Effect of rifaximin treatment on endotoxemia and insulin sensitivity in humans
BS Finlin, B Zhu, T Boyechko… - Journal of the …, 2019 - academic.oup.com
BS Finlin, B Zhu, T Boyechko, PM Westgate, CW Chia, JM Egan, PA Kern
Journal of the Endocrine Society, 2019•academic.oup.comContext The gut microbiome is a source of inflammatory factors such as lipopolysaccharide
(LPS; endotoxin) that influence metabolic homeostasis. Rifaximin is a well-tolerated
antibiotic that may reduce LPS. Objective We sought to develop a method to accurately
assess postprandial endotoxemia and to determine whether rifaximin treatment improves
metabolic homeostasis in obese humans with metabolic syndrome. Design and Setting
Plasma LPS, adipose inflammation, glucose and lipid metabolism, and insulin sensitivity …
(LPS; endotoxin) that influence metabolic homeostasis. Rifaximin is a well-tolerated
antibiotic that may reduce LPS. Objective We sought to develop a method to accurately
assess postprandial endotoxemia and to determine whether rifaximin treatment improves
metabolic homeostasis in obese humans with metabolic syndrome. Design and Setting
Plasma LPS, adipose inflammation, glucose and lipid metabolism, and insulin sensitivity …
Context
The gut microbiome is a source of inflammatory factors such as lipopolysaccharide (LPS; endotoxin) that influence metabolic homeostasis. Rifaximin is a well-tolerated antibiotic that may reduce LPS.
Objective
We sought to develop a method to accurately assess postprandial endotoxemia and to determine whether rifaximin treatment improves metabolic homeostasis in obese humans with metabolic syndrome.
Design and Setting
Plasma LPS, adipose inflammation, glucose and lipid metabolism, and insulin sensitivity were evaluated in a clinical research setting.
Participants
Twelve obese human research participants with prediabetes or three features of metabolic syndrome participated.
Intervention
The research participants were randomized to placebo control or rifaximin soluble solid dispersion (80 mg/d) treatment groups and treated for 12 weeks.
Outcome Measures
We evaluated changes in insulin sensitivity with a euglycemic clamp; changes in lipid and glucose metabolism with oral lipid and glucose tolerance tests; changes in plasma LPS during the lipid tolerance test; and changes in adipose tissue and systemic inflammation by measuring inflammatory cytokines.
Results
Rifaximin treatment slightly worsened insulin sensitivity (P = 0.03), did not improve glucose or lipid homeostasis, and did not significantly improve adipose tissue inflammation. Our efforts to accurately assess plasma LPS using limulus amebocyte lysate assays revealed that the majority of LPS is masked from detection by limulus amebocyte lysate assays, but can be unmasked using a pretreatment step with protease. Unmasked LPS increases during the lipid tolerance test, but rifaximin treatment did not reduce this.
Conclusions
Rifaximin treatment did not lower plasma LPS or improve metabolic homeostasis in obese humans.
Oxford University Press