コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 al smooth muscle, colonic smooth muscle, and colonic mucosa).
2 ssion in controlling inflammation within the colonic mucosa.
3 sistant bacterial species and strains on the colonic mucosa.
4 ases in PGE2, histamine, and tryptase in the colonic mucosa.
5 NA methylation and gene expression in murine colonic mucosa.
6 aining for CD40 in IECs of inflamed ileal or colonic mucosa.
7 tory bowel diseases that commonly affect the colonic mucosa.
8 cell monolayers and sections of normal human colonic mucosa.
9 e interplay between luminal bacteria and the colonic mucosa.
10 ed greater recruitment of neutrophils to the colonic mucosa.
11 ubling of prostaglandin E(2) in 15-PGDH null colonic mucosa.
12 and enhanced histopathological damage in the colonic mucosa.
13 ions in T84 cell monolayers and normal human colonic mucosa.
14 solaterally polarized TLR5 response in human colonic mucosa.
15 ecimens but not in the adjacent nonmalignant colonic mucosa.
16 tmentalization of resident proteins in mouse colonic mucosa.
17 copy for determination of DNA methylation in colonic mucosa.
18 ture in rapidly renewing tissues such as the colonic mucosa.
19 the activities of both iNOS and COX-2 in the colonic mucosa.
20 localized inflammation and ulceration of the colonic mucosa.
21 be via modification of apoptotic activity in colonic mucosa.
22 e did not significantly affect the growth of colonic mucosa.
23 diarrhea by invasion and spread through the colonic mucosa.
24 expressed by bacteria resident in the human colonic mucosa.
25 T helper cell-type 1 immune response in the colonic mucosa.
26 twofold upregulation of AT1 receptors in CRF colonic mucosa.
27 y on biopsies from normal and inflamed human colonic mucosa.
28 the putative injurious effects of H2S on the colonic mucosa.
29 gh the actions of toxin A and toxin B on the colonic mucosa.
30 ted in rapidly renewing tissues, such as the colonic mucosa.
31 stric mucosa and is a trophic factor for the colonic mucosa.
32 in comparison to the adjacent grossly normal colonic mucosa.
33 IgA coating of bacteria residing within the colonic mucosa.
34 as, followed by the gastric, intestinal, and colonic mucosa.
35 d in the middle to upper crypt region of the colonic mucosa.
36 single patient were identified in unembedded colonic mucosa.
37 y toxin A produced acute inflammation of rat colonic mucosa.
38 ificantly higher in colon tumors compared to colonic mucosa.
39 d strongly to samples of jejunal, ileal, and colonic mucosa.
40 with the surface-active phospholipids of the colonic mucosa.
41 s TGF-alpha and TGF-beta expression in human colonic mucosa.
42 1 in macrophages and CD8(+) T cells from the colonic mucosa.
43 cular permeability were increased in the IBS colonic mucosa.
44 effector genes most probably act outside the colonic mucosa.
45 transepithelial current across mouse distal colonic mucosa.
46 he regulation of IL-6/STAT3 signaling in the colonic mucosa.
47 regulates IL-6/STAT3 signaling in IEC in the colonic mucosa.
48 ation of innate gamma/delta T17 cells in the colonic mucosa.
49 he number of 5-HT-containing EC cells in the colonic mucosa.
50 lated, and no responses were observed at the colonic mucosa.
51 sion in biopsy specimens of the rectosigmoid colonic mucosa.
52 oduction of elevated amounts of IL-17 in the colonic mucosa.
53 th crypts, key morphological features of the colonic mucosa.
54 ignificantly higher PGD2 levels than healthy colonic mucosa.
55 leading to a successful colonization of the colonic mucosa.
56 D-1) ligand-expressing cells in normal human colonic mucosa.
57 e located superficially on the rectal and/or colonic mucosa.
58 secretion, inflammation, and necrosis of the colonic mucosa.
59 etics from matched inflamed and non-inflamed colonic mucosa [50 Crohn's disease (CD); 80 ulcerative c
62 gnificant inhibition of HDAC activity in the colonic mucosa after 6 h, and immunoblots revealed a con
63 equency of age-related methylation in normal colonic mucosa among the genes hypermethylated in colore
64 ically active (n = 13) or quiescent (n = 17) colonic mucosa, among 15 patients with pan-colonic ulcer
65 nk between the abundance of Fusobacterium in colonic mucosa and adenomas and suggest a possible role
66 g differentiated active UC from active CD in colonic mucosa and blood samples; top discriminating fea
69 d whether NT causes Cl(-) secretion in human colonic mucosa and examined the mechanism of this respon
71 asure differentially expressed (DE) genes in colonic mucosa and fecal exfoliated cells through the us
72 the last AOM or saline injection, and their colonic mucosa and grossly visible colon tumors from rat
74 ly-differentiated adenocarcinomas, in normal colonic mucosa and in human colon cancer cell lines.
75 rmediates also have proliferative effects in colonic mucosa and in some oesophageal cancer cell lines
79 ignificant recruitment of neutrophils to the colonic mucosa and increased colonic myeloperoxidase (MP
80 antibody-treated mice had severely inflamed colonic mucosa and increased rather than decreased expre
81 shigellosis, by invading and destroying the colonic mucosa and inducing a robust inflammatory respon
82 ) plays a critical role in the protection of colonic mucosa and is essential to restitution after epi
84 Such interactions are concentrated at the colonic mucosa and provide energy for the host epitheliu
85 l6, Tnf, and IL1alpha gene expression in the colonic mucosa and reduced the amounts of proinflammator
86 ely express class II MHC molecules in normal colonic mucosa and that they are distinct from professio
88 le of bacterial flagellin using native human colonic mucosa and the mouse colitis model of dextran su
91 yeloid-derived suppressor cells (MDSCs) into colonic mucosa and tumors in a mouse model of colitis-as
92 gher in colon tumors than in the surrounding colonic mucosa, and also increased levels of these enzym
95 tation, develop adenomas in normal-appearing colonic mucosa, and in the process usually acquire a mut
96 downregulated in IBD patients with inflamed colonic mucosa, and in trinitrobenzene sulphonic acid (T
97 inflammatory cytokines and chemokines in the colonic mucosa, and it potentiated the alcohol-induced e
98 nsitional epithelium of the urinary bladder, colonic mucosa, and mammary epithelium of the adult mous
100 s compared with its expression in uninvolved colonic mucosa, and that YAP and beta-catenin localize t
101 d to tissue specificity, such as CRC, normal colonic mucosa, and ulcerative colitis, as well as the i
103 e the role of hypermethylation in the normal colonic mucosa as a possible precursor lesion, we studie
104 an underlying process of instability in the colonic mucosa as measured by DNA fingerprinting and flu
105 the last AOM or saline injection, and their colonic mucosa, as well as the grossly visible colon tum
106 health, the association between diet and the colonic mucosa-associated gut microbiome in healthy indi
107 This study assessed the structure of the colonic mucosa-associated microbiota in mice exposed to
108 Stressor exposure significantly affects the colonic mucosa-associated microbiota, and exacerbates Ci
109 ed in carcinomas; compared to that of normal colonic mucosa, Bax immunointensity was reduced in only
110 lysis to compare gene expression patterns in colonic mucosa between ZBP-89(DeltaInt) and C57BL/6 wild
115 d protein expression were absent from normal colonic mucosa but were up-regulated during experimental
116 produces a mild inflammatory response in the colonic mucosa, but minimally affects the development/es
118 revealed that Id2 was undetectable in normal colonic mucosa, but occurs in 40% of primary tumors and
119 stantially higher in the rat jejunum than in colonic mucosa by a mean (SE) factor of 51.0 (13.2) for
120 K-1R, possesses antiapoptotic effects in the colonic mucosa by activating Akt, which prevents apoptos
123 observed, with abnormal colonization of the colonic mucosa by pathogenic Escherichia coli strains pr
125 pecific modulation of CRHR2 signaling in the colonic mucosa can promote restoration of the epithelium
129 kinase and total membrane PKC activities in colonic mucosa compared to saline treatment in all dieta
131 ransit, the profile of the microbiota in the colonic mucosa could discriminate patients with constipa
132 yer of polarized epithelial cells lining the colonic mucosa create a semipermeable barrier indispensa
135 this context, flagellin exposure to injured colonic mucosa due to DSS administration in mice resulte
136 pists spend at least 7 minutes examining the colonic mucosa during colonoscopy withdrawal to optimize
137 sed intestinal bleeding, higher apoptosis of colonic mucosa, elevated expression of cytokines and che
139 large intestinal loops were distended, with colonic mucosa exhibiting an aberrant growth pattern and
140 vivo model system that utilizes sealed human colonic mucosa explants and demonstrate in both the ex v
141 s from prostate, colon, and airway and human colonic mucosa expressed mRNA encoding PAR(2), trypsinog
143 focus) and adjoining, microscopically normal colonic mucosa from 10 colon cancer patients for the pre
145 protein expression in morphologically normal colonic mucosa from 13 healthy subjects, 9 patients with
149 ), and colonic-like cells (HT29-Cl.19A), and colonic mucosa from diseased and control patients were u
150 lines and 409 colorectal tissues [21 normal colonic mucosa from healthy individuals (N-N), 160 prima
151 t junctions, and expression was increased in colonic mucosa from individuals with Crohn's disease.
152 lation and dephosphorylation was observed in colonic mucosa from irritable bowel disease patients.
154 S and nitrotyrosine was examined using human colonic mucosa from normal bowel, ulcerative colitis, Cr
158 eous release of molecules from mast cells in colonic mucosa from patients with IBS with diarrhea (IBS
160 lpha and TGF-beta expression was assessed in colonic mucosa from patients with ulcerative colitis, pa
161 Ag in colorectal cancers, in adjacent normal colonic mucosa from these patients, and in the human col
164 normal colonic mucosa, cells of the inflamed colonic mucosa have these genetic alterations before the
165 und with respect to RNA expression in normal colonic mucosa; however, an intronic SNP (IVS10-88) in C
166 to Peyer's patch M cells, ileal mucosa, and colonic mucosa in a rabbit model of diarrhea caused by e
167 munostaining was greater than that of normal colonic mucosa in only 3 of 30 (10%) carcinomas and, in
168 inutes) reduced the contact angle of the rat colonic mucosa in vitro as well as in vivo when administ
169 velopment of malignant transformation in the colonic mucosa includes disruption in the equilibrium be
170 gic inflammatory changes in the duodenal and colonic mucosa including villus blunting, increased lami
171 m3D is associated with impaired integrity of colonic mucosa, increased epithelial hyper-proliferation
173 Colorectal tumours transplanted onto the colonic mucosa invade and metastasize to specific target
175 at endothelial ID1 up-regulation in inflamed colonic mucosa is an adaptive response that modulates th
176 expression of interleukin 17 (IL-17) in the colonic mucosa is associated with colonic inflammation a
177 thylation in the MLH1 promoter in the normal colonic mucosa is closely associated with age and the de
180 large population of commensal bacteria, the colonic mucosa is normally hyporesponsive to these poten
181 nt LOI was present in both tumors and normal colonic mucosa, it is possible that hypermethylation cre
182 regulation of KAI1, from the normal adjacent colonic mucosa (KMS 193) to the primary tumor (KMS 72; P
183 KAI1 was expressed at high levels in normal colonic mucosa (KMS 226) but was expressed at lower leve
184 AI1 expression in the transition from normal colonic mucosa (KMS 237) to adenoma (KMS 174) to carcino
185 riking display of inherent plasticity, adult colonic mucosa lacking the chromatin factor SATB2 is con
189 ated STn antigen expression in nondysplastic colonic mucosa may presage the development of neoplasia
190 endent TLR stimulation of CMFs in the normal colonic mucosa may reinforce these cells' anti-inflammat
191 ose per gram) and in antigen-positive normal colonic mucosa (mean, ~0.03 percentage injected dose per
192 drops in transepithelial resistance in human colonic mucosa mounted in Ussing chambers were reversed
194 termined by immunostaining samples of normal colonic mucosa(n=23), transitional normal mucosa adjacen
195 how these mediators affect the phenotypes of colonic mucosa nerve fibers, neuron differentiation, and
196 Affymetrix U133 + gene chips on normal human colonic mucosa (NR), adenomas (ADs), and colorectal carc
197 ue oxygenation, we demonstrate here that the colonic mucosa O(2) is actively depleted by S. flexneri
198 reaks and proliferation were observed in the colonic mucosa of 11G5-infected Apc(Min/+)/Atg16l1(Delta
199 ute 1 alpha OHase mRNA concentrations in the colonic mucosa of 44 individuals without cancer, and in
200 ducing Escherichia coli (CoPEC) colonize the colonic mucosa of a higher proportion of patients with v
201 th factor II gene (IGF2), is found in normal colonic mucosa of about 30% of colorectal cancer (CRC) p
202 expression, and it is present in the normal colonic mucosa of about 30% of patients with colorectal
206 ker ICAM-1 was also expressed earlier in the colonic mucosa of DSS-treated IRE1beta(-/-) mice, indica
207 ncreased potentially harmful bacteria in the colonic mucosa of endoscopically normal individuals.
208 Although CD4 T cells were detected in the colonic mucosa of GF recipients, no inflammation was obs
210 eq from both the small intestinal mucosa and colonic mucosa of healthy control mice or those exhibiti
211 broblast lines derived from normal-appearing colonic mucosa of hereditary nonpolyposis CRC individual
216 p-regulation of IL-33 and eosinophils in the colonic mucosa of inflammatory bowel disease patients ve
217 , a marker of ER stress, was elevated in the colonic mucosa of IRE1beta(-/-) mice, and, when exposed
218 ased expression of claudin-10 and -15 in the colonic mucosa of JAM-A(-/-) mice and in JAM-A small int
220 n be used to deliver mRNAs and siRNAs to the colonic mucosa of mice and knock down expression of targ
222 s the presence of CD68-positive cells in the colonic mucosa of mice infected with the enteric pathoge
223 to compare changes in gene expression in the colonic mucosa of mice that express a human progastrin t
224 nomic consequences of Tlr2 deficiency in the colonic mucosa of mice to gain insights into biological
225 on of cathelicidin increased in the inflamed colonic mucosa of mice with DSS-induced colitis compared
226 use model, we show that Jak3 is expressed in colonic mucosa of mice, and the loss of mucosal expressi
228 We investigated the expression of EBI3 in colonic mucosa of normal control subjects, patients with
229 ontrol patients without cancer showed LOI in colonic mucosa of only two of sixteen cases (12%, P < 0.
231 nd the macroscopically unaffected, adjacent, colonic mucosa of patients who underwent resection for s
235 c Candida albicans strains that dominate the colonic mucosa of patients with inflammatory bowel disea
237 ation of polymorphonuclear leukocytes in the colonic mucosa of rabbits infected with the EHEC espF mu
238 ion of angiogenic factors are evident in the colonic mucosa of rats with colitis and patients with in
241 ents (44%), as well as in the matched normal colonic mucosa of the patients with LOI in their cancers
242 found induction of anti-commensal IgG in the colonic mucosa of UC patients and outline a pathway wher
246 ntifiedmicroscopically in the grossly normal colonic mucosas of rodents treated with colon carcinogen
251 -releasing hormone receptor 2 (CRHR2) in the colonic mucosa promotes inflammation during acute coliti
257 cancer patients, and in virtually no normal colonic mucosa samples of 50 human subjects with no hist
258 epigenetic changes normally occurring in the colonic mucosa shortly before adulthood could be importa
260 sed clinical disease compared with controls, colonic mucosa showed less injury and increased epitheli
264 ered profiles of gene expression in the flat colonic mucosa that exhibited heterogeneity among the mi
265 antigen-presenting cells in the normal human colonic mucosa that suppress proliferation of activated
266 r to have a mutator phenotype present in the colonic mucosa that underlies the process of tumorigenes
268 aintain the pool of resident Mvarphis in the colonic mucosa, the homeostatic regulation of Mvarphi in
270 rmalin-fixed paraffin-embedded (FFPE) normal colonic mucosa tissue sections from CRC patients and can
271 that leptin, which is increased in inflamed colonic mucosa, triggers colonic expression of hPepT1 vi
272 ected during routine colonoscopy from normal colonic mucosa, tubular adenomas, hyperplastic polyps, u
273 unofluorescence and Western blot analyses of colonic mucosa validated the systemic cytokine patterns
277 In response to DSS, nearly 60% of the entire colonic mucosa was destroyed in knockout and wa-1 mice,
280 e also noted that the miRNA induction in the colonic mucosa was mirrorred in the mucus layer fecal co
281 MIN was found in 50% of UC patients whose colonic mucosa was negative for dysplasia, 46% of those
282 No change in the prostaglandin levels in the colonic mucosa was noted after polyp elimination, making
284 phospholipids, contact-angle analysis of the colonic mucosa was performed after the luminal exposure
285 ity was more than or equal to that of normal colonic mucosa was significantly lower in carcinomas tha
286 lized microinjection of PMN-MPs into wounded colonic mucosa was sufficient to impair epithelial wound
287 model for Shigella flexneri invasion of the colonic mucosa was used to monitor the infectious proces
288 erns of HIV type 1 (HIV-1) RNA isolated from colonic mucosa were compared with those from the plasma
290 n plasma, and histopathologic changes in the colonic mucosa were monitored in untreated and muTF-Ab-t
291 nical disease and histological damage to the colonic mucosa were significantly less severe in GC-C(-/
292 AG kinase and membrane PKC activities in the colonic mucosa when compared to LFCO and HFFO groups.
294 ying process of genomic instability in their colonic mucosa whereas UC patients who are dysplasia-fre
295 y in both their dysplastic and nondysplastic colonic mucosa, whereas instability was not present in t
296 pathic, chronic inflammatory disorder of the colonic mucosa, which starts in the rectum and generally