Abstract
BACKGROUND: The airway lesions in COPD are mediated by a variety of inflammatory cells, among which the Th1-dominated delayed-type hypersensitivity response can also cause irreversible damage to normal airways. The immune checkpoint TIGIT and its downstream phosphatase SHIP-1 play a crucial role in coordinating the immune response of CD4 + T cells by regulating the phosphoinositide pathway. METHODS: This study evaluates the expression patterns of TIGIT/SHIP-1 in CD4 + T cells within the context of smoking-induced COPD and investigates the mechanisms by which TIGIT/SHIP-1 affects CD4 + T cells, also the downstream signaling changes regulating Th1 inflammation. In smoking COPD, we established a research framework encompassing clinical, animal, cellular levels including flow cytometry, immunofluorescence, and chromatin immunoprecipitation. RESULTS: We found that CD4 + T cells in smoking COPD exhibit upregulated expression of TIGIT/SHIP-1, and specific knockout of CD4-Tigit and short-term in vivo inhibition of SHIP-1 significantly elevated Th1 levels in emphysematous mice. Through single-cell and bulk-RNA bioinformatics analysis, we identified RelB that regulates COPD-Th1 inflammation by regulates TBX21 in transcriptional level and confirmed its excessive activation in COPD-Th1 inflammation. The PI3K/AKT signaling, acting downstream of TIGIT/SHIP-1, influences the activation of RelB in Th1 cells. CONCLUSIONS: In smoking-induced COPD, TIGIT/SHIP-1 affects the activation of RelB through the PI3K/AKT pathway, thereby regulating the expression of Th1. It offers insights underlying the immune mechanism of COPD.