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Transcriptional Regulation of H. Pylori-Mediated Gastric Inflammation and Cancer

Lin-Feng Chen

1 Collaborator(s)

Funding source

National Cancer Institute (NIH)
H. pylori infection causes chronic gastritis and peptic ulceration and is the strongest risk factor for the development of gastric cancer. The pathogenesis of H. pylori is believed to be associated with infection-initiated chronic gastritis, which is characterized by enhanced expression of many inflammatory genes. The transcription factor NF-?B plays a key role in H. pylori-initiated inflammatory response and gastritis by regulating the expression of these inflammatory genes. Recent studies including ours have shown that the general transcriptional elongation factor P-TEFb (the positive transcription elongation factor b), comprised of CDK9 and Cyclin T1, is essential for the expression of NF-?B-dependent inflammatory genes. The activity of P-TEFb is tightly regulated within the cells by its association with either HEXIM1 and 7SK snRNA or with Brd4. HEXIM1 and Brd4 are also involved in NF-?B-mediated inflammatory gene expression and cancer formation and are potential targets for drug development. The overall goal of this proposal is to investigate the regulation and functions of these transcription regulators in the H. pylori-mediated inflammatory response and to explore the therapeutic potential for manipulation of these regulators in the prevention and treatment of H. pylori-initiated gastric diseases. In Specific Aim 1, we will investigate the essential role of Brd4 in H. pylori-induced gastric diseases in cultured cells and in animals, which include the Mongolian gerbils and gastric epithelial cell-specific Brd4 conditional knockout mice. We will also explore the therapeutic potential of Brd4 inhibitor JQ1 as a drug for the prevention and treatment of H. pylori-induced inflammatory diseases and gastric cancer. In Specific Aim 2, we will dissect the role of HEXIM1 in the inactivation of NF-?B and in the H. pylori-induced inflammatory response and gastric cancer. We will also examine the possibility of using HMBA to intervene in the H. pylori-induced inflammatory response and initiation of gastric cancer. In Specific Aim 3, we will determine how CDK9 activation is regulated for the efficient transcription of H. pylori-induced inflammatory genes. We will also evaluate the therapeutic potential of CDK9 inhibitor flavopiridol for H. pylori-induced gastric diseases.