Grifola frondosa is a Japanese traditional medicine and is phylogenetically close to a Chinese traditional medicine, Grifola umbellate. A novel immunomodulatory protein (G. frondosa protein, GFP) was purified form the fruiting bodies of G. frondosa. Size-exclusion chromatography and SDS-PAGE electrophoresis results indicated that the native GFP (83 kDa) was a dimer consisted of 41.1 kDa subunits and was not a glycoprotein. By the analysis of N-terminal amino acid sequence, we discovered that the subunits of GFP were different proteins. Therefore, we concluded that GFP was a non-glycosylated heterodimer protein with subunits having the same molecular weight. GFP enhanced cell viability and induced IFN-γ production by murine splenocytes in vitro. In murine splenocytes, we observed an increase in expression of CD25, CD69 on T cells and NKG2D on natural killer (NK) cells. GFP could directly stimulated IFN-γ production by CD49b+ NK cells. However, GFP could not directly stimulate T cells. The IL-12 produced by GFP-stimulated bone marrow derived dendritic cells (BMDCs) was required for GFP-induced T cells activation. GFP also increased the expression of major histocompatibility complex (MHC) class I, II, CD86 molecules and induced IL-12, IL-6 production by BMDCs in a TLR4-dependent manner. Finally, GFP-treated BMDCs vaccines inhibited tumor growth and increased tumor-specific antibody production in a LLC-1 murine tumor model. Taken together, these studies characterized a new immunomodulatory protein, GFP, which triggered a Th1-dominant immune response and suppressed tumor growth. These results provided new pharmaceutical and commercial potential of G. frondosa.