Brahma (BRM) is one of the core ATPase subunits of SWI/SNF chromatin remodeling complex, and participates in various important cellular regulatory processes. However, the role of BRM in regulating gene expression of the mechanistic target of rapamycin (mTOR) still remains unknown. In this study, we explored the effects and the corresponding molecular mechanisms of BRM on Leucine (Leu)-stimulated mTOR activation in and proliferation of a mouse mammary epithelial cell (MEC) line (HC11 cell). Initially, we found that the abundance of BRM protein in mammary gland tissue during lactation was significantly higher than that during puberty and involution. BRM knockdown inhibited HC11 cell proliferation, mRNA expression of mTOR and subsequent protein phosphorylation, whereas BRM gene activation had the opposite effect. Leu affected the level of BRM protein and mTOR phospphorylation in a dose-dependent manner, and BRM knockdown totally blocked the stimulation of Leu on mTOR mRNA expression and protein phospphorylation. ChIP-PCR detected that BRM was bound to the −4368 ∼ −4591 bp site of the mTOR promoter, and ChIP-qPCR further detected that Leu stimulated BRM to bind to this site. In conclusion, these data reveal that BRM is a positive regulator of HC11 cell proliferation and mediates Leu's stimulation on mTOR gene transcription and protein phosphorylation. Our data provide a new theoretical basis for the involvement of BRM in cell proliferation and regulation of the mTOR signaling pathway.