The discovery of the association of Helicobacter pylori with gastritis, peptic ulcers, and gastric neoplasia has led to fundamental changes in the understanding of gastric disease in humans (5, 38, 64, 67). Investigation of the relationship of gastric disease to Helicobacter spp. in other species has resulted in the discovery of Helicobacter mustelae in ferrets with gastritis and peptic ulcers, Helicobacter acinonyx in cheetahs with severe gastritis, and Helicobacter heilmannii in pigs with gastric ulcers (11, 19, 59). Infection with Helicobacter spp. is also highly prevalent in cats, with spiral shaped bacteria 5 to 12 μm long, demonstrated in gastric biopsies from 86 to 100% of random-source cats (53, 62), 41 to 91% of clinically healthy pet cats (26, 30, 49, 73), 93 to 100% of laboratory cats (9, 54, 70), and 57 to 76% of cats with recurrent vomiting (26, 33, 73). H. pylori has been observed in a group of laboratory cats, but not pet cats, and is associated with gastritis in cats (22, 28). Excluding cats with H. pylori infection, the gastric Helicobacter-like organisms (HLOs) in cats are morphologically indistinguishable by light microscopy, but have been classified into several Helicobacter spp. on the basis of cultural characteristics, 16S rRNA sequencing, DNA hybridization, PCR with species-specific primers, electron microscopic appearance, and protein profiling (9, 15, 34, 36, 49, 51). To date, Helicobacter felis, H. heilmannii, Helicobacter pametensis, and H. felis- and H. heilmannii-like organisms have been identified (9, 15, 34, 36, 49, 51). Despite their prevalence, the relationship of Helicobacter spp. to disease in cats is unresolved. Gastritis and glandular degeneration accompany infection in some, but not all, infected cats, and many are asymptomatic despite infection (30, 33, 53, 62, 73). Investigations of the pathogenicity of large gastric HLOs in cats have focused on describing the infecting bacteria and histopathology in cats with naturally acquired infections, and only a few studies have included Helicobacter-free cats (26, 30, 73). The host immune response to infection and gastric secretory function have not been examined. Consideration of those factors is important, because H. pylori infection in people is associated with gastritis, the induction of proinflammatory cytokines, seroconversion, and changes in gastric function. Increased acid secretion is associated with antral gastritis and duodenal ulceration (12, 13, 47), whereas achlorhydria is observed shortly after infection with H. pylori and when the gastric fundus and body is inflamed or atrophied (14, 44, 46, 65). Hypergastrinemia is a consistent finding in H. pylori-infected people and is present in asymptomatic individuals, those with achlorhydria, and those with duodenal ulcers (13, 27). Eradication of H. pylori has been associated with amelioration of gastritis and hypergastrinemia, decreased acid secretion in people with acid hypersecretion, and increased acid secretion in achlorhydric patients (13, 14, 47). It is presently unclear if Helicobacter spp. other than H. pylori can induce such changes and whether the alterations in gastric function which accompany infection with H. pylori are a consequence of bacterial products, such as urease, ammonia, or acid inhibitory factors, or the inflammatory response evoked by the bacterium. There is a clear need to determine if H. felis is a gastric pathogen in cats and for animal models that will enable evaluation of the consequences of Helicobacter colonization for somatostatin and gastrin physiology, acid secretion, and mucosal inflammation. We report here the evaluation of gastric histopathology, antral interleukin 1α (IL-1α), IL-1β, and tumor necrosis factor alpha (TNF-α) mRNA expression, acid secretion, plasma gastrin, antral somatostatin and gastrin immunoreactivity, and circulating anti-H. felis immunoglobulin G (IgG) after experimental infection of cats with H. felis.