Renal cell carcinoma (RCC) was thought to be one of major types of human kidney cancers, and it is characterized by a high mortality rate and a high resistance to chemotherapeutic treatment as well as radiations. However, high occurrence of advanced and metstatic RCC often attributed to the absence of early warning signs and thus, the oncogenists have taken a lot of efforts to identify the molecular marker and investigate the mechanism of tumorigenesis of RCC. CD74 is expressed in antigen-presenting cells (APCs) such as macrophages, B-cells and dendritic cells. Once synthesized, CD74 is associated with major histocompatibility complex (MHC) class II and assists class II trafficking, class II folding and avoidance of abnormal-antigen binding. In addition, CD74 was found to be expressed in several types of carcinoma and class II negative cells inferring that CD74 may has a novel function besides to its class II chaperon activity. By binding to CD74, MIF was demonstrated to elicit ERK1/2 MAP Kinase signaling, cell proliferation and PGE2 production. However, MIF has been described to be a tumor-promoting protein, and whether CD74 involves in MIF for promoting tumor growth is still needed to be studied Transcriptional up-regulation of CD74 was found previously in full-length cDNA library of a RCC tissue by Mr. S. W. Tang in this laboratory. In this study, up-regulation of CD74 was generally found in mRNA level and protein level of several RCC tissue pairs. In functional study, overexpression of CD74 stimulated ERK1/2 and p38 signaling, which could be initiated by binding of MIFs to CD74 on the cell surface in an autocrine fashion. Surprisely, it was found that tumor suppressor p53 protein was decreased by expression of CD74, and it was accompanied by up-regulation of Hmd2. Also, the N-terminal proteolytically cleavage of CD74 carried out in HeLa cells, and the cleavage fragment (1a.a-58a.a, NTF) could translocate to nucleus. Taken together, we suggested that overexpression of CD74 led to the binding of MIF to CD74 on the cell surface in an autocrine manner, resulting in the activation of ERK1/2 and p38 signaling. In addition, overexpression of CD74 could also up-regulate Hmd2 and the down-regulate p53.