Rodent biliary glycoprotein (Bgp), also known as C-CAM, has recently been shown to function as a tumor suppressor in colon, prostate, and bladder cancers. This glycoprotein is a member of the carcinoembryonic antigen family and is one of the only proteins in this family to encode either a long (71–73 amino acids) or short (10 amino acids) cytoplasmic domain. We and others have shown that the growth-inhibitory properties of Bgp depend upon the expression of its long cytoplasmic domain. However, the two Bgp isoforms normally coexist in most cell types surveyed; the longer variant is usually present in lower amounts than the shorter one. In this study, we have examined the in vitro and in vivo growth properties of both mouse Bgp variants separately and in combination. To determine the physiologically relevant expression levels and ratios of the two Bgp variants, we have quantified the amount of the longer variant in normal colonic epithelial cells and showed that it constitutes 15–20% of total Bgp expressed in this tissue. To mimic the in vivo situation, we have generated double transfectant cell lines expressing the longer and shorter Bgp isoforms coordinately in tumorigenic CT51 mouse colonic carcinoma cells and demonstrated that the longer Bgp isoform exhibits a dominant tumor growth inhibition phenotype over that of the shorter variant within physiological levels of expression of Bgp. Unexpectedly, significant overexpression of the longer Bgp isoform alone led to reversal of the tumor inhibition phenotype. These results, therefore, suggest that there may be a limiting threshold of Bgp expression or Bgp-associating proteins mediating the tumor inhibition phenotype.