Gene expression is a complex process that involves several distinct stages, but it is little known about crosstalk among these stages. The Rpb4 (ScRpb4, Rpb4) is a subunit of Saccharomyces cerevisiae RNA polymerase II (Pol II) which is composed of 12 subunits. The major function of Pol II is responsible for mRNA synthesis (transcription) in the nucleus. However, Rpb4 and Rpb7 can form a heterodimer and depart from the nucleus to the cytoplasm. In cytoplasm, Rpb4 has been found to act in mRNA decay pathway and mRNA translation. It raises the possibility that Rpb4 links between the nuclear and cytoplasmic processes. Rpb4 plays a coordinator, which integrates the various stages to determine the gene expression. In our study, we aim to explore the function of Homo Sapiens RPB4 (HsRPB4,RPB4) in mammalian cell. Firstly, we found RPB4 localizes partially in cytosol and colocalizes with P-bodies in HeLa cell by transfecting GFP-RPB4. Secondly, in HEK293T cell overexpression of RPB4 down-regulates the activity and protein expression level of reporter luciferase by using MS2-tethering system where Flag-MS2-RPB4 fusion protein binds luciferase mRNA containing MS2 binding site; however, RPB4 does not decrease the luciferase mRNA level compared to the control. Furthermore, we performed sucrose gradients to fractionate polysomes and examined the distribution of Flag-MS2-RPB4 and luciferase mRNA. We found RPB4 is located in 40S ribosome fraction and the amount of luciferase mRNA in polysome was declined in the presence of Flag-MS2-RPB4. Subsequent subcellular analysis showed that more Flag-MS2-RPB4 was detected in nuclei when cotranstected with MS2-binding elements containing luciferase reporter than the control luciferase reporter. Taken together, these findings suggest the possible mechanism of RPB4 mediated reporter down-regulation is by retaining reporter mRNA in nucleus to reduce protein translation.