Sigrid Pedersen scite author profile

Microbiota-gut brain axis involvement in neuropsychiatric disorders Background The microbiota-gut brain (MGB) axis is the bidirectional communication between the intestinal microbiota and the brain. An increasing body of preclinical and clinical evidence has revealed that the complex gut microbial ecosystem can affect neuropsychiatric health. However, there is still a need of further studies to elucidate the complex gene-environment interactions and the role of the MGB axis in neuropsychiatric diseases, with the aim of identifying biomarkers and new therapeutic targets, to allow early diagnosis and improving treatments. Areas covered To review the role of MGB axis in neuropsychiatric disorders, prediction and prevention of disease through exploitation, integration and combination of data from existing gut microbiome/microbiota projects and appropriate other International "-Omics" studies. We also evaluated the new technological advances to investigate the microbiome and evidence-based treatment modulating the gut microbiota through nutritional and other interventions. Expert Opinion The clinical studies have documented an association between alterations in gut microbiota composition and/or function, whereas the preclinical studies support a role for the gut microbiota in impacting behaviours which are of relevance to psychiatry and other central nervous system (CNS) disorders. Targeting MGB axis could be an additional approach for treating CNS disorders and all conditions in which alterations of the gut microbiota are involved.

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Does progressive resistance strength training as additional training have any measured effect on functional outcomes in older hospitalized patients? A single-blinded randomized controlled trial

Tibaek

Andersen

Pedersen

et al. 2013

Clin Rehabil

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Tomato Paste Alters NF-κB and Cancer-Related mRNA Expression in Prostate Cancer Cells, Xenografts, and Xenograft Microenvironment

Kolberg

Pedersen

Bastani

et al. 2015

Nutrition and Cancer

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Tomatoes may protect against prostate cancer development, possibly through targeting signaling pathways such as nuclear factor-κB (NF-κB). We investigated whether tomato paste could modulate NF-κB activity and cancer-related gene expression in human derived prostate cancer cells (PC3) and PC3 xenografts. PC3-cells were stably transduced with an NF-κB-luciferase construct, and treated with tomato extracts or vehicle control. Nude mice bearing PC3 xenografts were fed a Western-like diet with or without 10% tomato paste for 6.5 wk. The tomato diet significantly inhibited TNFα stimulated NF-κB activity in cultured PC3 cells, and modulated the expression of genes associated with inflammation, apoptosis, and cancer progression. Accumulation of lycopene occurred in liver, xenografts, and serum of mice fed tomato diet. Tomato paste in the diet did not affect tumor size in mice; however, there was a trend toward inhibition of NF-κB activity in the xenografts. The effect of tomato on gene expression was most prominent in the xenograft microenvironment, where among others NFKB2, STAT3, and STAT6 showed higher expression levels after tomato treatment. Our findings support biological activity of tomatoes in cancer-related inflammation.

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Coffee inhibits nuclear factor-kappa B in prostate cancer cells and xenografts

Kolberg

Pedersen

Mitake

et al. 2016

The Journal of Nutritional Biochemistry

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Sigrid Pedersen

Microbiota-gut brain axis involvement in neuropsychiatric disorders

Does progressive resistance strength training as additional training have any measured effect on functional outcomes in older hospitalized patients? A single-blinded randomized controlled trial

Tomato Paste Alters NF-κB and Cancer-Related mRNA Expression in Prostate Cancer Cells, Xenografts, and Xenograft Microenvironment

Coffee inhibits nuclear factor-kappa B in prostate cancer cells and xenografts

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