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Spermine oxidase mediates Helicobacter pylori-induced gastric inflammation, DNA damage, and carcinogenic signaling

by Allaman, Margaret M , Wilson, Keith T , Asim Mohammad , Finley, Jordan L , Casero, Robert A , Blanca, Piazuelo M , Holshouser, Steven L , Cleveland, John L , Woster, Patrick M , Barry, Daniel P , Hill Salisha , Luis, Paula B , Schey, Kevin L , Gobert, Alain P , Sierra, Johanna C , Sebrell Thomas A , Rose, Kristie L , Bimczok Diane , Schneider, Claus

in Adenocarcinoma / Carcinogenesis / Deoxyribonucleic acid / DNA / DNA damage / Gastric cancer / Gastric mucosa / Helicobacter pylori / Hydrogen peroxide / Inflammation / Organoids / Polyamines / Risk factors / Spermidine / Spermine / β-Catenin

2020

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Spermine oxidase mediates Helicobacter pylori-induced gastric inflammation, DNA damage, and carcinogenic signaling

2020

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2020

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Journal Article

Spermine oxidase mediates Helicobacter pylori-induced gastric inflammation, DNA damage, and carcinogenic signaling

Allaman, Margaret M,

Wilson, Keith T,

Asim Mohammad,

Finley, Jordan L,

Casero, Robert A,

Blanca, Piazuelo M,

Holshouser, Steven L,

Cleveland, John L,

Woster, Patrick M,

Barry, Daniel P,

Hill Salisha,

Luis, Paula B,

Schey, Kevin L,

Gobert, Alain P,

Sierra, Johanna C,

Sebrell Thomas A,

Rose, Kristie L,

Bimczok Diane,

Schneider, Claus

2020

Overview

Helicobacter pylori infection is the main risk factor for the development of gastric cancer, the third leading cause of cancer death worldwide. H. pylori colonizes the human gastric mucosa and persists for decades. The inflammatory response is ineffective in clearing the infection, leading to disease progression that may result in gastric adenocarcinoma. We have shown that polyamines are regulators of the host response to H. pylori, and that spermine oxidase (SMOX), which metabolizes the polyamine spermine into spermidine plus H2O2, is associated with increased human gastric cancer risk. We now used a molecular approach to directly address the role of SMOX, and demonstrate that Smox-deficient mice exhibit significant reductions of gastric spermidine levels and H. pylori-induced inflammation. Proteomic analysis revealed that cancer was the most significantly altered functional pathway in Smox−/− gastric organoids. Moreover, there was also less DNA damage and β-catenin activation in H. pylori-infected Smox−/− mice or gastric organoids, compared to infected wild-type animals or gastroids. The link between SMOX and β-catenin activation was confirmed in human gastric organoids that were treated with a novel SMOX inhibitor. These findings indicate that SMOX promotes H. pylori-induced carcinogenesis by causing inflammation, DNA damage, and activation of β-catenin signaling.

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Publisher

Nature Publishing Group

Subject

Adenocarcinoma

/ Carcinogenesis

/ Deoxyribonucleic acid

/ DNA

/ DNA damage

/ Gastric cancer

/ Gastric mucosa