Globo H, a tumor-associated carbohydrate antigen, is present on various epithelial tumors such as the breast, colon, ovarian, gastric, pancreatic, lung and prostate cancers in humans. It was realized that globo H had restricted presence on normal epithelial cells, making it an ideal target of immunotherapy. Preclinical studies showed that an antibody response could be successfully generated after vaccination of globo H conjugates. Phase II/III clinical trials found that human breast cancer patients with an elevated antibody response experienced prolonged progression free survival and overall survival times. The present study investigated globo H expression in canine malignant mammary gland tumors (MGT) and its prognostic significance in this type of cancer. Evidence of globo H facilitating cancer cells to evade immune surveillance was apparent in vitro, in addition to having associations with negative prognostic factors clinically in various cancers in humans, so we hypothesized that globo H expression would also have significant associations with the known negative prognostic factors in MGT. We also reported here the preliminary results from an accelerated phase I clinical trial of the globo H conjugate vaccine when used in dogs with malignant MGT. Globo H expression was evaluated in 49 malignant MGT samples from 45 dogs. Globo H was positive in 30 (61%) tumors and negative in 19 (39%) tumors. The median tumor size was significantly larger for globo H negative than positive tumors (P = 0.04). Globo H expression differed for early and advanced staged patients; globo H positive tumors were more likely to be early staged tumors (P = 0.007). Histologically, globo H expression was significantly more likely to be negative in grade 3 tumors than lower graded tumors (P = 0.001). Breed (P = 0.014) and weight (P = 0.013) also differed significantly for dogs with globo H positive and negative tumors. Globo H expression was not associated with overall survival time and disease-free interval for the dogs. Five dogs with malignant MGT received vaccinations of globo H-KLH with QS-21 as the post-operative adjuvant therapy. Four out of 5 dogs experienced various degrees of adverse events related to the vaccines. Two dogs experienced injection site reaction and 3 dogs became anorexic and lethargic after the second dose of vaccination. While most of the events were low grade and self-limiting, one dog experienced an episode of grade 3 lethargy after the second vaccination, requiring dose reductions in following vaccinations. Contrary to the findings from human studies, our results showed that globo H expression was associated with several favorable prognostic factors in MGT such as histologic low grade, early stage and small tumor size. According to the molecular functions of globo H, it is suspected that presence of globo H on well differentiated secretory epithelial cells may create a microenvironment suitable for tumor development, facilitating malignant transformation of mammary gland tumor cells. With highly malignant MGTs, tumor cells begin to lose their differentiation, hence the mostly undetectable globo H expression in grade 3 MGTs in our study. More research is required to clarify the discrepancy found in the present study and previous studies. Overall, the case number is too limited to conclude on adverse effects of globo H vaccine but when injected in the initial dose range, it was well tolerated. Further study on safety and efficacy of the vaccine should be continued.