Background: Remodeling of epithelial junctional architecture contributes to colorectal cancer (CRC) progression; however, the spatial organization linking tight-junction components to early dissemination remains incompletely characterized. Claudin-2 (CLDN-2) is frequently upregulated in CRC, yet whether it is associated with compartment-specific epithelial remodeling has not been systematically examined. Methods: In a retrospective single-center cohort of 54 surgically resected CRCs, we integrated clinicopathological variables, quantitative tumor budding counts, compartment-specific membranous E-cadherin expression, lymphovascular invasion, lymphoid follicles, and immune-cell densities. Analyses focused on spatial structural relationships within the tumor. Results: Higher CLDN-2 expression was enriched among node-positive tumors and advanced TNM stages. CLDN-2–higher tumors exhibited increased tumor budding and spatially selective adhesion remodeling, characterized by reduced membranous E–cadherin at the invasive front and budding sites, with more preserved membranous epithelial organization within metastatic lymph-node deposits. Descriptive co-occurrence and correlation analyses demonstrated concordant spatial relationships among CLDN-2 expression, tumor budding, nodal involvement, lymphovascular invasion, and compartment-specific E-cadherin patterns. In contrast, immune-related parameters showed weaker differentiation across CLDN-2 strata. Conclusions: CLDN-2 expression is associated with spatial epithelial remodeling in colorectal cancer, characterized by compartment-specific adhesion changes and increased microinvasive activity. The findings support a model in which CLDN-2 expression aligns with an invasion-associated epithelial configuration linked to tumor budding and nodal dissemination. These observations warrant validation in independent cohorts with outcome data.
Markowski et al. (Thu,) studied this question.