Modulation of mitochondrial function by the microbiome metabolite propionic acid in autism and control cell lines.

R E Frye,J Chacko,S G Kahler,J C Slattery,M Tippett,S Rose,D F Macfabe,S C Bennuri,L Delhey,S Melnyk,R Wynne

doi:10.1038/tp.2016.189

Abstract

Propionic acid (PPA) is a ubiquitous short-chain fatty acid, which is a major fermentation product of the enteric microbiome. PPA is a normal intermediate of metabolism and is found in foods, either naturally or as a preservative. PPA and its derivatives have been implicated in both health and disease. Whereas PPA is an energy substrate and has many proposed beneficial effects, it is also associated with human disorders involving mitochondrial dysfunction, including propionic acidemia and autism spectrum disorders (ASDs). We aimed to investigate the dichotomy between the health and disease effects of PPA by measuring mitochondrial function in ASD and age- and gender-matched control lymphoblastoid cell lines (LCLs) following incubation with PPA at several concentrations and durations both with and without an in vitro increase in reactive oxygen species (ROS). Mitochondrial function was optimally increased at particular exposure durations and concentrations of PPA with ASD LCLs, demonstrating a greater enhancement. In contrast, increasing ROS negated the positive PPA effect with the ASD LCLs, showing a greater detriment. These data demonstrate that enteric microbiome metabolites such as PPA can have both beneficial and toxic effects on mitochondrial function, depending on concentration, exposure duration and microenvironment redox state with these effects amplified in LCLs derived from individuals with ASD. As PPA, as well as enteric bacteria, which produce PPA, have been implicated in a wide variety of diseases, including ASD, diabetes, obesity and inflammatory diseases, insight into this metabolic modulator from the host microbiome may have wide applications for both health and disease.

Highlights

There is growing interest in the role of the enteric microbiome in human health and disease
propionic acid (PPA) is important in human health for several reasons: (a) it is a metabolic mediator of gut–host interactions; (b) it is commonly found in the diet; (c) it may have a role in common medical diseases such as obesity, diabetes and inflammatory bowel disease; (d) it is significantly elevated in inborn errors of metabolism; and (e) it may have a role in the pathophysiology of autism spectrum disorders (ASDs) and other psychiatric disorders
This study examined lymphoblastoid cell lines (LCLs) from children with autistic disorder (AD) as mitochondrial dysfunction in a subset of children with ASD has been linked to the overproduction of PPA, and enteric bacteria that produce PPA are over-represented in individuals with ASD and are linked to ASD behaviors.[36,44,65]

Summary

Introduction

There is growing interest in the role of the enteric microbiome in human health and disease. Enteric bacteria can influence host physiology through the production of short-chain fatty acids. One short-chain fatty acid, propionic acid (PPA), is ubiquitous, being derived from both endogenous and environmental sources. PPA is present or is added to foods.[12,13,14,15,16,17,18] It is used in agriculture and the food industry,[19] being a major animal silage and food preservative in wheat and dairy products.[20,21] PPA has been proposed to have weight loss, anti-inflammatory and cholesterol-lowering properties.[19,22,23] Common enteric microbiome residents produce

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