Crosstalk between gut microbiota and antidiabetic drug action

Kyriachenko, Yevheniia; Falalyeyeva, Tetyana; Korotkyi, Oleksandr; Molochek, Nataliia; Kobyliak, Nazarii

doi:10.4239/wjd.v10.i3.154

Cited by 66 publications

(54 citation statements)

References 115 publications

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“…It was validated by previous studies that acarbose18 and metformin7 promoted the level of Lactobacillus genus. Wang et al showed that the genera Lactobacillus , Allobaculum and Turicibacter were also enriched following liraglutide and saxagliptin dosage 29 30. There was little research on the taxonomic composition of sitagliptin.…”

Section: Discussionmentioning

confidence: 99%

Effects of metformin, acarbose, and sitagliptin monotherapy on gut microbiota in Zucker diabetic fatty rats

Zhang

Feng

Yang

et al. 2019

BMJ Open Diab Res Care

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ObjectiveRecent studies have demonstrated that gut microbiota was closely related to metabolic disorders such as type 2 diabetes. Oral antidiabetic medications including metformin, acarbose and sitagliptin lowered blood glucose levels via acting on the gastrointestinal tract. The aim of the study was to observe the comparisons among those medications on gut microbiota composition.Research design and methodsZucker diabetic fatty rats (n=32) were randomly divided into four groups, and had respectively gastric administration of normal saline (control), metformin (215.15 mg/kg/day), acarbose (32.27 mg/kg/day), or sitagliptin (10.76 mg/kg/day) for 4 weeks. Blood glucose levels were measured during an intragastric starch tolerance test after the treatments. 16S rRNA gene sequencing was used to access the microbiota in the fecal samples.ResultsMetformin, acarbose, and sitagliptin monotherapy effectively decreased fasting and postprandial blood glucose levels (p<0.001). Acarbose group displayed specific cluster and enterotype mainly composed byRuminococcus 2whileLactobacilluswas the dominant bacterium in the enterotype of the other three groups. The relative abundance of generaRuminococcus 2andBifidobacteriumwas dramatically higher in acarbose group. Metformin and sitagliptin increased the relative abundance of genus Lactobacillus. Metagenomic prediction showed that the functional profiles of carbohydrate metabolism were enriched in acarbose group.ConclusionsMetformin, acarbose and sitagliptin exerted different effects on the composition of gut microbiota and selectively increased the beneficial bacteria. Supplementation with specific probiotics may further improve the hypoglycemic effects of the antidiabetic drugs.

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Section: Discussionmentioning

confidence: 99%

Effects of metformin, acarbose, and sitagliptin monotherapy on gut microbiota in Zucker diabetic fatty rats

Zhang

Feng

Yang

et al. 2019

BMJ Open Diab Res Care

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show abstract

“…[74][75][76][77][78][79][80] Metformin treatment of mice on high-fat diet or of patients with diabetes has been shown to shift the microbiota composition to an increased relative abundance of A. muciniphila, a mucolytic bacterium. [77][78][79] Because cancer patients with augmented memory T-cells targeting the gut colonization of A. muciniphila are prone to have a longer clinical benefit from PD-1-based immunotherapy, metformin's ability to strengthen the intestinal mucosal barrier via enrichment of A. muciniphila and associated improvement in mucinproducing goblet cells might promote a salutatory bacteriaspecific synergetic immune response in combination with immune checkpoint inhibitors. Also, modulation of the gut 59 IFNγ-treated haploid HAP1 cells express high levels of cell surface PD-L1.…”

Section: Metformin Influences the Gut Microbiota Compositionmentioning

confidence: 99%

Metformin as an archetype immuno-metabolic adjuvant for cancer immunotherapy

et al. 2019

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“…По результатам нескольких исследований сделано предположение, что некоторые препараты из группы сульфонилмочевины могут оказывать некоторое благотворное влияние на кишечную микробиоту у пациентов с СД2, благодаря способности метаболизировать растительные фенольные и ароматические аминокислоты (гиппурат, фенилаланин и триптофан). Однако нельзя сделать однозначных выводов, так как до настоящего времени ни в одном исследовании не изучалось прямое влияние сульфонилмочевины на микробиоту кишечника [52,59].…”

Section: влияние ингибиторов альфа-глюкозидазыunclassified

Corrigendum: The new views on the state of the gut microbiota in obesity and diabetes mellitus type 2 (Diabetes mellitus. 2019;22(3). doi: 10.14341/DM10194)

Pokrovskaya¹,

Шамхалова²,

Shestakova³

2019

Diabetes mellitus

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Национальный медицинский исследовательский центр эндокринологии, Москва Ожирение является глобальной проблемой последнего столетия, распространенность которой в развитых странах достигает характера пандемии. За последние годы появилось множество данных, указывающих на непосредственную связь между изменениями в составе микробиоты кишечника и развитием ожирения, а также сопутствующих ему заболеваний, в первую очередь сахарного диабета 2 типа. Для выработки оптимальных методов лечения и профилактики данных заболеваний необходимо структурировать имеющиеся знания о механизмах развития метаболических нарушений, роли в их развитии кишечной микрофлоры и возможных терапевтических мишенях. В данном обзоре рассмотрена роль микроорганизмов в жизнедеятельности человеческого организма в целом, с основным акцентом на развитие метаболических нарушений на примере животных моделей и накопленного опыта в исследованиях влияния на организм человека, а также обсуждены возможные варианты лечения, включающие бариатрическую хирургию, применение пре-и пробиотиков, пересадку кишечной микрофлоры и применение некоторых групп сахароснижающих препаратов. КЛЮЧЕВЫЕ СЛОВА: ожирение; кишечная микрофлора; сахарный диабет 2 типа; бариатрическая хирургия; сахароснижающие препараты; пробиотики; трансплантация фекальной микрофлоры The new views on The sTaTe of The guT microbioTa in obesiTy and diabeTes melliTus Type 2Obesity is a worldwide problem of the last century, the prevalence of which has reached pandemic proportions in developed countries. Over the past few years, a considerable amount of data has been gathered, reporting a direct link between changes in gut microbiota and the development of obesity, as well as related diseases, primarily, diabetes mellitus type 2. The elaboration of optimal methods of prevention and treatment regimens of these diseases needs to structure the existing knowledge about the mechanisms of development of metabolic disorders, the role of intestinal microbiota in the latter and possible therapeutic "targets". This review examines the role of microorganisms in the human body, with the main focus on the developmental origins of metabolic disorders using animal models and accumulated experience of research on their effects on the human body, and also discusses possible treatment options, including bariatric surgery, fecal microbiota transplantation, the use of pre-and probiotics and certain particular groups of glucose-lowering drugs.

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Crosstalk between gut microbiota and antidiabetic drug action

Cited by 66 publications

References 115 publications

Effects of metformin, acarbose, and sitagliptin monotherapy on gut microbiota in Zucker diabetic fatty rats

Effects of metformin, acarbose, and sitagliptin monotherapy on gut microbiota in Zucker diabetic fatty rats

Metformin as an archetype immuno-metabolic adjuvant for cancer immunotherapy

Corrigendum: The new views on the state of the gut microbiota in obesity and diabetes mellitus type 2 (Diabetes mellitus. 2019;22(3). doi: 10.14341/DM10194)

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