Macrophages play a pivotal role in inflammation and innate immune responses. Foreign substances recognized by macrophages trigger a serial of signaling cascades upon ligand–receptor stimulation through receptors expressed on cell surface resulting in release of several pro-inflammatory and anti-inflammatory cytokines, and the activation of other immune cells. In the meanwhile, macrophages adhesion is a key event within the immune system. Relying on the receptors or integrins function, macrophages perform recruitment, migration and infiltration to the infected site from the bloodstream. Among the Malaysia viper (Calloselasma rhodostoma) venom, many types of functional snake venom proteins have been discovered, including the anti-adhesive molecules reported in anti-inflammatory literatures. The fraction 3-5 (F3-5) protein isolated from Calloselasma rhodostoma crude venom (CRV), has a molecular weight 22,186 Da, devoid of fibrinogenolytic, azocaseinolytic and PLA2 activities. F3-5 10μg/ml (0.45μM) inhibited the LPS (200ng/ml)-induced IL-6 release of primary mice macrophages, and also the release of TNF-α of primary macrophages and RAW macrophages stimulated by lower concentration (100ng/ml) LPS. In the cell adhesion assay, F3-5 (10μg/ml ) significantly reduced the augmented adhesive activity of macrophages caused by LPS stimulation. We also observed that F3-5 significantly inhibited the phosphorylation of p-38, ERK and JNK of macrophages stimulated by LPS, assayed by Western blot. Furthermore, F3-5 (10μg/ml) as well as LPS (1μg/ml), significantly inhibited the binding of TLR4 mAb to macrophages as evaluated by flow cytometric analysis. Taken together, the purified active component CRV F3-5 exhibits inhibitory effect on LPS-stimulated IL-6 and TNF-α release of primary macrophages and RAW cells at least partly through TLR4 blockade and the inhibition on the subsequent phosphorylation of p-38, ERK and JNK. However, the detailed mechanism of its action needs further investigations.