Iron deficiency, the most common micronutrient deficiency in humans, is associated with long-term deficits in cognition and memory if left untreated. Infection with the gastric pathogen Helicobacter pylori has been linked to iron deficiency anemia (IDA). The H. pylori virulence factor cytotoxin-associated gene A (cagA) is proposed to be especially pertinent in iron deficiency. Male INS-GAS/FVB mice were infected with the CagA+ strain pre-murine Sydney strain 1 (PMSS1) for 12–13 or 27–29 weeks to investigate the role of chronic H. pylori infection in iron deficiency and neurological sequelae. Mice at both timepoints demonstrated significantly elevated gastric histopathology scores and inflammatory cytokines compared to sham-dosed controls. However, only mice at 27–29 weeks post infection had changes in hematological parameters, with significantly decreased erythrocyte count, hematocrit, serum hemoglobin, and increased serum total iron binding capacity. Gastric transcription of iron-regulatory genes Hamp and Bmp4 were significantly downregulated at both timepoints. In the brain, iron-dependent myelingergic and synaptic markers were significantly downregulated at 27–29 weeks. These results indicated that long-term infection of the CagA + PMSS1 strain of H. pylori in this study caused anemia, altered gastric iron homeostasis, and neurological changes similar to those reported in other rodent H. pylori CagA− strain infection models.
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