Wnt signaling has been identified as one of the key signaling pathways in cancer, regulating cell growth, motility and differentiation. Because of its widespread activation in diverse human tumor diseases, the Wnt pathway has gained considerable and growing interest in tumor research over recent years. Evidence that altered Wnt signaling is important for human tumor development came from three major findings: (i) the tumor suppressor adenomatous polyposis coli (APC) binds to the Wnt pathway component beta-catenin and is involved in its degradation, (ii) mutations of APC in colon tumors lead to stabilization of the beta-catenin protein and (iii) tumor-associated mutations of beta-catenin in colorectal cancer as well as in other tumor types lead to its stabilisation, qualifying beta-catenin as a proto-oncogene. Here we will describe the biochemical interactions which shape the Wnt pathway and focus on its role in tumorigenesis.