Hyalinizing clear cell carcinoma (HCCC) is a rare malignant tumor of the salivary gland. HCCC comprises variable amounts of clear cells and eosinophilic cells with occasional mucocytes. Tumor cells usually arrange in irregular nests, cords, or trabecular architecture, separating by hyalinized stroma. Clear cells are not uncommon in other salivary gland tumors, and sometimes it is difficult to differentiate HCCC from other salivary gland tumors with a clear cell component, especially clear-cell variant mucoepidermoid carcinoma (MEC) which also has clear cells, eosinophilic cells and mucocytes. Genetic tests like fluorescence in situ hybridization (FISH) are usually required for definite diagnosis. The majority of HCCCs harbors EWSR1::ATF1 fusions, while up to 80% of MECs have MAML2 rearrangements. However, FISH is expensive and not available in most pathological laboratories. Therefore, finding a useful marker for differential diagnosis between HCCC and MEC is essential. The genetic EWSR1::ATF1 fusion in HCCC is also observed in other tumors such as clear cell sarcoma. It has been found that the ATF1 can increase cathepsin K expression in clear cell sarcoma, which makes it a useful marker in the diagnosis. In this study, we aimed to test if cathepsin K could serve as a useful marker based on the fact that both HCCC and clear cell sarcoma harbor the same ATF1 fusions. Retrospectively, 22 HCCC cases with EWSR1 rearrangement confirmed by FISH and 21 MEC cases were collected. Cathepsin K immunohistochemical staining (IHC) was performed to determine if there was any differential expression of cathepsin K between these two types of salivary gland tumors. The result showed that all HCCC cases had cytoplasmic staining for cathepsin K while only 19% of MEC cases showed positive cytoplasmic staining. Moreover, HCCC also exhibited a unique membranous staining in variable proportion of tumor cells ranging from focal to diffuse areas, whereas none of the MEC cases displayed cathepsin K membranous staining. Moreover, to evaluate cathepsin K expression in salivary gland tumors, we further conducted cathepsin K IHC staining on ten different types of salivary gland tumors. We observed that salivary gland tumors with epithelial cell or myoepithelial cell components tend to exhibit cytoplasmic and membranous cathepsin K staining. The detailed mechanism remains unclear, and further research is required to determine the membranous staining of cathepsin K in HCCC and the effects of cathepsin K on salivary gland tumors. In summary, our study showed that cathepsin K IHC is a novel marker in the differential diagnosis between HCCC and MEC, especially the unique membranous staining found in HCCC. The expression of cathepsin K in salivary gland neoplasms was also analyzed, providing evidence supporting using cathepsin K in the diagnosis of salivary gland tumors.