Phase II randomized, double-blind, placebo-controlled study of tivantinib in men with asymptomatic or minimally symptomatic metastatic castration-resistant prostate cancer (mCRPC)

Metastatic castration resistant prostate cancer (mCRPC) is the lethal version of this common disease. Prostate cancer reaches this point through the combined events of metastasis and adaptation by the tumor to a low testosterone environment. The overall survival of men with mCRPC has improved over the past few years with the introduction of several different agents with non-overlapping mechanisms of action. [1‐5] Despite this progress, further improvement is needed as men with mCRPC still invariably succumb to this disease.

Hepatocyte growth factor (HGF) and its receptor N-methyl-N′-nitrosoguanidine human osteosarcoma transforming gene (MET) seem to play important roles in the metastatic process [6, 7] and its signaling is abnormal in a variety of malignancies [8]. Serum HGF levels are higher in metastatic prostate cancer than in localized tumors [9] and has been associated with poorer outcomes. [10] Xenograft and in vitro data reveal that MET expression increases following androgen deprivation suggesting an association with the development of castrate resistant disease. [11, 12]

Tivantinib (ARQ 197; ArQule, Burlington, MA; Daichi-Sankyo, Tokyo, Japan) is an orally available selective small molecule that inhibits MET receptor tyrosine kinase with a novel ATP independent binding (allosteric inhibitor) mechanism, leading to inhibition of cell proliferation and induction of apoptosis in MET-expressing cancer cells. [13] [14, 15] Tivantinib has been found to have additional properties and in some preclinical studies its anti-cancer properties were independent of the c-MET inhibition. [16] Together, these findings supported the hypothesis that tivantinib would have activity against mCRPC. We therefore performed a phase II randomized placebo controlled trial of tivantinib in men with asymptomatic or minimally symptomatic mCRPC.

Treatment with tivantinib was associated with minimal toxicity and a significantly longer PFS when compared to placebo in men with asymptomatic or minimally symptomatic mCRPC. In comparing the PFS distributions between treatment arms, the p-value for the log-rank test was p = 0.02. Furthermore, this p-value reflects a two-sided alternative hypothesis, which is more stringent than what was designed in this trial. Tivantinib’s favorable side effect profile has been demonstrated in various clinical trial settings, but these studies failed to achieve their respective primary endpoints. [19‐23] This broad lack of efficacy is seen despite an underlying biologic rationale that is similar to the current trial. Several factors should be considered when interpreting the results of the present trial. First, the strengths of our report include the randomized design, the use of PCWG2 guidelines to determine progression and the control arm performed as expected. However, this study’s small size makes it more sensitive to biases that are potentially unaccounted for. More troublesome is the uncertainty of both the underlying mechanism of action of tivantinib and the value of PFS as an important endpoint in mCRPC trials. During the conduct of this trial, preclinical studies reported tivantinib’s activity is not via the inhibition of c-MET/HGF signaling. [16, 24] [25, 26] Rather, the in vitro activity is more consistent with a cytotoxic agent. Targeting MET therefore remains unproven as a strategy that produces clinical benefit in men with mCRPC. [27]

The inability to rely on intermediate endpoints to predict overall survival in mCRPC is problematic. [2, 28‐30] This must be considered when we interpret the significant improvement in PFS seen in this study. The experience with cabozantinib’s development in mCRPC is perhaps most instructive. [31] Cabozantinib, a potent inhibitor of MET and VEGFR2, failed to improve overall survival (OS) when compared with prednisone in heavily treated men with mCRPC. These negative phase III results were accompanied by significant improvements in bone scan response, radiographic PFS, circulating tumor cell conversions, time to first symptomatic skeletal event and favorable bone biomarker changes. One potential explanation for the lack of OS benefit is the high number of dose reductions and discontinuations for toxicity. The phase II experience was associated with unprecedented tumor regression in the majority with soft tissue disease, normalization of bone scans in 12% and improvement in bone pain in 67%. [32] This apparent paradox seems most acute in advanced prostate cancer trials but it has been seen in other tumor types and caution has been advised when making conclusions with PFS data. [33]

Tivantinib has mild toxicity and significantly improved PFS compared to placebo in men with asymptomatic/minimally symptomatic mCRPC. The magnitude of benefit does not support further evaluation as a single agent. Optimal further development of tivantinib in mCRPC would ideally include a better understanding of the drug’s underlying mechanism of action. This would better inform combination studies with other therapies in mCRPC.