Guidelines for clinical evaluation of anti-cancer drugs.

Clinical studies intended for regulatory approval must demonstrate the clinical benefits of the drug in a target population. Clinical development of a drug proceeds by stepwise clinical studies; after safety and pharmacokinetics are evaluated and the recommended dosage and administration are determined, efficacy and safety are evaluated in an exploratory manner, and finally clinical benefits are compared with conventional standard therapies. Guidelines for the clinical evaluation of anti-cancer drugs in Japan were established in 1991 and amended in 2006 after molecular-targeted drugs were introduced. Recent progress in the development of drugs acting on the immune system and cancer genomic medicine targeting rare but important molecular subtypes have altered the strategy for development of anti-cancer drugs. It is often difficult to conduct a confirmatory randomized controlled study using overall survival as the primary endpoint in rare molecular subtypes, and the primary evaluation of the efficacy of some drugs and subsequent approval is based on the tumor response. As conducting clinical studies for rare subtypes solely within Japan is difficult, drug development needs to be conducted within a global study. However, this requires robust monitoring to detect possible ethnic differences in pharmacokinetics and drug efficacy. Development using the conditional approval system for drugs enforced in 2020 may be considered, when clinical utility is evaluated based on surrogate endpoints. Because of these changes, we have revised the guidelines for the clinical evaluation of anti-cancer drugs in Japan. To promote global development of anti-cancer drugs involving Japan, the guidelines have been translated into English.

Anti-angiogenic therapy against gastrointestinal tract cancers.

Gastrointestinal tract cancers constitute a group of highest morbidity both in and outside Japan, and the prognosis still remains unfavorable when the disease has progressed to the unresectable stage. Since the late 1990s, a novel category of anti-cancer drugs, 'molecular-targeted drugs', has become available, and angiogenesis has been considered as one of the most important molecular targets for antitumor therapy since it is essential for tumor growth. Anti-angiogenic therapy inhibits tumor angiogenesis and promotes apoptosis of existing tumor blood vessels, thereby intercepting the supply of oxygen and nutrition essential for tumor growth and metastasis. It was also suggested that anti-angiogenic therapy effectively normalizes abnormal vascular permeability, and thereby decreases the interstitial pressure, which may improve delivery of concomitantly used chemotherapeutic agents to tumor cells. Vascular endothelial growth factor (VEGF) acts as one of the most potent stimulating agents of angiogenesis, and several strategies targeting the VEGF signaling pathway have been developed, including anti-VEGF antibodies, soluble receptors binding directly to VEGF ligand, anti-VEGF receptor (VEGFR) antibodies and VEGFR tyrosine kinase inhibitors. The breakthrough in the clinical development of anti-angiogenic therapy against colorectal cancer came in 2003 with a large prospective, randomized clinical trial of bevacizumab, a monoclonal antibody directed against VEGF. Anti-angiogenic therapy has introduced a highly effective, completely new mode of action in this area and is the new standard of care in advanced colorectal cancer, while still being tested in gastric cancer due to its convincing clinical benefit and its tolerability and combinability with multiple chemotherapeutic agents.

Development of HER2-specific humanized antibody Herceptin (trastuzumab).

HER2 is a member of the human epidermal growth factor receptor family, possessing protein kinase activity in its cytoplasmic domain. There were evidences indicating that (1) amplification of HER2/neu gene and HER2 protein over-expression in tumor cells was observed in 25-30% of human breast cancer and (2) amplification of HER2/neu correlated with poor prognosis, including shorter disease-free and overall survival. These evidences suggested HER2 was a promising candidate for novel molecular targets of breast cancer therapy. Herceptin is a recombinant humanized monoclonal antibody generated by Genentech, Inc. for the treatment of HER2 over-expressed/HER2 gene amplified metastatic breast cancer (MBC). Preclinical studies demonstrated that the antibody had anti-tumor activity in vivo and in vitro, and additive or synergistic enhancement of anti-tumor activity of the antibody was observed in combination with various anti-tumor agents in mouse models. In clinical studies, apparent extension of overall survival was observed in HER2 overexpressing MBC patients. Herceptin is the first anticancer drug whose use as a treatment for MBC patients is decided based on the status of the HER2 gene amplification/HER2 protein over-expression. The development and standardization of HER2 test were a key strategy in clinical development of this drug, since appropriate selection of patients with HER2 over-expression was the essential point for success.