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Full-Text Articles in Gastroenterology
Estradiol Mediates Colonic Epithelial Protection In Aged Mice After Stroke And Is Associated With Shifts In The Gut Microbiome, Juneyoung Lee, Pedram Peesh, Victoria Quaicoe, Chunfeng Tan, Anik Banerjee, Patrick Mooz, Bhanu P Ganesh, Joseph Petrosino, Robert M Bryan, Louise D Mccullough, Venugopal Reddy Venna
Estradiol Mediates Colonic Epithelial Protection In Aged Mice After Stroke And Is Associated With Shifts In The Gut Microbiome, Juneyoung Lee, Pedram Peesh, Victoria Quaicoe, Chunfeng Tan, Anik Banerjee, Patrick Mooz, Bhanu P Ganesh, Joseph Petrosino, Robert M Bryan, Louise D Mccullough, Venugopal Reddy Venna
Student and Faculty Publications
The gut is a major source of bacteria and antigens that contribute to neuroinflammation after brain injury. Colonic epithelial cells (ECs) are responsible for secreting major cellular components of the innate defense system, including antimicrobial proteins (AMP) and mucins. These cells serve as a critical regulator of gut barrier function and maintain host-microbe homeostasis. In this study, we determined post-stroke host defense responses at the colonic epithelial surface in mice. We then tested if the enhancement of these epithelial protective mechanisms is beneficial in young and aged mice after stroke. AMPs were significantly increased in the colonic ECs of young …
Association Between Microbiome And The Development Of Adverse Posttraumatic Neuropsychiatric Sequelae After Traumatic Stress Exposure, Abigail L. Zeamer, Marie-Claire Salive, Xinming An, Francesca L. Beaudoin, Stacey L. House, Jennifer S. Stevens, Donglin Zeng, Thomas C. Neylan, Gari D. Clifford, Sarah D. Linnstaedt, Scott L. Rauch, Alan B. Storrow, Christopher Lewandowski, Paul I. Musey, Phyllis L. Hendry, Sophia Sheikh, Christopher W. Jones, Brittany E. Punches, Robert A. Swor, Lauren A. Hudak, Jose L. Pascual, Mark J. Seamon, Erica Harris, Claire Pearson, David A. Peak, Roland C. Merchant, Robert M. Domeier, Niels K. Rathlev, Brian J. O'Neil, Paulina Sergot, Leon D. Sanchez, Steven E. Bruce, Ronald C. Kessler, Karestan C. Koenen, Samuel A. Mclean, Vanni Bucci, John P. Haran
Association Between Microbiome And The Development Of Adverse Posttraumatic Neuropsychiatric Sequelae After Traumatic Stress Exposure, Abigail L. Zeamer, Marie-Claire Salive, Xinming An, Francesca L. Beaudoin, Stacey L. House, Jennifer S. Stevens, Donglin Zeng, Thomas C. Neylan, Gari D. Clifford, Sarah D. Linnstaedt, Scott L. Rauch, Alan B. Storrow, Christopher Lewandowski, Paul I. Musey, Phyllis L. Hendry, Sophia Sheikh, Christopher W. Jones, Brittany E. Punches, Robert A. Swor, Lauren A. Hudak, Jose L. Pascual, Mark J. Seamon, Erica Harris, Claire Pearson, David A. Peak, Roland C. Merchant, Robert M. Domeier, Niels K. Rathlev, Brian J. O'Neil, Paulina Sergot, Leon D. Sanchez, Steven E. Bruce, Ronald C. Kessler, Karestan C. Koenen, Samuel A. Mclean, Vanni Bucci, John P. Haran
Einstein Health Papers
Patients exposed to trauma often experience high rates of adverse post-traumatic neuropsychiatric sequelae (APNS). The biological mechanisms promoting APNS are currently unknown, but the microbiota-gut-brain axis offers an avenue to understanding mechanisms as well as possibilities for intervention. Microbiome composition after trauma exposure has been poorly examined regarding neuropsychiatric outcomes. We aimed to determine whether the gut microbiomes of trauma-exposed emergency department patients who develop APNS have dysfunctional gut microbiome profiles and discover potential associated mechanisms. We performed metagenomic analysis on stool samples (n = 51) from a subset of adults enrolled in the Advancing Understanding of RecOvery afteR traumA …
Gut Microbiota Composition And Diversity Before, During, And Two Months After Rifamycin-Based Tuberculosis Preventive Therapy, Marie Nancy Séraphin, Julia Bellot, Emily Klann, Maria Ukhanova, Florence G Saulsberry, Charles A Peloquin, Volker Mai
Gut Microbiota Composition And Diversity Before, During, And Two Months After Rifamycin-Based Tuberculosis Preventive Therapy, Marie Nancy Séraphin, Julia Bellot, Emily Klann, Maria Ukhanova, Florence G Saulsberry, Charles A Peloquin, Volker Mai
Student and Faculty Publications
Tuberculosis (TB) preventive therapy (TPT) is an effective strategy to eliminate TB in low-incidence settings. Shorter TPT regimens incorporating the antimicrobial class of rifamycins are designed to improve adherence and completion rates but carry the risk of modifications to the gut microbiota. We enrolled six subjects diagnosed with latent TB infection (LTBI) who accepted to initiate TPT. We also enrolled six healthy volunteers unexposed to the rifamycins. We profiled the gut microbiota using 16S rRNA amplicon sequencing (V1-V2 region) to document the immediate effect of rifamycin-based TPT on the gut microbiota composition and tracked recovery to baseline two months after …
Curated And Harmonized Gut Microbiome 16s Rrna Amplicon Data From Dietary Fiber Intervention Studies In Humans, Cynthia I Rodriguez, Ali Keshavarzian, Bruce R Hamaker, Feitong Liu, Genelle R Lunken, Heather Rasmussen, Hongwei Zhou, Julien Tap, Kelly S Swanson, Maria Ukhanova, Marion Leclerc, Martin Gotteland, Paola Navarrete, Petia Kovatcheva-Datchary, Wendy J Dahl, Jennifer B H Martiny
Curated And Harmonized Gut Microbiome 16s Rrna Amplicon Data From Dietary Fiber Intervention Studies In Humans, Cynthia I Rodriguez, Ali Keshavarzian, Bruce R Hamaker, Feitong Liu, Genelle R Lunken, Heather Rasmussen, Hongwei Zhou, Julien Tap, Kelly S Swanson, Maria Ukhanova, Marion Leclerc, Martin Gotteland, Paola Navarrete, Petia Kovatcheva-Datchary, Wendy J Dahl, Jennifer B H Martiny
Student and Faculty Publications
Next generation amplicon sequencing has created a plethora of data from human microbiomes. The accessibility to this scientific data and its corresponding metadata is important for its reuse, to allow for new discoveries, verification of published results, and serving as path for reproducibility. Dietary fiber consumption has been associated with a variety of health benefits that are thought to be mediated by gut microbiota. To enable direct comparisons of the response of the gut microbiome to fiber, we obtained 16S rRNA sequencing data and its corresponding metadata from 11 fiber intervention studies for a total of 2,368 samples. We provide …
The Gastrointestinal-Brain-Microbiota Axis: A Promising Therapeutic Target For Ischemic Stroke, Yan-Hao Wei, Ren-Tang Bi, Yan-Mei Qiu, Chun-Lin Zhang, Jian-Zhuang Li, Ya-Nan Li, Bo Hu
The Gastrointestinal-Brain-Microbiota Axis: A Promising Therapeutic Target For Ischemic Stroke, Yan-Hao Wei, Ren-Tang Bi, Yan-Mei Qiu, Chun-Lin Zhang, Jian-Zhuang Li, Ya-Nan Li, Bo Hu
Student and Faculty Publications
Ischemic stroke is a highly complex systemic disease characterized by intricate interactions between the brain and gastrointestinal tract. While our current understanding of these interactions primarily stems from experimental models, their relevance to human stroke outcomes is of considerable interest. After stroke, bidirectional communication between the brain and gastrointestinal tract initiates changes in the gastrointestinal microenvironment. These changes involve the activation of gastrointestinal immunity, disruption of the gastrointestinal barrier, and alterations in gastrointestinal microbiota. Importantly, experimental evidence suggests that these alterations facilitate the migration of gastrointestinal immune cells and cytokines across the damaged blood-brain barrier, ultimately infiltrating the ischemic brain. …
Interlink Between The Gut Microbiota And Inflammation In The Context Of Oxidative Stress In Alzheimer’S Disease Progression, Tushar K Das, Bhanu P Ganesh
Interlink Between The Gut Microbiota And Inflammation In The Context Of Oxidative Stress In Alzheimer’S Disease Progression, Tushar K Das, Bhanu P Ganesh
Student and Faculty Publications
The microbiota-gut-brain axis is an important pathway of communication and may dynamically contribute to Alzheimer's disease (AD) pathogenesis. Pathological commensal gut microbiota alterations, termed as dysbiosis, can influence intestinal permeability and break the blood-brain barrier which may trigger AD pathogenesis via redox signaling, neuronal, immune, and metabolic pathways. Dysbiosis increases the oxidative stress. Oxidants affect the innate immune system through recognizing microbial-derived pathogens by Toll-like receptors and initiating the inflammatory process. Most of the gut microbiome research work highlights the relationship between the gut microbiota and AD, but the contributory connection between precise bacteria and brain dysfunction in AD pathology …