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Exploring the Relationships Between Liver Fat, Gut Microbiota, Serotonin, and Brown Adipose Tissue in Humans

Obesity is a growing problem that impacts both adults and children. Obesity is linked to the development of unfavorable health outcomes like excess fat accumulation in the liver, a problem known as non-alcoholic fatty liver disease (NAFLD). Brown adipose tissue (BAT), a thermogenic body fat that can be turned on by cold, produces heat by consuming circulating lipids and glucose in a futile cycle. Less active cold-stimulated BAT is linked to obesity and type 2 diabetes in adults but whether this relationship exists in children is unknown. In rodents, increases in BAT activity are associated with reductions in NAFLD, effects that may be mediated through changes in the gut microbiome and reductions in peripheral serotonin. Whether the gut microbiome and serotonin play a role in regulating BAT activity in adults and children is not known. In this thesis, we have utilized magnetic resonance imaging (MRI) proton density fat fraction (PDFF) to assess BAT in the supraclavicular (SCV) region after three hours and one hour of whole-body cold exposure in adults and children, respectively. In 60 adults (aged 18-57 years), we examined whether there is a relationship between cold-stimulated BAT activity and liver fat (assessed via MRI) and whether gut microbiota plays a role in connecting these two tissues. In children, we investigated, BAT activity after whole-body cold exposure in 26 boys (aged 8-10 years). We also explored if BAT activity was different between boys with and without overweight/obesity. Finally, in young boys, we measured the levels of serotonin in platelet-poor plasma and its metabolic end product 5-hydroxyindole acetic acid (5-HIAA) in the urine. We explored if these measures of circulating serotonin were related to cold-stimulated BAT activity and if they were different between boys with and without overweight/obesity. The findings from this research indicate that higher cold-stimulated BAT activity is associated with lower liver fat in adults, but that this relationship is unlikely mediated through changes in the gut microbiota. Additionally, boys with overweight/obesity have lower cold-stimulated BAT activity and lower 5-HIAA in their urine compared to those with normal weight. Moreover, circulatory serotonin is negatively related to total adiposity. However, circulating serotonin is not related to cold-stimulated BAT activity in this cohort. These findings are important as they indicate for the first time that increasing BAT activity in adults and children could potentially be a new avenue for the treatment of NAFLD and obesity. / Thesis / Doctor of Philosophy (PhD) / Obesity is a risk factor for the accumulation of extra liver fat, a problem known as non-alcoholic fatty liver disease (NAFLD). Brown adipose tissue (BAT) is a kind of body fat that rather than storing calories like white fat burns calories when switched on by cold. Studies in adults have shown that people with obesity and type 2 diabetes have less active BAT suggesting switching it on may be helpful to promote weight loss and lower glucose. However, whether this relationship exists in children is not known. In rodents, increased BAT activity has also been linked to reductions in NAFLD, effects that might involve a hormone called serotonin, or changes in the gut microbiome but whether this is important in children and adults is also not understood. In this thesis, we utilized magnetic resonance imaging (MRI) to examine BAT activity after whole-body cold exposure in adults (3 hours) and children (1 hour). In 60 adults (aged 18-57 years), we report that higher cold-stimulated BAT activity is linked to NAFLD, but gut microbiota does not seem to play a role in this relationship. In 26 boys (aged 8-10 years), BAT is less responsive to cold in boys with overweight/obesity compared to boys with normal weight. Additionally, serotonin is lower in boys with overweight/obesity compared to boys with normal weight. These findings suggest that increasing BAT activity in adults and children could potentially be a new avenue for the treatment of NAFLD and obesity.

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/26999
Date January 2021
CreatorsAhmed, Basma
ContributorsSteinberg, Gregory, Biochemistry and Biomedical Sciences
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish
TypeThesis

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