Anti-c-Met monoclonal antibody ABT-700 breaks oncogene addiction in tumors with MET amplification

The success of molecular targeted therapy in cancer may depend on the selection of appropriate tumor types whose survival depends on the drug target, so-called "oncogene addiction." Preclinical approaches to defining drug-responsive subsets are needed if initial clinical trials are to be directed at the most susceptible patient population. Here, we show that gastric cancer cells with high-level stable chromosomal amplification of the growth factor receptor MET are extraordinarily susceptible to the selective inhibitor PHA-665752. Although MET activation has primarily been linked with tumor cell migration and invasiveness, the amplified wild-type MET in these cells is constitutively activated, and its continued signaling is required for cell survival. Treatment with PHA-665752 triggers massive apoptosis in 5 of 5 gastric cancer cell lines with MET amplification but in 0 of 12 without increased gene copy numbers (P = 0.00016). MET amplification may thus identify a subset of epithelial cancers that are uniquely sensitive to disruption of this pathway and define a patient group that is appropriate for clinical trials of targeted therapy using MET inhibitors.

Amplification of the c-met gene, that encodes hepatocyte growth factor receptor, was examined on human esophageal, gastric and colorectal carcinomas. Six (55%) of the 11 gastric carcinoma cell lines and 15 (23%) of the 64 advanced gastric carcinomas showed the c-met gene amplification. Among them, c-met amplification was detected in 5 gastric cancer cell lines, derived from scirrhous gastric carcinoma and in 5 (38%) of 13 scirrhous gastric carcinoma tissues. Furthermore, patients of gastric carcinoma with c-met amplification showed significantly advanced tumor stage and poorer prognosis than those without the amplification. Conversely, no amplification was detected in any of the esophageal and colorectal carcinoma cell lines as well as carcinoma tissues except one colonic carcinoma. These results overall suggest that amplification of the c-met gene might participate in carcinogenesis and progression of stomach cancer, especially scirrhous type stomach carcinoma.

The c-Met proto-oncogene encodes a receptor tyrosine kinase (TK) that promotes invasive tumor growth and metastasis. Recent studies show that the presence of c-Met gene amplification is predictive for selective c-Met TK inhibitors in gastric cancer and lung cancer. In this study, we utilized a highly quantitative PCR/ligase detection reaction technique to quantify c-Met gene copy number in primary colorectal cancer (CRC) (N=247), liver metastases (N=147), and paired normal tissues. We identified no differences in c-Met gene copy number between normal colonic mucosa and liver tissue. However, mean c-Met gene copy number was significantly elevated in CRC compared with normal mucosa (P<0.001), and in liver metastases compared with normal liver (P<0.001). Furthermore, a significant increase in c-Met was seen in liver metastases compared with primary CRC (P<0.0001). c-Met gene amplification was observed in 2% (3/177) of localized cancers, 9% (6/70) of cancers with distant metastases (P<0.02), and 18% (25/147) of liver metastases (P<0.01). Among patients treated by liver resection, there was a trend toward poorer 3-year survival in association with c-Met gene amplification (P=0.07). Slight increases in c-Met copy number can be detected in localized CRCs, but gene amplification is largely restricted to Stage IV primary cancers and liver metastases. c-Met gene amplification is linked to metastatic progression, and is a viable target for a significant subset of advanced CRC.