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The Role of Epigenomic Regulatory Pathways in the Gut-Brain Axis and Visceral Hyperalgesia
by
Wiley, John W
, Hong, Shaungsong
, Higgins, Gerald A
in
Amygdala
/ Artificial intelligence
/ Bioinformatics
/ Brain research
/ Cell cycle
/ Central nervous system
/ Diabetes mellitus
/ Digestive system
/ DNA methylation
/ Dysbacteriosis
/ Emotions
/ Environmental factors
/ Epithelial cells
/ Fatty liver
/ Gastrointestinal tract
/ Gene expression
/ Genomes
/ Gut-brain axis
/ Hyperalgesia
/ Intestine
/ Irritable bowel syndrome
/ Liver diseases
/ Machine learning
/ MicroRNAs
/ Mood disorders
/ Neurodegenerative diseases
/ Pain
/ Pain perception
/ Pathophysiology
/ Proteins
/ Sensory neurons
/ Spinal cord
/ Stress
/ Therapeutic applications
/ Transcription factors
2022
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The Role of Epigenomic Regulatory Pathways in the Gut-Brain Axis and Visceral Hyperalgesia
by
Wiley, John W
, Hong, Shaungsong
, Higgins, Gerald A
in
Amygdala
/ Artificial intelligence
/ Bioinformatics
/ Brain research
/ Cell cycle
/ Central nervous system
/ Diabetes mellitus
/ Digestive system
/ DNA methylation
/ Dysbacteriosis
/ Emotions
/ Environmental factors
/ Epithelial cells
/ Fatty liver
/ Gastrointestinal tract
/ Gene expression
/ Genomes
/ Gut-brain axis
/ Hyperalgesia
/ Intestine
/ Irritable bowel syndrome
/ Liver diseases
/ Machine learning
/ MicroRNAs
/ Mood disorders
/ Neurodegenerative diseases
/ Pain
/ Pain perception
/ Pathophysiology
/ Proteins
/ Sensory neurons
/ Spinal cord
/ Stress
/ Therapeutic applications
/ Transcription factors
2022
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Do you wish to request the book?
The Role of Epigenomic Regulatory Pathways in the Gut-Brain Axis and Visceral Hyperalgesia
by
Wiley, John W
, Hong, Shaungsong
, Higgins, Gerald A
in
Amygdala
/ Artificial intelligence
/ Bioinformatics
/ Brain research
/ Cell cycle
/ Central nervous system
/ Diabetes mellitus
/ Digestive system
/ DNA methylation
/ Dysbacteriosis
/ Emotions
/ Environmental factors
/ Epithelial cells
/ Fatty liver
/ Gastrointestinal tract
/ Gene expression
/ Genomes
/ Gut-brain axis
/ Hyperalgesia
/ Intestine
/ Irritable bowel syndrome
/ Liver diseases
/ Machine learning
/ MicroRNAs
/ Mood disorders
/ Neurodegenerative diseases
/ Pain
/ Pain perception
/ Pathophysiology
/ Proteins
/ Sensory neurons
/ Spinal cord
/ Stress
/ Therapeutic applications
/ Transcription factors
2022
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The Role of Epigenomic Regulatory Pathways in the Gut-Brain Axis and Visceral Hyperalgesia
Journal Article
The Role of Epigenomic Regulatory Pathways in the Gut-Brain Axis and Visceral Hyperalgesia
2022
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Overview
The gut-brain axis (GBA) is broadly accepted to describe the bidirectional circuit that links the gastrointestinal tract with the central nervous system (CNS). Interest in the GBA has grown dramatically over past two decades along with advances in our understanding of the importance of the axis in the pathophysiology of numerous common clinical disorders including mood disorders, neurodegenerative disease, diabetes mellitus, non-alcohol fatty liver disease (NAFLD) and enhanced abdominal pain (visceral hyperalgesia). Paralleling the growing interest in the GBA, there have been seminal developments in our understanding of how environmental factors such as psychological stress and other extrinsic factors alter gene expression, primarily via epigenomic regulatory mechanisms. This process has been driven by advances in next-generation multi-omics methods and bioinformatics. Recent reviews address various components of GBA, but the role of epigenomic regulatory pathways in chronic stress-associated visceral hyperalgesia in relevant regions of the GBA including the amygdala, spinal cord, primary afferent (nociceptive) neurons, and the intestinal barrier has not been addressed. Rapidly developing evidence suggests that intestinal epithelial barrier dysfunction and microbial dysbiosis play a potentially significant role in chronic stress-associated visceral hyperalgesia in nociceptive neurons innervating the lower intestine via downregulation in intestinal epithelial cell tight junction protein expression and increase in paracellular permeability. These observations support an important role for the regulatory epigenome in the development of future diagnostics and therapeutic interventions in clinical disorders affecting the GBA.
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