Project description:In cancer patients, an elemental diet (ED) reduces adverse effects of chemotherapy, including oral mucositis. However, the detailed mechanism(s) of the healing effects of an ED remains unclear. In this study, the protective effects of the ED, Elental®, were examined against 5-fluorouracil (5-FU)-induced oral mucositis and salivary gland atrophy in mice. Mucositis was induced in female ICR mice by injection of 5-FU. The mice were orally administered Elental® (ED group) or saline (control group). After treatment, whole transcriptome analysis and network analysis were conducted to understand the mechanism(s) of action of Elental® against oral mucositis. Whole transcriptome analysis and Ingenuity Pathways Analysis (IPA) data suggested that Elental® contributed to the recovery of mitochondrial function in 5-FU-damaged salivary glands.
Project description:Chemotherapy may cause DNA damage within the oral mucosa of cancer patients leading to mucositis, a dose-limiting side effect for effective cancer treatment. We used whole genome gene expression analysis to identify cellular damage to the mucosal tissue occuring two days post induction chemotherapy and identified gene expression patterns that may or may not be predictive of oral mucositis. Keywords: Treatment effect
Project description:Chemotherapy may cause DNA damage within the oral mucosa of cancer patients leading to mucositis, a dose-limiting side effect for effective cancer treatment. We used whole genome gene expression analysis to identify cellular damage to the mucosal tissue occuring two days post induction chemotherapy and identified gene expression patterns that may or may not be predictive of oral mucositis. Experiment Overall Design: Punch buccal biopsies from healthy controls (HC, samples BRENC1, BRENC2, BRENC3, n=3) and five AML patients pre-chemotherapy (Pre-C, samples BREN11, BREN21, BREN41, BREN51, n=4) and (Post-C, samples BREN22, BREN32, BREN42, BREN52, n=4)(Ntotal=11) gave suitable RNA integrity to perform microarray analysis. Samples Pre-C:BREN31 and post-C:BREN12 were not suitable for microarray analysis. Human Genome U133 Plus 2.0 Array (Affymetrix, Santa Clara, CA) was used to conduct gene expression profiling.
Project description:To reveal the molecular mechanisms underlying oral ulcerative mucositis-induced pain, we investigated putative pain-associated mediators, pain-related behaviors and gene modulation in a rat oral mucositis model. On day 1 after acetic acid treatment, the mucosal area showed slight redness and swelling but no evidence of ulceration or pain induction. On day 2, oral ulcers were obvious, as was the induction of spontaneous and mechanical pain. In the treated mucosal area, bacterial loading and prostaglandin E2 increased beginning on day 2; no significant changes were observed on day 1. DNA microarray analysis of trigeminal ganglion tissue collected on day 2 identified 32 significantly regulated genes (>1.5-fold change in expression). The up-regulation of the top 3 genes, Hamp (hepcidin antimicrobial peptide), Reg3b (regenerating islet-derived 3β) and Serpina3n (serine peptidase inhibitor A3N), was validated through quantitative RT-PCR. Systemic antibiotic pre-treatment did not increase the mRNA levels. Therefore, we conclude that the oral ulcerative mucositis-induced pain is caused by infectious inflammation of the ulcerative area and stimulates anti-bacterial and anti-peptidase gene expressions in sensory neurons. Oral ulcerative mucositis-induced gene expression in trigeminal ganglion tissue was measured. Ten Wistar rats were divided into the following two groups, control, oral ulcerative mucositis (stomatitis). Five rats were anesthetized with sodium pentobarbital. A piece of filter paper was soaked in 50% acetic acid diluted with water and placed in the labial fornix region of the inferior incisors of rats for 30 sec. Other five rats received only anesthesia without any treatment were used as a control. On day 2 after acetic acid treatment, oral ulcerative mucositis was obvious and trigeminal ganglion tissues in two groups were collected for DNA microarray analysis.
Project description:The role of innate immunity in modulating severity of chemotherapy-induced complications is so far unclear. The aim of this study was to determine how TLR2 may influence MTX-induced mucositis in the small intestine in mice. We used microarrays to assess gene expression profiles in proximal jejunum of WT vs. TLR2 KO mice after systemic treatment with MTX. Mucositis was induced by i.p. injection of MTX [40mg/kg BW/d] for 4 days in WT or TLR2 knockout (KO) mice. On day 7, mice were sacrificed and RNA was extracted from proximal jejunum (n=3 mice/group) and hybridized on Affymetrix microarrays.
Project description:To reveal the molecular mechanisms underlying oral ulcerative mucositis-induced pain, we investigated putative pain-associated mediators, pain-related behaviors and gene modulation in a rat oral mucositis model. On day 1 after acetic acid treatment, the mucosal area showed slight redness and swelling but no evidence of ulceration or pain induction. On day 2, oral ulcers were obvious, as was the induction of spontaneous and mechanical pain. In the treated mucosal area, bacterial loading and prostaglandin E2 increased beginning on day 2; no significant changes were observed on day 1. DNA microarray analysis of trigeminal ganglion tissue collected on day 2 identified 32 significantly regulated genes (>1.5-fold change in expression). The up-regulation of the top 3 genes, Hamp (hepcidin antimicrobial peptide), Reg3b (regenerating islet-derived 3β) and Serpina3n (serine peptidase inhibitor A3N), was validated through quantitative RT-PCR. Systemic antibiotic pre-treatment did not increase the mRNA levels. Therefore, we conclude that the oral ulcerative mucositis-induced pain is caused by infectious inflammation of the ulcerative area and stimulates anti-bacterial and anti-peptidase gene expressions in sensory neurons.
Project description:The role of innate immunity in modulating severity of chemotherapy-induced complications is so far unclear. The aim of this study was to determine how TLR2 may influence MTX-induced mucositis in the small intestine in mice. We used microarrays to assess gene expression profiles in proximal jejunum of WT vs. TLR2 KO mice after systemic treatment with MTX.
2015-01-24 | GSE56426 | GEO
Project description:Oral microbiota of patients with radiation-induced oral mucositis