Metabolic endotoxemia and cardiovascular disease: A systematic review about potential roles of prebiotics and probiotics

Translocation of microbiome‐derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of cardiovascular diseases (CVD); however, the direction of this association is not fully understood. It has been revealed by some studies that a...

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Published in	Clinical and experimental pharmacology & physiology Vol. 47; no. 6; pp. 927 - 939
Main Authors	Moludi, Jalal, Maleki, Vahid, Jafari‐Vayghyan, Hamed, Vaghef‐Mehrabany, Elnaz, Alizadeh, Mohammad
Format	Journal Article
Language	English
Published	Australia Wiley Subscription Services, Inc 01.06.2020
Subjects	Antibiotics Bacteria Blood circulation cardiovascular disease Cardiovascular diseases Dietary fiber Digestive system Dysbacteriosis Endotoxemia Endotoxins gastrointestinal microbiome Gastrointestinal tract Health risks Inflammation Intestinal microflora Intestine Lipopolysaccharides metabolic endotoxemia Metabolism Metabolites Microbiomes Microbiota Microorganisms Permeability Prebiotics Probiotics Risk analysis Risk factors Toll-like receptors Translocation Trimethylamine trimethylamine cardiovascular disease gastrointestinal microbiome metabolic endotoxemia probiotics
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Abstract	Translocation of microbiome‐derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of cardiovascular diseases (CVD); however, the direction of this association is not fully understood. It has been revealed by some studies that alterations in the intestinal microbiota (dysbiosis) lead to increased intestinal permeability and translocation of LPS to the blood circulation. LPS may trigger toll‐like receptor 4‐ (TLR‐4) mediated inflammatory responses; this could lead to a chronic low‐grade pro‐inflammatory condition named metabolic endotoxaemia (ME), which is typically observed in CVD patients. ME is promoted by increased intestinal permeability. Moreover, dysbiosis leads to production of trimethylamine‐N‐oxide (TMAO), a gut bacterial metabolite suggested as a new risk factor in CVD development. Probiotics, extensively reviewed for decades, are live microorganisms which, when taken in adequate amounts, have beneficial effects on the host metabolism. Prebiotics are a type of dietary fibre that act as nourishment for the good bacteria in the gut and decrease the population of pathogen bacteria that produce greater amounts of endotoxins. Although an association has been postulated between ME and CVD, the results of studies investigating the role of antibiotic therapy in preventing the disease have been inconsistent. In this review, we discuss how prebiotics and probiotics modulate gut microbiota and consequently might help with prevention and/or treatment of CVD associated with ME.
AbstractList	Translocation of microbiome-derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of cardiovascular diseases (CVD); however, the direction of this association is not fully understood. It has been revealed by some studies that alterations in the intestinal microbiota (dysbiosis) lead to increased intestinal permeability and translocation of LPS to the blood circulation. LPS may trigger toll-like receptor 4- (TLR-4) mediated inflammatory responses; this could lead to a chronic low-grade pro-inflammatory condition named metabolic endotoxaemia (ME), which is typically observed in CVD patients. ME is promoted by increased intestinal permeability. Moreover, dysbiosis leads to production of trimethylamine-N-oxide (TMAO), a gut bacterial metabolite suggested as a new risk factor in CVD development. Probiotics, extensively reviewed for decades, are live microorganisms which, when taken in adequate amounts, have beneficial effects on the host metabolism. Prebiotics are a type of dietary fibre that act as nourishment for the good bacteria in the gut and decrease the population of pathogen bacteria that produce greater amounts of endotoxins. Although an association has been postulated between ME and CVD, the results of studies investigating the role of antibiotic therapy in preventing the disease have been inconsistent. In this review, we discuss how prebiotics and probiotics modulate gut microbiota and consequently might help with prevention and/or treatment of CVD associated with ME. Translocation of microbiome-derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of cardiovascular diseases (CVD); however, the direction of this association is not fully understood. It has been revealed by some studies that alterations in the intestinal microbiota (dysbiosis) lead to increased intestinal permeability and translocation of LPS to the blood circulation. LPS may trigger toll-like receptor 4- (TLR-4) mediated inflammatory responses; this could lead to a chronic low-grade pro-inflammatory condition named metabolic endotoxaemia (ME), which is typically observed in CVD patients. ME is promoted by increased intestinal permeability. Moreover, dysbiosis leads to production of trimethylamine-N-oxide (TMAO), a gut bacterial metabolite suggested as a new risk factor in CVD development. Probiotics, extensively reviewed for decades, are live microorganisms which, when taken in adequate amounts, have beneficial effects on the host metabolism. Prebiotics are a type of dietary fibre that act as nourishment for the good bacteria in the gut and decrease the population of pathogen bacteria that produce greater amounts of endotoxins. Although an association has been postulated between ME and CVD, the results of studies investigating the role of antibiotic therapy in preventing the disease have been inconsistent. In this review, we discuss how prebiotics and probiotics modulate gut microbiota and consequently might help with prevention and/or treatment of CVD associated with ME.Translocation of microbiome-derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of cardiovascular diseases (CVD); however, the direction of this association is not fully understood. It has been revealed by some studies that alterations in the intestinal microbiota (dysbiosis) lead to increased intestinal permeability and translocation of LPS to the blood circulation. LPS may trigger toll-like receptor 4- (TLR-4) mediated inflammatory responses; this could lead to a chronic low-grade pro-inflammatory condition named metabolic endotoxaemia (ME), which is typically observed in CVD patients. ME is promoted by increased intestinal permeability. Moreover, dysbiosis leads to production of trimethylamine-N-oxide (TMAO), a gut bacterial metabolite suggested as a new risk factor in CVD development. Probiotics, extensively reviewed for decades, are live microorganisms which, when taken in adequate amounts, have beneficial effects on the host metabolism. Prebiotics are a type of dietary fibre that act as nourishment for the good bacteria in the gut and decrease the population of pathogen bacteria that produce greater amounts of endotoxins. Although an association has been postulated between ME and CVD, the results of studies investigating the role of antibiotic therapy in preventing the disease have been inconsistent. In this review, we discuss how prebiotics and probiotics modulate gut microbiota and consequently might help with prevention and/or treatment of CVD associated with ME.
Author	Alizadeh, Mohammad Maleki, Vahid Jafari‐Vayghyan, Hamed Moludi, Jalal Vaghef‐Mehrabany, Elnaz
Author_xml	– sequence: 1 givenname: Jalal orcidid: 0000-0002-8333-414X surname: Moludi fullname: Moludi, Jalal organization: Kermanshah University of Medical Sciences – sequence: 2 givenname: Vahid orcidid: 0000-0002-5772-3395 surname: Maleki fullname: Maleki, Vahid organization: Tabriz University of Medical Sciences – sequence: 3 givenname: Hamed surname: Jafari‐Vayghyan fullname: Jafari‐Vayghyan, Hamed organization: Arak University of Medical Sciences – sequence: 4 givenname: Elnaz surname: Vaghef‐Mehrabany fullname: Vaghef‐Mehrabany, Elnaz organization: Tabriz University of Medical Sciences – sequence: 5 givenname: Mohammad surname: Alizadeh fullname: Alizadeh, Mohammad email: mdalizadeh@tbzmed.ac.ir organization: Tabriz University of Medical Sciences
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31894861$$D View this record in MEDLINE/PubMed
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Notes	Funding information This study is a part of a thesis proposal for PhD degree. The thesis proposal was approved by Medical Ethics Committee of Tabriz University of Medical Sciences (IR.TBZMED.REC.1397.184). ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 ObjectType-Undefined-3
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Snippet	Translocation of microbiome‐derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of... Translocation of microbiome-derived lipopolysaccharide (LPS) to the bloodstream (metabolic endotoxaemia) is associated with a significantly increased risk of...
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SubjectTerms	Antibiotics Bacteria Blood circulation cardiovascular disease Cardiovascular diseases Dietary fiber Digestive system Dysbacteriosis Endotoxemia Endotoxins gastrointestinal microbiome Gastrointestinal tract Health risks Inflammation Intestinal microflora Intestine Lipopolysaccharides metabolic endotoxemia Metabolism Metabolites Microbiomes Microbiota Microorganisms Permeability Prebiotics Probiotics Risk analysis Risk factors Toll-like receptors Translocation Trimethylamine
Title	Metabolic endotoxemia and cardiovascular disease: A systematic review about potential roles of prebiotics and probiotics
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