Despite recent therapeutic advances, castration-resistant prostate cancer (CRPC) remains a lethal disease and novel therapies are needed. Precision oncology provides an avenue for developing effective tailored approaches for treating malignancies based on a tumor's molecular profile. Indeed, the presence of mismatch repair deficiency (MMRd) has proven to be an important predictive biomarker for response to immune checkpoint blockade across multiple tumor types, including prostate cancer, and represents a major precision oncology success story. The mismatch repair (MMR) system is integral to maintaining genomic fidelity during cellular replication. Cancers with deficiencies in this system accumulate high numbers of mutations and express many neoantigens that may be recognized by the immune system. The checkpoint inhibitor pembrolizumab has recently been approved for all cancers that are MMR deficient, and several retrospective series have specifically shown that pembrolizumab is effective in MMRd prostate cancer. Although the prevalence of MMRd in CRPC is low (approximately 3%-5% of cases), this is an important subset of men that require a unique therapeutic approach. This review will focus on MMRd in prostate cancer, highlighting the clinical implications, role of immunotherapy, and areas of future research.
Keywords: castration-resistant; checkpoint inhibition; immune; immunotherapy; microsatellite instability; precision medicine.
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