Background: Differences between the features of primary cancer and matched metastatic cancer have recently drawn attention in research. This study investigated the concordance in microsatellite instability (MSI) and mismatch repair (MMR) status between primary and corresponding metastatic colorectal cancer (CRC). Methods: Consecutive patients with metastatic CRC who had both primary and metastatic tumors diagnosed at our institution in January 2008 through December 2016 were identified. Immunohistochemistry was used to test the MMR status of both primary and matched metastatic tumors, and PCR analysis was performed to test MSI in patients with deficient MMR (dMMR) status. Results: A total of 369 patients were included. Of the 46 patients with MSI-high primary tumors, 37 (80.4%) also had MSI-high metastatic tumors, whereas 9 (19.6%) had microsatellite stable (MSS) metastatic tumors. A high concordance was found in patients with liver, lung, or distant lymph node metastases. Interestingly, the discrepancy was more likely to be limited to peritoneal (5/20) or ovarian (4/4) metastasis (chi-square test, P<.001). These organ-specific features were also found in the pooled analysis. Along with the change of MSI-high in primary cancer to MSS in metastatic cancer, lymphocyte infiltration decreased significantly (P=.008). However, the change did not influence survival; the median overall survival of MSI-high and MSS metastatic tumors was 21.3 and 21.6 months, respectively (P=.774). The discrepancy rate was 1.6% for patients with proficient MMR primary tumors. Conclusions: For patients with dMMR primary tumors, the concordance of MSI and MMR status in primary CRC and corresponding metastatic cancer is potentially organ-specific. High concordance is found in liver, lung, and distant lymph node metastases, whereas discrepancy is more likely to occur in peritoneal or ovarian metastasis. Rebiopsy to evaluate MSI-high/dMMR status might be needed during the course of anti–PD-1 therapy in cases of peritoneal or ovarian metastasis.
Wen-Zhuo He, Wan-Ming Hu, Fang Wang, Yu-Ming Rong, Lin Yang, Qian-Kun Xie, Yuan-Zhong Yang, Chang Jiang, Hui-Juan Qiu, Jia-Bin Lu, Bei Zhang, Pei-Rong Ding, Xiao-Jun Xia, Jian-Yong Shao, and Liang-Ping Xia
Baijun Dong, Liancheng Fan, Bin Yang, Wei Chen, Yonghong Li, Kaijie Wu, Fengbo Zhang, Haiying Dong, Huihua Cheng, Jiahua Pan, Yinjie Zhu, Chenfei Chi, Liang Dong, Jianjun Sha, Lei Li, Xudong Yao, and Wei Xue
Background: This study aimed to describe the aberrations of DNA damage repair genes and other important driving genes in Chinese patients with metastatic castration-resistant prostate cancer (mCRPC) using circulating tumor (ctDNA) sequencing and to evaluate the associations between the clinical outcomes of multiple therapies and key genomic alterations in mCRPC, especially DNA damage repair genes. Patients and Methods: A total of 292 Chinese patients with mCRPC enrolled from 8 centers. Multigene targeted sequencing was performed on 306 ctDNA samples and 23 matched tumor biopsies. The frequency of genomic alterations were compared with the Stand Up to Cancer–Prostate Cancer Foundation (SU2C-PCF) cohort. The Kaplan-Meier method was used to evaluate progression-free survival (PFS) following standard systemic treatments for mCRPC. Cox regression analyses were performed to determine prognostic factors associated with PFS resulting from treatments for mCRPC. Results: In total, 33 of 36 (91.7%) mutations were found consistently between ctDNA and paired biopsy samples. The most common recurrent genomic alterations were found in AR (34.6%), TP53 (19.5%), CDK12 (15.4%), BRCA2 (13%), and RB1 (5.8%). The frequency of CDK12 alterations (15.4%) in our cohort was significantly higher than that in Western populations (5%–7%). AR amplification and TP53 and/or RB1 alterations were associated with resistance to abiraterone or docetaxel. Patients with a CDK12 defect showed rapid disease progression after abiraterone treatment. However, the clinical outcome after docetaxel treatment was similar between patients with and without CDK12 defects. In multivariate Cox regression analysis, a CDK12 defect was significantly associated with inferior PFS after abiraterone treatment. Patients with a BRCA2 defect showed marked response to both PARP inhibitors and platinum-based chemotherapy. Conclusions: Our study explored the genomic landscape of Chinese patients with mCRPC at different treatment stages using minimally invasive methods and evaluated the clinical implications of the driver genomic alterations on patients’ response to the most widely used therapies for mCRPC. We observed a significantly higher alteration frequency of CDK12 in our cohort compared with the SU2C-PCF cohort.