Abstract
Tumor cells display on their surface several molecular chaperones that normally reside in the endoplasmic reticulum. Because this display is unique to cancer cells, these chaperones are attractive targets for drug development. Previous epitope-mapping of autoantibodies (AutoAbs) from prostate cancer patients identified the 78-kDa glucose-regulated protein (GRP78) as one such target. Although we previously showed that anti-GRP78 AutoAbs increase tissue factor (TF) procoagulant activity on the surface of tumor cells, the direct effect of TF activation on tumor growth was not examined. In this study, we explore the interplay between the AutoAbs against cell surface-associated GRP78, TF expression/activity, and prostate cancer progression. First, we show that tumor GRP78 expression correlates with disease stage and that anti-GRP78 AutoAb levels parallel prostate-specific antigen concentrations in patient-derived serum samples. Second, we demonstrate that these anti-GRP78 AutoAbs target cell-surface GRP78, activating the unfolded protein response and inducing tumor cell proliferation through a TF-dependent mechanism, a specific effect reversed by neutralization or immunodepletion of the AutoAb pool. Finally, these AutoAbs enhance tumor growth in mice bearing human prostate cancer xenografts, and heparin derivatives specifically abrogate this effect by blocking AutoAb binding to cell-surface GRP78 and decreasing TF expression/activity. Together, these results establish a molecular mechanism in which AutoAbs against cell-surface GRP78 drive TF-mediated tumor progression in an experimental model of prostate cancer. Heparin derivatives counteract this mechanism and, as such, represent potentially appealing compounds to be evaluated in well-designed translational clinical trials.
Highlights
Tumor cells display on their surface several molecular chaperones that normally reside in the endoplasmic reticulum
We present data that support an intriguing and unique role for anti-GRP78 AutoAbs as potentiators of human prostate cancer cell proliferation in vitro and tumor growth in vivo, using the DU145 model cell line
By using experimental cell culture, mouse models, and clinical samples, we consistently demonstrate a functional role of anti-GRP78 AutoAbs as a determinant of prostate cancer progression
Summary
Tumor cells display on their surface several molecular chaperones that normally reside in the endoplasmic reticulum. By epitope-mapping (“fingerprinting”) the circulating repertoire of AutoAbs in prostate cancer patients, we identified the consensus motif CNVSDKSC [12] as a recognized epitope that corresponds to an N-terminal domain (Leu98–Leu115) of GRP78 [22] This immunogenic portion of GRP78 is a functional binding site for ␣2-macroglobulin at the cell surface [23, 24]. All of these data indicate that binding of the AutoAbs to GRP78 at the cell surface elicits multiple signal transduction responses with a functional role in cancer Consistent with these observations, we have shown that men with prostate cancer may have Ͼ12-fold higher serum levels of anti-GRP78 AutoAbs than age-matched cancer-free men, which correlates with metastatic disease and, with a decreased overall survival [22]. The results presented in this study show that the humoral anti-GRP78 AutoAb response is a viable therapeutic target in experimental models, with perspective potential application in patients with prostate cancer
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