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Dynamics of gut microbiota during pregnancy in women with TPOAb-positive subclinical hypothyroidism: a prospective cohort study.
Wu, M, Chi, C, Yang, Y, Guo, S, Li, T, Gu, M, Zhang, T, Gao, H, Liu, R, Yin, C
BMC pregnancy and childbirth. 2022;22(1):592
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Subclinical hypothyroidism (SCH) in pregnancy refers to the elevation of thyroid stimulating hormone level with normal free T4 level. One third of women with SCH have been reported to test positive for anti-thyroid peroxidase antibody (TPOAb+). The aim of this study was to evaluate whether gut microbiota can be potential therapeutic targets for managing TPOAb+ SCH. This study was a nested, prospective observational cohort study. A total of 64 and 68 pregnant women with TPOAb+ and TPOAb negative SCH, respectively, were included in this study. Results showed that women who were diagnosed with TPOAb+ SCH in trimester (T)1 show distinct dynamics of gut microbiota from T2 to T3. Furthermore, changes in the abundances of three types of bacterial species were abnormal in the presence of levothyroxine treatment. Authors conclude that gut microbiota can serve as potential therapeutic targets for TPOAb+ SCH during pregnancy.
Abstract
BACKGROUND Anti-thyroid peroxidase antibody (TPOAb) positivity can contribute to inhibit thyroxine synthesis. Gut microbiota can interact with metabolic or immune diseases. However, dynamics of gut microbiota from the second (T2) to the third trimester (T3) in women with TPOAb-positive/negative subclinical hypothyroidism (TPOAb+/TPOAb- SCH) have not been reported. Therefore, we aimed to evaluate whether gut microbiota can be potential therapeutic targets for managing TPOAb+ SCH. METHODS In this single-center prospective cohort study, we observed gut microbiota dynamics by sequencing 16S rRNA from fecal samples collected in T2 (20-23+ 6 weeks) and T3 (28-33+ 6 weeks). TPOAb+/TPOAb- SCH were stratified depending on whether or not they used levothyroxine (LT4) during the pregnancy (LT4+/LT4-). Microbiome bioinformatics analyses were performed using QIIME2. The linear discriminant analysis effect size (LEfSe) was used for the quantitative analysis of biomarkers. Functional profiling was performed with PICRUSt2. RESULTS Distinct gut microbiota dynamics from T2 to T3 were noted in the TPOAb- (n = 68) and TPOAb+ (n = 64) SCH groups. The TPOAb+ LT4- group was characterized by enriched bacterial amplicon sequence variants (ASVs) of Prevotella in T2 and Bacteria, Lachnospirales, Lachnospiraceae, Blautia, and Agathobacter in T3 and by depleted ASVs of Gammaproteobacteria, Enterobacterales, and Enterobacteriaceae in T2 and Actinobacteriota, Coriobacteriia, Actinobacteria, Coriobacteriales, Bifidobacteriales, Bifidobacteriaceae, Bifidobacterium, Dorea formicigenerans, and Bifidobacterium longum in T3. The TPOAb+ LT4+ group was characterized by enriched bacterial ASVs of Blautia, Streptococcus salivarius, and Bifidobacterium longum in T3 and by depleted ASVs of Bacteroidota, Bacteroidia, Bacteroidales, and Prevotella in T2 and Agathobacter in T3. Moreover, we identified 53 kinds of metabolic functions that were mainly involved in sugar, lipid, and amino acid metabolism. CONCLUSIONS Our results indicated that low dynamics of gut microbiota composition and high dynamics of its metabolic function from T2 to T3 were associated with TPOAb+ SCH. We concluded that gut microbiota could be new targets for treatment of TPOAb+ SCH during pregnancy. TRIAL REGISTRATION This study was retrospectively registered at the Chinese Clinical Trial Registry (registration number ChiCTR2100047175 ) on June 10, 2021.
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White common bean extract remodels the gut microbiota and ameliorates type 2 diabetes and its complications: A randomized double-blinded placebo-controlled trial.
Feng, Y, Zhu, J, Wang, Q, Cao, H, He, F, Guan, Y, Li, D, Yan, J, Yang, J, Xia, Y, et al
Frontiers in endocrinology. 2022;13:999715
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Patients with type 2 diabetes (T2D) have a higher risk of macrovascular complications. Intensive glycaemic control reduces microvascular complications and exerts a modest improved effect on macrovascular outcomes. The main aim of this study was to explore the effects of white common bean extract (WCBE) on glucose metabolism and diabetic complications in patients with T2D. This study was a randomised double-blind placebo-controlled trial which enrolled ninety-six patients with T2D aged between 35 and 75 years. Participants were randomly assigned in a 1:2 ratio to the control group and WCBE group. Results showed that WCBE alleviated glucose metabolism dysbiosis and diabetic complication indices. In fact, after 2 months of an intense intervention with a WCBE treatment and in the following two-month maintenance period, the improvements to glycaemic metabolism were preserved. Furthermore, there was notable improvement of the structure of the gut microbiota, especially the enrichment of short-chain fatty acid-producing bacteria and inhibition of opportunistic pathogens. Authors conclude that WCBE may be considered as a novel prebiotic antidiabetic agent for the regulation of glucose metabolism and gut microbiota homeostasis and may slightly ameliorate diabetic complications in patients with T2D.
Abstract
OBJECTIVE Excessive carbohydrate intake is a high risk factor for increased morbidity of type 2 diabetes (T2D). A novel regimen for the dietary care of diabetes that consists of a highly active α-amylase inhibitor derived from white common bean extract (WCBE) and sufficient carbohydrates intake was applied to attenuate T2D and its complications. Furthermore, the role of gut microbiota in this remission was also investigated. METHODS We conducted a 4-month randomized double-blinded placebo-controlled trial. During the intense intervention period, ninety subjects were randomly assigned to the control group (Group C) and WCBE group (Group W). Subjects in Group C were supplemented with 1.5 g of maltodextrin as a placebo. Subjects in Group W took 1.5 g of WCBE half an hour before a meal. Fifty-five participants continued the maintenance intervention receiving the previous dietary intervention whereas less frequent follow-up. The variation in biochemical, vasculopathy and neuropathy indicators and the structure of the fecal microbiota during the intervention was analyzed. RESULT Glucose metabolism and diabetic complications showed superior remission in Group W with a 0.721 ± 0.742% decline of glycosylated hemoglobin after 4 months. The proportion of patients with diabetic peripheral neuropathy (Toronto Clinical Scoring System, TCSS ≥ 6) was significantly lower in Group W than in Group C. Both the left and right sural sensory nerve conduction velocity (SNCV-left sural and SNCV-right sural) slightly decreased in Group C and slightly increased in Group W. Additionally, the abundances of Bifidobacterium, Faecalibacterium and Anaerostipes were higher in Group W, and the abundances of Weissella, Klebsiella, Cronobacter and Enterobacteriaceae_unclassified were lower than those in Group C at month 2. At the end of month 4, Bifidobacterium remained more abundant in Group W. CONCLUSION To our knowledge, this is the first report of improvement to diabetes complications by using a dietary supplement in such a short-term period. The enrichment of SCFA-producing bacteria might be responsible for the attenuation of T2D and its complications. CLINICAL TRIAL REGISTRATION NUMBER http://www.chictr.org.cn/edit.aspx?pid=23309&htm=4, identifier ChiCTR-IOR-17013656.
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Therapeutic Effects of Butyrate on Pediatric Obesity: A Randomized Clinical Trial.
Coppola, S, Nocerino, R, Paparo, L, Bedogni, G, Calignano, A, Di Scala, C, de Giovanni di Santa Severina, AF, De Filippis, F, Ercolini, D, Berni Canani, R
JAMA network open. 2022;5(12):e2244912
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Gut microbiome (GM) could play a role in obesity. A metabolically healthy GM is maintained by a diet rich in fibre. Plant foods are fermented by the gut microbiome to produce the antiobesogenic short-chain fatty acid butyrate. The aim of this study was to evaluate whether butyrate supplementation can be effective in paediatric obesity treatment. This study was a randomised, quadruple-blind, parallel-group, placebo-controlled trial. Children were randomly assigned to the treatment group or placebo in a 1:1 ratio. Results showed that in children with obesity, oral butyrate supplementation produced a reduction of body mass index and exerted beneficial effects on glucose metabolism and inflammation. In fact, butyrate supplementation decreased homeostatic model assessment of insulin resistance [HOMA-IR] and fasting insulin levels in children with obesity. Additionally, the GM analysis supported the role of butyrate in glucose metabolism, as suggested by a more positive response in children with a higher abundance of butyrate-producing bacteria at baseline. Authors conclude that their findings support the importance of the GM-derived metabolite butyrate as a protective factor against obesity, highlighting the central role of a healthy diet and GM function to achieve an optimal endogenous production of butyrate.
Abstract
IMPORTANCE The pediatric obesity disease burden imposes the necessity of new effective strategies. OBJECTIVE To determine whether oral butyrate supplementation as an adjunct to standard care is effective in the treatment of pediatric obesity. DESIGN, SETTING, AND PARTICIPANTS A randomized, quadruple-blind, placebo-controlled trial was performed from November 1, 2020, to December 31, 2021, at the Tertiary Center for Pediatric Nutrition, Department of Translational Medical Science, University of Naples Federico II, Naples, Italy. Participants included children aged 5 to 17 years with body mass index (BMI) greater than the 95th percentile. INTERVENTIONS Standard care for pediatric obesity supplemented with oral sodium butyrate, 20 mg/kg body weight per day, or placebo for 6 months was administered. MAIN OUTCOMES AND MEASURES The main outcome was the decrease of at least 0.25 BMI SD scores at 6 months. The secondary outcomes were changes in waist circumference; fasting glucose, insulin, total cholesterol, low-density lipoprotein cholesterol, high-density lipoprotein cholesterol, triglyceride, ghrelin, microRNA-221, and interleukin-6 levels; homeostatic model assessment of insulin resistance (HOMA-IR); dietary and lifestyle habits; and gut microbiome structure. Intention-to-treat analysis was conducted. RESULTS Fifty-four children with obesity (31 girls [57%], mean [SD] age, 11 [2.91] years) were randomized into the butyrate and placebo groups; 4 were lost to follow-up after receiving the intervention in the butyrate group and 2 in the placebo group. At intention-to-treat analysis (n = 54), children treated with butyrate had a higher rate of BMI decrease greater than or equal to 0.25 SD scores at 6 months (96% vs 56%, absolute benefit increase, 40%; 95% CI, 21% to 61%; P < .01). At per-protocol analysis (n = 48), the butyrate group showed the following changes as compared with the placebo group: waist circumference, -5.07 cm (95% CI, -7.68 to -2.46 cm; P < .001); insulin level, -5.41 μU/mL (95% CI, -10.49 to -0.34 μU/mL; P = .03); HOMA-IR, -1.14 (95% CI, -2.13 to -0.15; P = .02); ghrelin level, -47.89 μg/mL (95% CI, -91.80 to -3.98 μg/mL; P < .001); microRNA221 relative expression, -2.17 (95% CI, -3.35 to -0.99; P < .001); and IL-6 level, -4.81 pg/mL (95% CI, -7.74 to -1.88 pg/mL; P < .001). Similar patterns of adherence to standard care were observed in the 2 groups. Baseline gut microbiome signatures predictable of the therapeutic response were identified. Adverse effects included transient mild nausea and headache reported by 2 patients during the first month of butyrate intervention. CONCLUSIONS AND RELEVANCE Oral butyrate supplementation may be effective in the treatment of pediatric obesity. TRIAL REGISTRATION ClinicalTrials.gov Identifier: NCT04620057.
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Gut microbiome-related effects of berberine and probiotics on type 2 diabetes (the PREMOTE study).
Zhang, Y, Gu, Y, Ren, H, Wang, S, Zhong, H, Zhao, X, Ma, J, Gu, X, Xue, Y, Huang, S, et al
Nature communications. 2020;11(1):5015
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Berberine, which is a naturally occurring alkaloid found in plants, has been traditionally used as a remedy to protect against Type 2 diabetes and other metabolic disorders. It is important to study how berberine affects the human gut microbiome, specifically in regard to its impact on short-chain fatty acid and bile acid metabolism, due to its low oral bioavailability. The PREMOTE study investigated the glycaemic lowering effects of individual and combination of berberine and probiotics in newly diagnosed Type 2 Diabetes patients. This randomised, double-blinded, placebo-controlled trial included four hundred and nine Type 2 diabetic patients and randomly assigned them (1:1:1:1 ratio) to receive berberine alone, berberine combined with probiotics, probiotics alone or a placebo for twelve weeks. A combination of berberine plus probiotics and berberine alone significantly improved glycated haemoglobin levels compared to the placebo and probiotics alone treatment. The antidiabetic effects of berberine could be due to the Ruminococcus bromii abundance followed by the berberine treatment and its ability to inhibit deoxycholic acid biotransformation. Further robust studies are required to consider the therapeutic application of berberine and probiotics in a general population due to the limitations of the present study. However, healthcare professionals can use the results of this trial to understand the mechanism behind the anti-diabetic effects of berberine and probiotics.
Expert Review
Conflicts of interest:
None
Take Home Message:
- The use of berberine, as a specific antimicrobial agent, along with high strength probiotics may be beneficial for managing blood glucose and potentially other metabolic health markers alongside diet and lifestyle modifications
Evidence Category:
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X
A: Meta-analyses, position-stands, randomized-controlled trials (RCTs)
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B: Systematic reviews including RCTs of limited number
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C: Non-randomized trials, observational studies, narrative reviews
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D: Case-reports, evidence-based clinical findings
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E: Opinion piece, other
Summary Review:
Introduction
Dysbiosis of the human gut microbiome has been associated with the development of type 2 diabetes (T2D). Research has found that, in part, mechanisms of action for the antidiabetic medications, Metformin and Acarbose, include alterations in the gut microbiome as well as the inhibition of bile acid (BA) metabolism and signalling. Remedies targeting the gut microbiota for treatment of T2D and other metabolic diseases have therefore been investigated.
Berberine (BBR) has been used in Indian Ayurvedic and Traditional Chinese Medicine to treat metabolic conditions for hundreds of years. Probiotics have also been extensively researched for their potential metabolic benefits. This randomised, double-blind, placebo-controlled trial aimed to investigate whether BBR and probiotics may be effective in managing T2D.
Methods
A total of 409 participants aged 42-61 years were recruited from 20 medical centres in China. All patients were newly diagnosed (<12 months) with T2D and had no previous antidiabetic medication history. Participants were randomised into 4 groups; Probiotics and BBR, BBR only, probiotics only or a placebo for 12 weeks. Subgroup analysis was also completed for those aged >50 and >54.
Dosage of BBR was 0.6 g prior to a meal, twice daily. 4 g of powdered multi-strain probiotics including 9 strains of lactic acid bacteria were taken at bedtime. All participants were given a 7-day broad-spectrum antibiotic treatment immediately prior to baseline. 391 people completed the trial. The primary outcome measurement was glycaemic haemoglobin (HbA1c). Secondary evaluations of additional metabolic markers included fasting and post-load plasma glucose (FPG, PPG), homeostasis assessment model index for insulin resistance (HOMA-IR), total cholesterol (TC), high density lipoprotein cholesterol (HDL-c), low density lipoprotein cholesterol (LDL-c) and serum triglycerides (TG).
Results
Results showed a reduction in glycaemic haemoglobin (HbA1c) for both the BBR plus probiotics group (least squares mean [95% CI] -1.04 [-1-19, -0.89]% ) and the BBR only group (-.99 [-1.16, 0.83]%). The results for these groups were significantly greater than the probiotics alone (-0.53 {-068, -0.37]%) and the placebo groups (0.59 [-0.75, -0.44]%).
Secondary metabolic evaluations for FPG and PPG, TC, LDL -c and TGs also showed similar improvements in the BBR and BBR plus probiotic groups only. Additionally, in the >50 and >54 subgroups BBR and probiotics marginally improved the HOMA-IR.
Metagenomic and metabolomic analysis of the gut microbiome was also undertaken after a one-week pre-treatment with antibiotics immediately prior to the trial and at week 13. These results showed that the blood glucose lowering effects of BBR may be due to decreased deoxycholic acid species (DCA) biotransformation by ruminococcus bromii.
Higher levels of adverse gastrointestinal side effects were reported in the BBR treatment groups, however, the authors reported that this did not affect glycemic control outcomes.
Conclusion
This study found that BBR had an antidiabetic effect through microbial alterations in the human gut microbiome
The authors declare no conflicts of interest.
Clinical practice applications:
- 600mg of BBR twice daily prior to a meal plus a multi-strain (lactic acid) probiotic of >50 billion colony forming units (CFU) for 12 weeks may be effective in lowering HbA1c in T2D clients diagnosed within the previous 12 months
- Further research is needed for clients with longer term T2D diagnosis
- Insulin resistance may be marginally improved in clients >50
- Practitioners should be aware that in this study, adverse gastrointestinal side effects were more likely to be be experienced with the use of BBR
Considerations for future research:
The authors reported several limitations to this study:
- A population of Chinese people living in China may not be generalisable to other ethnic/racial populations
- The study was over a short duration. Longer studies are needed to confirm the results
- Participants had newly diagnosed T2D and had not received any previous medications. Future studies should include patients with a longer diagnosis time
- Records should be kept of any additional lifestyle changes made by the participants
- Adverse reactions were experienced in the BBR groups, in this study. It was reported that the gut microbiome and anti-diabetic effects were not affected, however, this may be something to be considered in longer trials.
Abstract
Human gut microbiome is a promising target for managing type 2 diabetes (T2D). Measures altering gut microbiota like oral intake of probiotics or berberine (BBR), a bacteriostatic agent, merit metabolic homoeostasis. We hence conducted a randomized, double-blind, placebo-controlled trial with newly diagnosed T2D patients from 20 centres in China. Four-hundred-nine eligible participants were enroled, randomly assigned (1:1:1:1) and completed a 12-week treatment of either BBR-alone, probiotics+BBR, probiotics-alone, or placebo, after a one-week run-in of gentamycin pretreatment. The changes in glycated haemoglobin, as the primary outcome, in the probiotics+BBR (least-squares mean [95% CI], -1.04[-1.19, -0.89]%) and BBR-alone group (-0.99[-1.16, -0.83]%) were significantly greater than that in the placebo and probiotics-alone groups (-0.59[-0.75, -0.44]%, -0.53[-0.68, -0.37]%, P < 0.001). BBR treatment induced more gastrointestinal side effects. Further metagenomics and metabolomic studies found that the hypoglycaemic effect of BBR is mediated by the inhibition of DCA biotransformation by Ruminococcus bromii. Therefore, our study reports a human microbial related mechanism underlying the antidiabetic effect of BBR on T2D. (Clinicaltrial.gov Identifier: NCT02861261).
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Dietary supplementation with inulin-propionate ester or inulin improves insulin sensitivity in adults with overweight and obesity with distinct effects on the gut microbiota, plasma metabolome and systemic inflammatory responses: a randomised cross-over trial.
Chambers, ES, Byrne, CS, Morrison, DJ, Murphy, KG, Preston, T, Tedford, C, Garcia-Perez, I, Fountana, S, Serrano-Contreras, JI, Holmes, E, et al
Gut. 2019;68(8):1430-1438
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Literature shows that higher intakes of dietary fibre are associated with a reduced risk of type 2 diabetes. The main aim of this study was to elucidate the underlying mechanisms behind improvements in glucose homeostasis following long-term delivery of propionate (a short-chain fatty acid produced by human gut microbiota in response to dietary fibre) to the human colon. The study is a randomised, double-blind, placebo-controlled cross over trial. Fourteen participants randomly received 20 g/day of a low-fermentable fibre control, a high-fermentable fibre control and inulin-propionate ester (IPE) for 42 days each. Results indicate that stool concentrations of short-chain fatty acids were not different following the three supplementation periods. Furthermore, dietary supplementation with 20 g/day IPE promoted no superior impacts on measures of glucose homeostasis compared with inulin (high-fermentable fibre), yet both IPE and inulin improved insulin resistance relative to cellulose (low-fermentable fibre). Authors conclude that manipulating the colonic fermentation profile of a dietary fibre in favour of propionate promotes selective effects on the mechanisms that contribute to metabolic dysregulation.
Abstract
OBJECTIVE To investigate the underlying mechanisms behind changes in glucose homeostasis with delivery of propionate to the human colon by comprehensive and coordinated analysis of gut bacterial composition, plasma metabolome and immune responses. DESIGN Twelve non-diabetic adults with overweight and obesity received 20 g/day of inulin-propionate ester (IPE), designed to selectively deliver propionate to the colon, a high-fermentable fibre control (inulin) and a low-fermentable fibre control (cellulose) in a randomised, double-blind, placebo-controlled, cross-over design. Outcome measurements of metabolic responses, inflammatory markers and gut bacterial composition were analysed at the end of each 42-day supplementation period. RESULTS Both IPE and inulin supplementation improved insulin resistance compared with cellulose supplementation, measured by homeostatic model assessment 2 (mean±SEM 1.23±0.17 IPE vs 1.59±0.17 cellulose, p=0.001; 1.17±0.15 inulin vs 1.59±0.17 cellulose, p=0.009), with no differences between IPE and inulin (p=0.272). Fasting insulin was only associated positively with plasma tyrosine and negatively with plasma glycine following inulin supplementation. IPE supplementation decreased proinflammatory interleukin-8 levels compared with cellulose, while inulin had no impact on the systemic inflammatory markers studied. Inulin promoted changes in gut bacterial populations at the class level (increased Actinobacteria and decreased Clostridia) and order level (decreased Clostridiales) compared with cellulose, with small differences at the species level observed between IPE and cellulose. CONCLUSION These data demonstrate a distinctive physiological impact of raising colonic propionate delivery in humans, as improvements in insulin sensitivity promoted by IPE and inulin were accompanied with different effects on the plasma metabolome, gut bacterial populations and markers of systemic inflammation.