In epithelial tissues, intercellular adhesion structures are formed between adjacent cells via intercellular adhesion factors, such as zonula occludens (ZO-1), to maintain the structure and function of tissues and organs, thereby contributing to homeostasis. Epithelial cells are polarized into apical and basal regions by tight junctions (TJs), a type of intercellular adhesion structure, and thus, their intracellular organelles are asymmetrically distributed. Normal epithelial cells maintain their cellular function by controlling cytoskeletal reorganization, motility, and division by maintaining asymmetry in their intracellular organelles. Among the features common to many cancer tissues are abnormalities in cell polarity and intercellular adhesion. Lung adenocarcinoma consists of a mixture of five different histologic types that can be distinguished in the same section: lepidic, papillary, acinar, micropapillary, and solid patterns. Therefore, it is often difficult to accurately assess histological images because the staining differs according to the histological types. In the present study, we evaluated ZO-1 staining based on histological features observed in a single section and examined its relationship to clinicopathological features. In non-tumor areas, ZO-1 was expressed on the plasma membrane and in the cytoplasm of normal alveolar epithelial cells. However, in tumor areas, ZO-1 staining was mainly localized in the cytoplasm and on the plasma membrane only in a few cells. ZO-1-negative cases tended to have poorer prognoses in all histological types, with a poorer prognosis in the solid pattern. These results suggest that ZO-1 expression in solid-pattern lung adenocarcinoma may be a useful prognostic marker.