Abstract
Initially discovered as an estrogen-responsive gene in breast cancer cell lines, anterior gradient 2 (AGR2) is a developmentally regulated gene belonging to the protein disulfide isomerase (PDI) gene family. Developmentally, AGR2 is expressed in the mammary gland in an estrogen-dependent manner, and AGR2 knockout and overexpression mouse models indicate that the gene promotes lobuloalveolar development by stimulating cell proliferation. Although AGR2 overexpression alone seems insufficient for breast tumorigenesis in mice, several lines of investigations suggest that AGR2 promotes breast tumorigenesis. Overexpression of AGR2 in several breast cancer cell lines increases cell survival in clonogenic assays and cell proliferation, whereas AGR2 loss of function leads to decreased cell cycle progression and cell death. In addition, AGR2 was shown to promote metastasis of breast epithelial cells in an in vivo metastasis assay. As a PDI, AGR2 is thought to be involved in the unfolded protein response that alleviates endoplasmic reticulum stress. Since cancer has to overcome proteotoxic stress due to excess protein production, AGR2 may be one of many pro-survival factors recruited to assist in protein folding or degradation or both. When AGR2 is secreted, it plays a role in cellular adhesion and dissemination of metastatic tumor cells. In breast cancer, AGR2 expression is associated with estrogen receptor (ER)-positive tumors; its overexpression is a predictor of poor prognosis. The AGR2 gene is directly targeted by ER-alpha, which is preferentially bound in tumors with poor outcome. Whereas aromatase inhibitor therapy decreases AGR2 expression, tamoxifen acts as an agonist of AGR2 expression in ER-positive tumors, perhaps contributing to tamoxifen resistance. AGR2 is also overexpressed in a subset of ER-negative tumors. Furthermore, AGR2 expression is associated with the dissemination of metastatic breast cancer cells and can be used as a marker to identify circulating tumor cells and metastatic cells in sentinel lymph nodes. In conclusion, AGR2 is a promising drug target in breast cancer and may serve as a useful prognostic indicator as well as a marker of breast cancer metastasis.
Highlights
The estrogen receptor (ER) is a key regulator of mammary gland development and breast carcinogenesis, regulating pro-proliferative and pro-survival genes in breast epithelial cells
Many questions regarding the functional role of anterior gradient 2 (AGR2) in normal mammary gland development and breast cancer remain, such as whether AGR2 is a key mediator of ER-mediated cell proliferation
There is a need to determine how important protein disulfide isomerase (PDI) function is for the biological effects of AGR2 in the mammary gland and breast cancer, and if AGR2 functions primarily as a PDI, its key enzymatic targets need to be defined
Summary
The estrogen receptor (ER) is a key regulator of mammary gland development and breast carcinogenesis, regulating pro-proliferative and pro-survival genes in breast epithelial cells. Several secreted proteins, including the metastasis-associated GPI-anchored C4.4A protein and the extracellular domain of alpha-dystroglycan (DAG-1) [3,51,56], have been found in in vitro experiments to directly interact with AGR2, suggesting potential mechanisms for AGR2 in promoting tumor metastasis [13] through the regulation of receptor adhesion and interaction with extracellular matrix These functions have not been validated at the molecular level, they are supported by work on other cancers in which AGR2, acting as a cell surface antigen, is involved in the dissemination of pancreatic tumor cells through the activation of cathepsins B and D [55]. These data provide strong evidence for AGR2 regulation of cell proliferation in cancer through multiple signaling pathways
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