Helicobacter pylori has been proven to cause stomach inflammation and many gastric diseases are highly related with H. pylori. In our previous study, we discovered a new H. pylori virulence factor—GroES protein. H. pylori GroES protein induces the peripheral blood mononuclear cells (PBMCs) release proinflammatory cytokines may be related to the formation of gastric cancer. However, E. coli GroES protein does not result in this phenomenon. Compared H. pylori with other microorganisms’ GroES protein sequence, revealed that the H. pylori GroES have the carboxyl extension of 28 amino acid fragment, and this fragment is unique to H. pylori was not found in other organisms. In view of this, it is necessary to disscuss how this fragment playing an important role in the pathogenicity of H. pylori. Recombinant proteins of full length H. p GroES (H. p GroES), removing the carboxyl 28 amino acids of the H. p GroES (H. p ΔGroES(1-90)), and E. coli GroES were prepared, using in vitro and in vivo methods to study function of these proteins. In in vitro methods, human PBMCs, MKN45 cells and THP-1 cells, had treated with three types of GroES protein, found that H. p GroES will lead to high levels of proinflammatory cytokine IL-8. In the cantrast, H. p ΔGroES(1-90) and E. coli GroES treatment groups had lower ability to induce IL-8 secretion in these cells. In in vivo approach, zebrafish were used as a model organism, dealing with these kinds of proteins in zebrafish. Using Q-PCR to analyze these groups of their mRNA expression showed that IL-1, IL-8 had high levels in H. p GroES treatment groups compared to control and other treatment groups. Performing In situ Hybridization to stain different groups of biopsy also discovered IL-1, IL-8 and TNF-α had higher RNA expression level at the digestive tract in zebrafish treated by H. p GroES. This phenomenon cannot be found in other treatment group. In summary, H. pylori Carboxyl 28 amino acids plays a key part in H. p GroES to induce the release of proinflammatory cytokines, and these results also suggested that H. pylori GroES protein may promote the gastric epithelial cells and immune cells inflammatory response.