Microbial influences on the small intestinal response to radiation injury

Packey, Christopher D.; Ciorba, Matthew A.

doi:10.1097/mog.0b013e3283361927

Cited by 83 publications

(74 citation statements)

References 72 publications

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“…In addition, radiation damage to small bowel tissue can result in chronic radiation enteritis, producing symptoms such as pain, bloating, nausea, and diarrhea and causing nutrient malabsorption (43). Radiation-induced injury may also disrupt the gutÕs resident bacteria (44,45). Current studies have shed light on the dynamic interactions between the gut and its microbiota composition (46) and subsequent impact on survival (47).…”

Section: Discussionmentioning

confidence: 99%

Adult Survivors of Childhood Cancer Have Poor Adherence to Dietary Guidelines

Zhang

Ojha²,

Krull³

et al. 2016

The Journal of Nutrition

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Section: Discussionmentioning

confidence: 99%

Adult Survivors of Childhood Cancer Have Poor Adherence to Dietary Guidelines

Zhang

Ojha²,

Krull³

et al. 2016

The Journal of Nutrition

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“…For instance, the enteric nervous system is the second largest nervous system of human body, and it has been pointed out as capable to regulate radiation enteropathy development [15] . It has also been demonstrated that the gut microbiota, consisting of about 100 trillion bacteria, influences radiation-induced damage [16] . Thus, the understanding of PRD pathogenesis has gone far beyond the single "target cell" concept, and considers intestinal toxicity as the result of multiple interactions between epithelial injury, gut microvasculature, enteric nervous system, and gut microbiota [17] .…”

Section: Pathogenesismentioning

confidence: 99%

Pelvic radiation disease: Updates on treatment options

Frazzoni

Marca

Guido

et al. 2015

WJCO

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Pelvic cancers are among the most frequently diagnosed neoplasms and radiotherapy represents one of the main treatment options. The irradiation field usually encompasses healthy intestinal tissue, especially of distal large bowel, thus inducing gastrointestinal (GI) radiation-induced toxicity. Indeed, up to half of radiationtreated patients say that their quality of life is affected by GI symptoms (e.g. , rectal bleeding, diarrhoea). The constellation of GI symptoms -from transient to longterm, from mild to very severe -experienced by patients who underwent radiation treatment for a pelvic tumor have been comprised in the definition of pelvic radiation disease (PRD). A correct and evidence-based therapeutic approach of patients experiencing GI radiation-induced toxicity is mandatory. Therapeutic non-surgical strategies for PRD can be summarized in two broad categories, i.e. , medical and endoscopic. Of note, most of the studies have investigated the management of radiation-induced rectal bleeding. Patients with clinically significant bleeding (i.e. , causing chronic anemia) should firstly be considered for medical management (i.e. , sucralfate enemas, metronidazole and hyperbaric oxygen); in case of failure, endoscopic treatment should be implemented. This latter should be considered the first choice in case of acute, transfusion requiring, bleeding. More well-performed, high quality studies should be performed, especially the role of medical treatments should be better investigated as well as the comparative studies between endoscopic and hyperbaric oxygen treatments.

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“…1 A wide body of research has shown that loss of intestinal barrier function leads to the development of various gastrointestinal inflammatory disorders, including inflammatory bowel diseases (IBD). 1,2 Conditions leading to an impaired mucosal barrier function are diverse and include genetic predisposition, medications (nonsteroidal anti-inflammatory drugs, 3 antibiotics), radiation exposure, 4 and ischemic episodes. 5 Overt damage to the epithelial barrier caused by these injuries triggers a host response, termed restitution/wound healing.…”

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confidence: 99%

Mu Opioid Signaling Protects Against Acute Murine Intestinal Injury in a Manner Involving Stat3 Signaling

Goldsmith

Uronis

Jobin

2011

The American Journal of Pathology

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Opiates have long been used as analgesics to relieve pain associated with various medical conditions. Here, we evaluated the effect and mechanism of mu opioid signaling on the intestinal wound healing response and assessed downstream pathways known to be protective against intestinal injury. Mice (C57BL/6) were exposed to 3% dextran sodium sulfate (DSS) for 7 days or 4% DSS for 5 days followed by 7 days of water. The mu opioid receptor (MOR)-specific agonist [D-Arg2,Lys4]dermorphin-(1,4)-amide (DALDA) and the antagonist cyprodime were injected s.c. daily for in vivo studies or used for in vitro analysis. We found that MOR activation attenuated DSS-induced histologic and gross intestinal injury and weight loss; diminished Ifng, Tnf, and Il6 mRNA expression; and promoted intestinal healing during recovery. DALDA also enhanced colonocyte proliferation (Ki-67 staining) by 350%. MOR activation increased Stat3 phosphorylation in both DALDA-treated mice and the CMT-93 cell line. Importantly, DALDAinduced colonocyte migration was completely ablated by shStat3 knockdown. Together, this work shows that MOR activation protects against and enhances recovery from DSS-induced intestinal injury. This is associated with an increase in Stat3 activation. Furthermore, Stat3 is required for DALDA-induced colonocyte migration. Consequently, manipulation of MOR signaling may represent a novel means to promote mucosal healing and to maintain intestinal homeostasis after intestinal injury.

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Microbial influences on the small intestinal response to radiation injury

Cited by 83 publications

References 72 publications

Adult Survivors of Childhood Cancer Have Poor Adherence to Dietary Guidelines

Adult Survivors of Childhood Cancer Have Poor Adherence to Dietary Guidelines

Pelvic radiation disease: Updates on treatment options

Mu Opioid Signaling Protects Against Acute Murine Intestinal Injury in a Manner Involving Stat3 Signaling

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