Peter E. Blundell scite author profile

The intestinal microbiome is a unique ecosystem and an essential mediator of metabolism and obesity in mammals. However, studies investigating the impact of the diet on the establishment of the gut microbiome early in life are generally lacking, and most notably so in primate models. Here we report that a high-fat maternal or postnatal diet, but not obesity per se, structures the offspring’s intestinal microbiome in Macaca fuscata (Japanese macaque). The resultant microbial dysbiosis is only partially corrected by a low-fat, control diet after weaning. Unexpectedly, early exposure to a high-fat diet diminished the abundance of non-pathogenic Campylobacter in the juvenile gut, suggesting a potential role for dietary fat in shaping commensal microbial communities in primates. Our data challenge the concept of an obesity-causing gut microbiome, and rather provide evidence for a contribution of the maternal diet in establishing the microbiota, which in turn affects intestinal maintenance of metabolic health.

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Maternal high-fat diet and obesity impact palatable food intake and dopamine signaling in nonhuman primate offspring

Rivera

Kievit

Kirigiti

et al. 2015

Obesity

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Objective To utilize a nonhuman primate model to examine the impact of maternal high-fat diet (HFD) consumption and pre-pregnancy obesity on offspring intake of palatable food. We will also examine whether maternal HFD consumption impaired development of the dopamine system, critical for the regulation of hedonic feeding. Methods The impact of exposure to maternal HFD and obesity on offspring consumption of diets of varying composition was assessed after weaning. We also examined the influence of maternal HFD consumption on the development of the prefrontal cortex-dopamine system at 13 months of age. Results During a preference test, offspring exposed to maternal obesity and HFD consumption displayed increased intake of food high in fat and sugar content relative to offspring from lean control mothers. Maternal HFD consumption suppressed offspring dopamine signaling (as assessed by immunohistochemistry) relative to control offspring. Specifically, there was decreased abundance of dopamine fibers and of dopamine receptor 1 and 2 protein. Conclusion Our findings reveal that offspring exposed to both maternal HFD consumption and maternal obesity during early development are at increased risk for obesity due to overconsumption of palatable energy-dense food, a behavior that may be related to reduced central dopamine signaling.

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Apomorphine-induced penile tumescence in impotent patients — preliminary findings

Lal

Laryea

Thavundayil

et al. 1987

Progress in Neuro-Psychopharmacology and Biological Psychiatry

101

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Percent left ventricular stroke work loss: A simplified hemodynamic concept for assessment of valvular aortic stenosis

Tobin

Rahimtoola

Blundell

et al. 1966

The American Journal of Cardiology

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Peter E. Blundell

High-fat maternal diet during pregnancy persistently alters the offspring microbiome in a primate model

Maternal high-fat diet and obesity impact palatable food intake and dopamine signaling in nonhuman primate offspring

Apomorphine-induced penile tumescence in impotent patients — preliminary findings

Percent left ventricular stroke work loss: A simplified hemodynamic concept for assessment of valvular aortic stenosis

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