Abstract
BACKGROUND: Helicobacter pylori (H. pylori) is widely present in the human gastric mucosa and is closely associated with a variety of gastric diseases. Recent studies have found that H. pylori infection is closely associated with diabetic patients and may adversely affect their glucose metabolism and organ function. However, the effect of H. pylori infection on pathological changes in the body during a diabetic state remains unclear. AIM: To investigate the effects of H. pylori infection on the physiology and pathological changes in the organs of diabetic mice. METHODS: The diabetic mice models were established using streptozotocin (STZ). The mice were infected with H. pylori through oral gavage, with their fasting blood glucose (FBG) and body weight monitored dynamically over a period of 1 to 13 months after infection. Pathological changes in major organs (including the pancreas, stomach, liver, and kidneys) were assessed, along with apoptosis levels in these tissues. The expression of H. pylori virulence factors in the liver and alterations in the intestinal microbiota were also analyzed. RESULTS: H. pylori infection led to significant fluctuations in FBG in diabetic mice from the 1(st) to 9(th) month, with FBG levels remaining consistently elevated. Body weight increased gradually but remained significantly lower than that of both uninfected diabetic mice and non-diabetic controls. Pancreatic islet cell numbers decreased, accompanied by persistent inflammation and tissue damage for over 9 months. H. pylori colonized the stomach for at least 7 months, causing irreversible gastric mucosal inflammation; by the 13(th) month, diffuse dense inflammatory infiltration occupying the entire submucosal layer was observed. Progressive damage was observed in liver and kidney tissues, with marked expression of H. pylori virulence factors in the liver by the 9(th) month. Additionally, significant gut microbiota dysbiosis was observed. CONCLUSION: The STZ-induced diabetic mouse model with H. pylori infection can significantly prolong the colonization time of H. pylori in the stomach and exacerbate the degree of damage to the stomach, liver, and kidney organs.