dysbiosis, with characteristics including, a gain in potential bacteria and a loss in potential beneficial bacteria or genes. Further study of CHB, LC and HCC based on microbiota may provide a novel insight into the pathogenesis of HBVCLD as well as a novel treatment strategy.

Gut microbiota dysbiosis in patients with non-alcoholic fatty liver disease

Gut microbiota plays a significant role in the pathogenesis of non-alcoholic fatty liver disease (NAFLD). This study aimed to assess the contribution of gut microbiota dysbiosis to the pathogenesis of NAFLD. Forty-seven human feces samples (25 NAFLD patients and 22 healthy subjects) were collected and 16S rDNA amplicon sequencing was conducted on Hiseq 2000 platform. Discrepancy of species composition between controls and NAFLD group was defined by Metastats analysis under P value <0.01. NAFLD patients harbored lower gut microbiota diversity than healthy subjects did. In comparison to the control group, the Proteobacteria (13.50%) and Fusobacteria (2.76%) phyla were more abundant in NAFLD patients. Additionally, the Lachnospiraceae (21.90%), Enterobacteriaceae (12.02%), Erysipelotrichaceae (3.83%), and Streptococcaceae (1.39%) families, as well as the Escherichia_Shigella (10.84%), Lachnospiraceae_Incertae_Sedis (7.79%), and Blautia (4.95%) genera were enriched in the NAFLD group. However, there was a lower abundance of Prevotella in the NAFLD group than that in the control group (5.83% vs 27.56%, P<0.01). The phylum Bacteroidetes (44.63%) also tended to be more abundant in healthy subjects, and the families Prevotellaceae (28.66%) and Ruminococcaceae (26.44%) followed the same trend. Compared to those without non-alcoholic steatohepatitis (NASH), patients with NASH had higher abundance of genus Blautia (5.82% vs 2.25%; P=0.01) and the corresponding Lachnospiraceae family (24.33% vs 14.21%; P<0.01). Patients with significant fibrosis had a higher abundance of genus Escherichia_Shigella (12.53% vs 1.97%; P<0.01) and the corresponding Enterobacteriaceae family (13.92% vs 2.07%; P<0.01) compared to those with F0/F1 fibrosis. NAFLD patients and healthy subjects harbor varying gut microbiota. In contrast to the results of previous research on children, decreased levels of Prevotella might be detrimental for adults with NAFLD. The increased level of the genus Blautia, the family Lachnospiraceae, the genus Escherichia_Shigella, and the family Enterobacteriaceae may be a primary contributor to NAFLD progression.

Gut microbiota dysbiosis in patients with Multiple Sclerosis

Abstract Multiple sclerosis (MS) is an inflammatory and demyelinating autoimmune disease that is known to involve environmental predisposition—an important component of which may be influenced by the GI microbiota. This study was designed to investigate whether gut microbiota may play a role in the etiopathogenesis of MS, by comparing the composition of fecal microbiota in MS patients to that of age- and gender-matched healthy controls. Phylotype profiles of the microbiome populations were generated using deep sequencing of the hyper variable V3–V5 region of the 16S ribosomal RNA (rRNA) gene and high quality sequences were then analyzed for taxonomic composition and clustering (OTU) using QIIME (Quantitative Insights Into Microbial Ecology) and LEfSe (LDA Effect Size). High-throughput multiplexed MiSeq sequencing yielded over 50,000 reads/sample, ensuring detection of both dominant and rare members of the microbiome. Detailed fecal microbiome analyses revealed that patients with MS had a distinct microbial community profile compared to healthy controls. We observed a decreased abundance of taxa involved in metabolism of phytoestrogen and bile acid, both of which play important roles in the maintenance of gut homeostasis and the induction of anti-inflammatory pathways. This study suggests that microbial dysbiosis, particularly a decrease in anti-inflammatory microbes, may lead to an increased pro-inflammatory immune response and subsequent predisposition to the development of MS. In particular, our study consistent with the hypothesis that microbial dysbiosis is a contributing environmental factor involved in the etiopathogenesis of MS.

Bacterial translocation: the core of gut microbiota dysbiosis in patients with short bowel syndrome

The human gastrointestinal tract is colonized by complex and diverse microbiota which maintains an ecological balance under normal circumstances. Short bowel syndrome causes damage to the normal flora which predisposes the patient to colonic dysbacteriosis and small intestine bacterial overgrowth. Small intestine bacterial overgrowth may lead to digestive and absoptive disfunctions, mucosal inflammation, and may delay or prevent weaning from total parenteral nutrition. Moreover, small intestine bacterial overgrowth may be one of the causes of intestinal failure-associated liver disease, and eventually lead to various body dysfunctions. In this review, the bacterial translocation in short bowel syndrome were summarized, providing the theore-tic proofs to treatment and prevention. Key words: Short bowel syndrome; Gut microbiota; Bacterial translocation

Faecal proteomics: A tool to investigate dysbiosis and inflammation in patients with cystic fibrosis

BackgroundSeveral microbial studies reported gut microbiota dysbiosis in patients with cystic fibrosis (CF). The functional consequences of this phenomenon are poorly understood. Faecal metaproteomics allows the quantitative analysis of host and microbial proteins to address functional changes resulting from this dysbiosis. MethodsWe analysed faecal protein extracts from fifteen patients with CF that have pancreatic insufficiency and from their unaffected siblings by shotgun proteomics. Novel computational and statistical tools were introduced to evaluate changes in taxonomic composition and protein abundance. ResultsFaecal protein extracts from patients with CF were dominated by host proteins involved in inflammation and mucus formation. Taxonomic analysis of the microbial proteins confirmed the strong reduction of butyrate reducers such as Faecalibacterium prausnitzii and increase of Enterobacteriaceae, Ruminococcus gnavus and Clostridia species. ConclusionFaecal metaproteomics provides insights in intestinal dysbiosis, inflammation in patients with CF and can be used to monitor different disease markers in parallel.