Kathy Hormi–Carver scite author profile

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.

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In Benign Barrett's Epithelial Cells, Acid Exposure Generates Reactive Oxygen Species That Cause DNA Double-Strand Breaks

Zhang

Hormi–Carver

Zhang

et al. 2009

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Cells that sustain double-strand breaks (DSB) can develop genomic instability, which contributes to carcinogenesis, and agents that cause DSBs are considered potential carcinogens. We looked for evidence of acid-induced DNA damage, including DSBs, in benign Barrett's epithelial (BAR-T) cell lines in vitro and in patients with Barrett's esophagus in vivo. In BAR-T cells, we also explored the mechanisms underlying acid-induced DNA damage. We exposed BAR-T cells to acid in the presence of a fluorescent probe for reactive oxygen species (ROS) and in the presence or absence of disodium 4,4′-diisothiocyanatostilbene-2,2′-disulfonate (which prevents intracellular acidification) and N-acety-L-cysteine (a scavenger of ROS). DSBs were detected by Western blotting and immunofluorescence for histone H2AX phosphorylation and by CometAssay. During endoscopy in patients with Barrett's esophagus, we took biopsy specimens from the metaplastic mucosa before and after esophageal perfusion with 0.1 N HCl for 3 min and sought DSBs by Western blotting for histone H2AX phosphorylation. In BAR-T cells, acid exposure resulted in ROS production and caused a time-dependent increase in levels of phospho-H2AX that continued for at least 48 h. Pretreatment with disodium 4,4′-diisothiocyanatostilbene-2,2′-disulfonate or N-acety-L-cysteine prevented the acid-induced increase in phospho-H2AX levels. DSBs also were detected in biopsy specimens of Barrett's metaplasia following esophageal acid perfusion in all of 6 patients with Barrett's esophagus. Acid exposure causes DSBs in Barrett's epithelial cells through ROS produced as a consequence of intracellular acidification. These findings suggest that acid can be considered a carcinogen in Barrett's esophagus. [Cancer Res 2009;69 (23):9083-9]

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Kathy Hormi–Carver

Gastroesophageal Reflux Might Cause Esophagitis Through a Cytokine-Mediated Mechanism Rather Than Caustic Acid Injury

Characterization of telomerase-immortalized, non-neoplastic, human Barrett’s cell line (BAR-T)

In Benign Barrett's Epithelial Cells, Acid Exposure Generates Reactive Oxygen Species That Cause DNA Double-Strand Breaks

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