Adenocarcinoma NOS of salivary glands is characterized by a high rate of local recurrences and metastasis. Long-term survival rate of Adenocarcinoma NOS lis not promising. Thus, different chemotherapeutical approaches had been proposed for this neoplasm, including apoptosis induction by drugs. The current treatment of choice of adenocarcinoma NOS is controversible, and an effective treatment for them is not yet available. Chemotherpeutic agents that can be inhibit or reverse the tumor growth by targeting apoptotic pathways will be new candidates for cancer prevention and therapy. The purpose of this study were to study the effect of Brefeldin A(BFA) as apoptotic inducing agent in SGT cell line from human submandibular adenocarcinoma NOS and apply these results to make a plan of treatment and prognosis of salivary gland tumors involving adenocarcinoma NOS. SGT cells were treated with a 300μM BFA solution in serum-free medium during 18 hours. SGT cells were grown in DMEM with 10% fetal bovine serum served as controls. The growth curve and MTT assay for succinyl dehydrogenase activity were performed. For apoptotic analysis, fragmentation of genomic DNA was confirmed with gel electrophoresis. Transmission electron microscopy was assessed for the effect of BFA on SGT cells phenotype. Apoptotic cell recognition and counting were carried out with Annexin-V, caspase 3 and APo2.7 antibody through flow cytometry. Growth of SGT cell line was abrutply decreased after 1 day of BFA treatment. MTT assay for succinyl dehydrogenase activity of the cells showed about 55% after 300μM BFA treatment. Destruction of cellular organells, numerous vacuolation in the cytoplasm & nucleus, chromatin margination, & fragments of nucleus were seen with TEM after 300μM BFA treatment. DNA fragmentation of SGT cell line was induced by 300μM BFA treatment and confirmed by gel electrophoresis from genomic DNA extraction. Late apoptosis of the cells through flow cytometric analysis of Annexin-V staining as induced by 300μM BFA treatment. Early apoptosis of the cells through flow cytometric analysis of caspase 3 and Apo 2.7 staining was induced by 300μM BFA treatment. It suggested that early and late apoptosis of SGT cell line would be induced by Brefeldin A treatment in vitro study. This work evaluated the efficacy of BFA, a potent apoptosis inducer, on SGT cultured cell line. And BFA as chemotherapeutic agent will be used as the treatment choice for adenocarcinoam NOS, and be need to apply BFA to in vivo study & clinical approach in future.