Studies indicate that exercise can reduce the risk of cancer and delay cancer progression. Exercise induces the release of humoral factors from muscle cells, which were called myokines. Irisin is a myokine that can induce browning of adipocytes, and glycosylation could enhance its function in browning. Previous studies of our laboratory found that irisin can reduce cell invasion and proliferation of a human glioblastoma cell line, U-87 MG. We proposed that glycosylated irisin could have higher impact on glioblastoma. Hence, in the thesis, we produced recombinant human irisin protein in Pichia pastoris, and investigated its effects on human glioblastoma cell lines. Our studies showed that irisin reduced cell proliferation but not cell apoptosis. We also found that glycosylated irisin had a better effect on reducing cell proliferation than nonglycosylated irisin from bacteria, indicating that glycosylation has its importance in the biological function of irisin on cancer cells. Irisin reduced cell proliferation by causing cell cycle arrest, including G0 and G2 arrest upon 48 and 72 hours of irisin treatment, respectively. Moreover, irisin induced expression of CDK inhibitor p21Waf1/Cip1 and phosphorylation of cdc2, a cyclin-dependent kinase. p21 binds and inactivates CDK-cyclin complexes and causes cell cycle arrest. Cdc2 regulates the G2/M checkpoint and dephosphorylation activates cdc2 to progress cells through the G2/M checkpoint. Therefore, the ratio of phosphorylated cdc2 increased in irisin treated cells attributed to the G2 arrest of the cell cycle. Furthermore, we found that irisin inhibited cell migration and invasion of U-87 MG cells. Protein levels of SerpinB2 and TFPI-2 were also up-regulated by irisin. However, whether irisin inhibits migration and invasion by inducing SerpinB2 and TFPI-2 still needs further investigation. The mechanism of how irisin induces p21Waf1/Cip1 expression and cause phosphorylation of cdc2 also needs further experiments to find out. Nonetheless, we propose that irisin could delay cancer progression and might be a novel strategy for cancer prevention.