In patients with IBD, chronic colonic inflammation increases the risk of colorectal cancer, perhaps because inflammation predisposes these tissues to genomic instability. Carcinogenesis in the inflamed colon seems to follow a different sequence of genetic alterations than that observed in sporadic cancers in the uninflamed colon. In this Review, we focus on the genetic alterations in colitis-associated colorectal cancer that contribute to the acquisition of the essential hallmarks of cancer, and on how those alterations differ from sporadic colorectal cancers. Our intent is to provide a conceptual basis for categorizing carcinogenetic molecular abnormalities in IBD, and for understanding how cancer-preventive therapies might target reversal of acquired abnormalities in specific biochemical pathways.
Obesity is highly prevalent in our IBD patients, paralleling the obesity rates in the US population. Clinical outcomes were significantly different in obese versus non-obese patients with IBD. Despite the plausible mechanisms whereby obesity might exacerbate IBD, we have found that obesity (as defined by BMI) is a marker of a less severe disease course in IBD.
Barrett's esophagus, a metaplasia predisposed to malignant transformation, has been studied in vitro using esophageal adenocarcinoma cell lines. However, findings in such transformed cells may not be applicable to the non-neoplastic cells of benign Barrett's esophagus. Therefore, we have developed and characterized a Barrett's cell line derived from a patient without malignancy or dysplasia. Human Barrett's epithelial cells were immortalized with the insertion of hTERT (human telomerase reverse transcriptase) using a Cre-lox recombination system. We then examined properties of this continuous cell line, such as in vitro tumorigenicity, growth patterns, histological differentiation characteristics, karyotype, and checkpoint arrest mechanisms (e.g., p16, p21, and p53). Non-neoplastic Barrett's epithelial cells infected with hTERT (BAR-T cells) have been sustained in culture beyond 200 population doublings. BAR-T cells maintain a diploid chromosome number and exhibit non-neoplastic properties, such as contact inhibition and anchorage-dependent growth. BAR-T cells express differentiation Barrett's epithelial markers, such as villin and cytokeratins 4, 8 and 18, and stain positive for Alcian blue, indicating the presence of mucin-producing cells. Expression of checkpoint arrest proteins p21 and p53 are intact, while p16 expression is lost. Thus, we have created a human Barrett's cell line that is not malignantly transformed, and yet can be maintained indefinitely in culture. BAR-T cells are diploid, have histological differentiation markers characteristic of benign Barrett's epithelium, and also maintain appropriate expression of p21 and p53. This cell line should be a useful model for the study of the early events in carcinogenesis in Barrett's esophagus.
Background and AimsCorticosteroids are effective for the short-term treatment of inflammatory bowel disease (IBD). Long-term use, however, is associated with significant adverse effects. To define the: (1) frequency and duration of corticosteroid use, (2) frequency of escalation to corticosteroid-sparing therapy, (3) rate of complications related to corticosteroid use, (4) rate of appropriate bone density measurements (dual energy X-ray absorptiometry [DEXA] scans), and (5) factors associated with escalation and DEXA scans.MethodsRetrospective review of Veterans Health Administration (VHA) data from 2002–2010.ResultsOf the 30,456 Veterans with IBD, 32% required at least one course of corticosteroids during the study time period, and 17% of the steroid users had a prolonged course. Among these patients, only 26.2% underwent escalation of therapy. Patients visiting a gastroenterology (GI) physician were significantly more likely to receive corticosteroid-sparing medications. Factors associated with corticosteroid-sparing medications included younger age (OR = 0.96 per year,95%CI:0.95, 0.97), male gender (OR = 2.00,95%CI:1.16,3.46), GI visit during the corticosteroid evaluation period (OR = 8.01,95%CI:5.85,10.95) and the use of continuous corticosteroids vs. intermittent corticosteroids (OR = 2.28,95%CI:1.33,3.90). Rates of complications per 1000 person-years after IBD diagnosis were higher among corticosteroid users (venous thromboembolism [VTE] 9.0%; fragility fracture 2.6%; Infections 54.3) than non-corticosteroid users (VTE 4.9%; fragility fracture 1.9%; Infections 26.9). DEXA scan utilization rates among corticosteroid users were only 7.8%.ConclusionsProlonged corticosteroid therapy for the treatment of IBD is common and is associated with significant harm to patients. Patients with prolonged use of corticosteroids for IBD should be referred to gastroenterology early and universal efforts to improve the delivery of high quality care should be undertaken.
Barrett's esophagus develops when refluxed gastric juice injures the esophageal squamous lining and the injury heals through a metaplastic process in which intestinal-type columnar cells replace squamous ones. The progenitor cell that gives rise to Barrett's metaplasia is not known, nor is it known why the condition is predisposed to malignancy. We studied the contribution of bone marrow stem cells to the development of Barrett's esophagus in an animal model. Twenty female rats were given a lethal dose of irradiation followed by tail vein injection of bone marrow cells from male rats. Ten days later, the female rats were randomly assigned to undergo either esophagojejunostomy, a procedure that causes reflux esophagitis with intestinal metaplasia, or a sham operation. The rats were killed at 8 weeks and serial sections of the snap-frozen esophagi were cut and mounted on slides. The first and last sections were used for histological evaluation and the intervening sections were immunostained for cytokeratin to identify epithelial cells and analyzed for Y chromosome by fluorescence in situ hybridization (FISH). Histological evaluation of the esophagi from rats that had esophagojejunostomy revealed ulcerative esophagitis and multiple areas of intestinal metaplasia. FISH analyses showed that some of the squamous epithelial cells and some of the columnar epithelial cells lining the glands of the intestinal metaplasia were positive for Y chromosome. These observations suggest that multi-potential progenitor cells of bone marrow origin contribute to esophageal regeneration and metaplasia in this rat model of Barrett's esophagus.
ObjectiveAlthough perturbations in mitochondrial function and structure have been described in the intestinal epithelium of Crohn’s disease and ulcerative colitis patients, the role of epithelial mitochondrial stress in the pathophysiology of inflammatory bowel diseases (IBD) is not well elucidated. Prohibitin 1 (PHB1), a major component protein of the inner mitochondrial membrane crucial for optimal respiratory chain assembly and function, is decreased during IBD.DesignMale and female mice with inducible intestinal epithelial cell deletion of Phb1 (Phb1iΔIEC) or Paneth cell-specific deletion of Phb1 (Phb1ΔPC) and Phb1fl/fl control mice were housed up to 20 weeks to characterise the impact of PHB1 deletion on intestinal homeostasis. To suppress mitochondrial reactive oxygen species, a mitochondrial-targeted antioxidant, Mito-Tempo, was administered. To examine epithelial cell-intrinsic responses, intestinal enteroids were generated from crypts of Phb1iΔIEC or Phb1ΔPC mice.ResultsPhb1iΔIEC mice exhibited spontaneous ileal inflammation that was preceded by mitochondrial dysfunction in all IECs and early abnormalities in Paneth cells. Mito-Tempo ameliorated mitochondrial dysfunction, Paneth cell abnormalities and ileitis in Phb1iΔIEC ileum. Deletion of Phb1 specifically in Paneth cells (Phb1ΔPC) was sufficient to cause ileitis. Intestinal enteroids generated from crypts of Phb1iΔIEC or Phb1ΔPC mice exhibited decreased viability and Paneth cell defects that were improved by Mito-Tempo.ConclusionOur results identify Paneth cells as highly susceptible to mitochondrial dysfunction and central to the pathogenesis of ileitis, with translational implications for the subset of Crohn’s disease patients exhibiting Paneth cell defects.
BACKGROUND & AIMS: The efficacy of prophylactic placement of hemoclips to prevent delayed bleeding after removal of large colonic polyps has not been established. We conducted a randomized equivalence study to determine whether prophylactic placement of hemoclips affects incidence of delayed postpolypectomy bleeding (PPB). METHODS: During elective colonoscopy performed at 4 Veterans Affairs Medical Centers, 1098 patients who had polyps !1 cm removed were randomly assigned to groups that received prophylactic hemoclips (n ¼ 547) or no hemoclips (n ¼ 551), from September 2011 through September 2018. Data on PPB (rectal bleeding resulting in hemoglobin decreases !2 g/dL, hemodynamic instability, colonoscopy, angiography, or surgery) within 30 days of colonoscopy (called delayed PPB) were collected during telephone interviews or hospital visits 7 and 30 days after colonoscopy. The primary outcome was the incidence of important post-polypectomy bleeding. RESULTS: Twelve patients in the hemoclip group (2.3%) and 15 patients in the no hemoclip group (2.9%) had important delayed PPB. There were no deaths, and no patients in either group required angiography or surgery. In intention-totreat analysis, two 1-sided test's lower and upper confidence interval limits were-2.07 and 1.01, indicating that the data approached but did not meet equivalence criteria. On multiple logistic regression analysis, significant predictors of PPB included use of warfarin with bridging, thienopyridines, polyp size, and polyp location, but hemoclip placement did not associate with important delayed PPB. CONCLUSIONS: In a randomized trial, we found that prophylactic placement of hemoclips after removal of large colon polyps does not affect the proportion of important delayed PPB events, compared with no hemoclip placement. These findings call into question the widespread, expensive practice of routinely placing prophylactic hemoclips after polypectomy. ClinicalTrials.gov ID: NCT01647581.
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