In order to learn the effect of β-actin in acute radiation injury, the changeable pattern with time of plasma β-actin, PT, APTT, FIB and IL-8 in mice spleen tissue exposed to 6 Gy γ-rays radiation was investigated. Blood and spleen were collected at immediate, 1, 2, 3, 4, 7 and 14 d after irradiation, respectively. The contents of blood β-actin were detected by magnetic bead separation enzyme-linked immunosorbent. An STAGO blood coagulation instrument was used to determine PT, APTT and FIB. DNA expression of IL-8 was detected by real time-PCR analyzer. The results show that the level of β-actin in serum of irradiated mice is higher than that of normal control group at all different post-irradiation time points although the change of β-actin in serum of irradiated mice with time schedule shows a pattern which increases within 1d and declines beyond 1d. The trend of the changes in plasma PT, APTT, FIB and in spleen IL-8 and time pattern of these changes are similar to that in plasma β-actin in irradiated mice. The difference in values and the time phase between plasma β-actin and other indexes is the reaching time of peak values and the declining levels of the values. These results are valuable for studying the role of β-actin in acute radiation sickness pathology process and can be used to explore new factors influencing and regulating pathology process.