Theodore J. Koh scite author profile

Incompletely processed gastrins have been postulated to play a role in growth of the gastrointestinal tract, but few studies have examined the effects of progastrin on mucosal proliferation in vivo. Human gastrin gene expression and progastrin processing were therefore studied in transgenic mice containing a human gastrin (hGAS) minigene, and compared to processing in mice bearing an insulin gastrin (INS-GAS) transgene that overexpresses amidated gastrin. Progastrin processing was studied using region-specific antisera and radioimmunoassays, biosynthetic labeling, immunoprecipitation, and HPLC. Proliferative effects due to overexpression of processed and unprocessed gastrin in INS-GAS and hGAS mice, respectively, were determined using routine histology and BrdU incorporation. The pancreatic islets of INS-GAS mice were able to produce carboxyamidated G-17, resulting in a twofold elevation of serum amidated gastrin, marked thickening of the oxyntic mucosa, and an increased BrdU labeling index (LI) of the gastric body. In contrast, livers of adult hGAS mice expressed abundant human gastrin mRNA and human progastrin but were unable to process this peptide to the mature amidated form, resulting in markedly elevated serum progastrin levels and normal amidated gastrin levels. Nevertheless, there was a marked increase in the BrdU labeling index of the colon in hGAS mice (LI 7.46 Ϯ 1.90%), as well as in INS-GAS mice (LI 6.16 Ϯ 1.17%), compared to agematched, wild type control mice (LI 4.01 Ϯ 0.98%, P Ͻ 0.05). These studies suggest that incompletely processed gastrin precursors may contribute to colonic mucosal proliferation in vivo. ( J. Clin. Invest. 1996Invest. . 98:1918Invest. -1929

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Mice lacking secretory phospholipase A2 show altered apoptosis and differentiation with Helicobacter felis infection

Wang

et al. 1998

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Gastrin deficiency results in altered gastric differentiation and decreased colonic proliferation in mice

Koh¹,

Goldenring²,

Ito³

et al. 1997

Gastroenterology

218

162

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Transforming Growth Factor-β Mediates Intestinal Healing and Susceptibility to Injury in Vitro and in Vivo Through Epithelial Cells

Beck

Rosenberg

Xavier

et al. 2003

The American Journal of Pathology

174

133

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In vitro studies suggest that transforming growth factor (TGF)-beta has potent effects on gastrointestinal mucosal integrity, wound repair, and neoplasia. However, the multiplicity of actions of this peptide on many different cell types confounds efforts to define the role of TGF-beta within the intestinal epithelium in vivo. To delineate these effects selective blockade of intestinal epithelial TGF-beta activity was undertaken through targeted expression of a dominant-negative (DN) TGF-beta RII to intestinal epithelial cells in vitro and in vivo. Stable intestinal epithelial cell (IEC)-6 lines overexpressing TGF-beta RII-DN (nucleotides -7 to 573) were established. Transgenic mice overexpressing TGF-beta RII-DN under the regulation of a modified liver fatty acid-binding promoter (LFABP-PTS4) were constructed. In vitro healing was assessed by wounding of confluent monolayers. Colitis was induced by the addition of dextran sodium sulfate (2.5 to 7.5% w/v) to their drinking water. Overexpression of TGF-beta RII-DN in intestinal epithelial cell-6 cells resulted in a marked reduction in cell migration and TGF-beta-stimulated wound healing in vitro. TGF-beta RII-DN transgenic mice did not exhibit baseline intestinal inflammation or changes in survival, body weight, epithelial cell proliferation, aberrant crypt foci, or tumor formation. TGF-beta RII-DN mice were markedly more susceptible to dextran sodium sulfate-induced colitis and exhibited impaired recovery after colonic injury. TGF-beta is required for intestinal mucosal healing and TGF-beta modulation of the intestinal epithelium plays a central role in determining susceptibility to injury.

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Theodore J. Koh

Synergistic interaction between hypergastrinemia and Helicobacter infection in a mouse model of gastric cancer

Processing and proliferative effects of human progastrin in transgenic mice.

Mice lacking secretory phospholipase A2 show altered apoptosis and differentiation with Helicobacter felis infection

Gastrin deficiency results in altered gastric differentiation and decreased colonic proliferation in mice

Transforming Growth Factor-β Mediates Intestinal Healing and Susceptibility to Injury in Vitro and in Vivo Through Epithelial Cells

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