Guanylate cyclase C (GUCY2C) as a preventative and therapeutic target in colorectal cancers (CRCs) arising through divergent genomic pathways.

Abstract

595 Background: CRCs arise through distinct mutations, including in APC pathway leading to tubular adenomas (TAs); in BRAF, with epigenetic silencing of CDX2, leading to serrated adenomas (SAs); and in the DNA mismatch repair machinery driving microsatellite instability (MSI). The APC pathway involves loss of the hormone guanylin, silencing the tumor suppressing receptor GUCY2C. Indeed, oral hormone replacement is an emerging strategy to reactivate GUCY2C and prevent CRC. Moreover, retained expression by tumors arising from TAs has established GUCY2C as a therapeutic target to prevent and treat metastatic CRC. Here, we defined the potential role of the guanylin-GUCY2C axis, and its suitability as a target, in tumors arising through the SA and MSI pathways. Methods: We compared guanylin-GUCY2C protein and mRNA expression between human TAs (n = 18), SAs (n = 15), MSI tumors (n = 7) and their matched normal adjacent tissue. Genetic mouse models of serrated and MSI tumors were used to confirm findings and elucidate mechanisms. Results: Guanylin hormone was eliminated in TAs, SAs and MSI tumors compared to their normal adjacent tissues. In contrast to the hormone, the tumor suppressing receptor GUCY2C was retained in TAs and MSI tumors. Surprisingly, GUCY2C expression was nearly eliminated in SAs reflecting loss of the transcription factor CDX2. Changes in the guanylin-GUCY2C axis in human SAs and MSI tumors were precisely recapitulated in genetic mouse models. Conclusions: Guanylin is universally lost at the earliest stages of transformation in tumors arising through divergent genomic mechanisms suggesting its utility as a biomarker of CRC initiation. These data reveal the possibility of guanylin loss silencing GUCY2C in the pathophysiology of, and oral hormone replacement to restore GUCY2C signaling to prevent, MSI tumors. Also, they highlight the potential for targeting GUCY2C to prevent and treat metastases arising from TAs and MSI tumors. In contrast, loss of GUCY2C excludes patients with SAs as candidates for GUCY2C-based prevention and therapy.