Diet-Induced Alterations of Host Cholesterol Metabolism Are Likely To Affect the Gut Microbiota Composition in Hamsters

Martínez, Inés; Perdicaro, Diahann J.; Brown, Andrew W.; Hammons, Susan R.; Carden, Trevor J; Carr, Timothy P.; Eskridge, Kent M.; Walter, Jens

doi:10.1128/aem.03046-12

Cited by 187 publications

(139 citation statements)

References 49 publications

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“…They inferred that HPMC is a potential prebiotic that influenced gut microbiota and improved the host metabolism. Later, Martínez et al (2013) unravel the association of faecal microbiota with cholesterol reduction in hamsters. They proposed that diet based therapy comprising plant sterol esters extensively modulated the cholesterol metabolism, reducing the level of different bacterial taxa within Coriobacteriaceae and Erysipelotrichaceae.…”

Section: Substrate Subjects/animals Dose/duration Results Referencementioning

confidence: 99%

Prebiotics, gut microbiota and metabolic risks: Unveiling the relationship

Yasmin

Butt

Afzaal

et al. 2015

Journal of Functional Foods

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Section: Substrate Subjects/animals Dose/duration Results Referencementioning

confidence: 99%

Prebiotics, gut microbiota and metabolic risks: Unveiling the relationship

Yasmin

Butt

Afzaal

et al. 2015

Journal of Functional Foods

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“…Coriobacteriaceae were positively associated with liver triglyceride levels and serum cholesterol levels and negatively associated with liver glucose and glycogen levels in laboratory rodents (Claus et al., 2011). Additionally, cholesterol excreted in bile had antibacterial effects on Coriobacteriaceae (Martínez et al., 2013). Thus, an increase in endogenous lipid metabolism and/or a decrease of fecal cholesterol excretion in sifakas during the dry season could cause the increase in Coriobacteriaceae.…”

Section: Discussionmentioning

confidence: 99%

Patterns of seasonality and group membership characterize the gut microbiota in a longitudinal study of wild Verreaux's sifakas (Propithecus verreauxi)

Springer

Fichtel

Al‐Ghalith

et al. 2017

Ecology and Evolution

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The intestinal microbiota plays a major role in host development, metabolism, and health. To date, few longitudinal studies have investigated the causes and consequences of microbiota variation in wildlife, although such studies provide a comparative context for interpreting the adaptive significance of findings from studies on humans or captive animals. Here, we investigate the impact of seasonality, diet, group membership, sex, age, and reproductive state on gut microbiota composition in a wild population of group‐living, frugi‐folivorous primates, Verreaux's sifakas (Propithecus verreauxi). We repeatedly sampled 32 individually recognizable animals from eight adjacent groups over the course of two different climatic seasons. We used high‐throughput sequencing of the 16S rRNA gene to determine the microbiota composition of 187 fecal samples. We demonstrate a clear pattern of seasonal variation in the intestinal microbiota, especially affecting the Firmicutes‐Bacteroidetes ratio, which may be driven by seasonal differences in diet. The relative abundances of certain polysaccharide‐fermenting taxa, for example, Lachnospiraceae, were correlated with fruit and fiber consumption. Additionally, group membership influenced microbiota composition independent of season, but further studies are needed to determine whether this pattern is driven by group divergences in diet, social contacts, or genetic factors. In accordance with findings in other wild mammals and primates with seasonally fluctuating food availability, we demonstrate seasonal variation in the microbiota of wild Verreaux's sifakas, which may be driven by food availability. This study adds to mounting evidence that variation in the intestinal microbiota may play an important role in the ability of primates to cope with seasonal variation in food availability.

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“…These taxa have been described to play a role in hepatic lipid metabolism in rodents and fatty liver development in humans and to be SCFA producers in the presence of high-fat and high-glucose diet, but limited data are available. 65-67 …”

Section: Discussionmentioning

confidence: 99%

Significant differences in fecal microbiota are associated with various stages of glucose tolerance in African American male veterans

Ciubotaru

Green

Kukreja

et al. 2015

Translational Research

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The importance of gut microbiota in pathogenesis of diabetes remains unknown. This study investigated the relationship between microbiota and metabolic markers in African American men (AAM) with prediabetes and hypovitaminosis D. The study was ancillary to a randomized trial of vitamin D supplementation with weekly ergocalciferol (50,000 IU) conducted in AAM veterans over 12 months (D Intervention in Veterans Affairs). Glycemic groups (Gr) were characterized based on changes in oral glucose tolerance between baseline and exit. Subjects with stable normal glucose tolerance were assigned to Gr-1 and those with stable prediabetes (impaired glucose tolerance and impaired fasting glucose) to Gr-2. Microbiota composition was analyzed in stool collected at the exit (n = 115) and compared between Gr-1 and Gr-2, as well as between the lowest and highest quartiles of dietary intake of energy and fat, hemoglobin A1c, and serum 25-hydroxyvitamin D (25[OH]D) level. Differences between Gr-1 and Gr-2 included the Bacteroidetes/Firmicutes and Bacteroidales/Clostridia ratios and differences in genera such as Ruminococcus and Dialister. Changes in specific taxa associated with the lowest and highest quartiles of 25(OH) D (eg, Ruminococcus, Roseburia, Blautia, Dorea) were clearly distinct from those of dietary intake (eg, Bacteroides, Bacteroides/Prevotella ratio) or A1c (eg, Faecalibacterium, Catenibacterium, Streptococcus). These findings suggest a novel interaction between microbiota and vitamin D and a role for microbiota in early stages of diabetes development. Although results suggest that specific taxa are associated with glycemic stability over time, a causative relationship between microbiota makeup and dysglycemia is still to be demonstrated.

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Diet-Induced Alterations of Host Cholesterol Metabolism Are Likely To Affect the Gut Microbiota Composition in Hamsters

Cited by 187 publications

References 49 publications

Prebiotics, gut microbiota and metabolic risks: Unveiling the relationship

Prebiotics, gut microbiota and metabolic risks: Unveiling the relationship

Patterns of seasonality and group membership characterize the gut microbiota in a longitudinal study of wild Verreaux's sifakas (Propithecus verreauxi)

Significant differences in fecal microbiota are associated with various stages of glucose tolerance in African American male veterans

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