M40419 (now GC4419) is a Mn(II)-containing pentaazamacrocyclic selective superoxide dismutase mimetic. It is a first-in-class, small molecule enzyme mimetic that converts superoxide to hydrogen peroxide and molecular oxygen. GC4419 is currently being evaluated in an ongoing randomized Phase 2 clinical trial to assess its effect on the incidence, severity and duration of severe oral mucositis (OM) when given to patients with squamous cell cancers of the head and neck in combination with radiation and chemotherapy. GC4419 has received Breakthrough Therapy and Fast Track designations from the U.S. Food and Drug Administration.

ABTL 0812 is a autophagy inducer that acts via PI3K/Akt/mTOR pathway and has a dual mechanism of action. ABTL-0812 is a first-in-class small molecule, orally administered that binds to the nuclear receptors PPARα/γ inducing TRIB3 overexpression which blocks Akt activation, the central kinase of the PI3K/Akt/mTOR pathway, and inducing PPAR-dependent Endoplasmic Reticular Stress (ER-stress). The combination of TRIB3-mediated inhibition of the PI3K/Akt/mTOR pathway and the ER-Stress induction results in an autophagy-mediated cancer cell death. In animal cancer models ABTL0812 is efficacious as single agent with an excellent safety profile in a broad spectrum of cancer types: lung, endometrial and pancreatic cancer and neuroblastoma. ABTL0812 is also active on cells resistant to other targeted therapies, on tumor stem cells and inhibits metastasis formation. Preliminary results show promising immunomodulatory effects. ABTL0812 is currently in phase 2 clinical trials in Europe in patients with endometrial cancer or squamous cell lung cancer, as a first-line treatment in combination with chemotherapy and as a maintenance treatment after the chemotherapy cycles. The study is being conducted in leading cancer hospitals in Spain and France. This same phase 2 study was also approved by the US FDA in December 2017. In addition, the FDA approved the protocol for a phase 2 study in pancreatic cancer in January 2018. ABTL-0812 has also received Orphan Drug Designations (ODD) for pancreatic cancer, biliary cancer and the pediatric cancer neuroblastoma by the FDA in the USA and by the EMA in Europe.

Omtriptolide (previously known as PG490-88 or F60008), an immunosuppressant that has been shown to be the safe and potent antitumor agent and it has been approved entry into Phase I clinical trial for the treatment of prostate cancer in the USA. In addition, the drug is participating in phase I clinical trial for the treatment of myeloid leukemia. Experiments on animals have shown omtriptolide was highly effective in the prevention of murine graft-versus-host disease (GVHD). The immunosuppressive effect of the drug was mediated by inhibition of alloreactive T cell expansion through interleukin-2 production. However, this study was discontinued. Recently published article has shown omtriptolide possesses the potential as a prophylactic agent to prevent ischemia/reperfusion (I/R)-induced lung injury.

Wilex developed WX-UK1 as a specific inhibitor of human trypsin-2, human trypsin-3 and urokinase-plasminogen activator. WX-UK1 participated in phase I clinical trial in combination with capecitabine in advanced malignancies to determine the safety, tolerability, maximum tolerated dose, pharmacokinetics, and pharmacodynamics. However, in April 2014, the clinical development of this drug was discontinued, as part of a company restructure.

Evofosfamide, also formerly known as TH-302, is an investigational hypoxia-activated prodrug and is used to target cancerous cells under hypoxic conditions, which is a feature possessed by multiple solid tumors including glioblastoma and pancreatic cancer. Within regions of tumor hypoxia, evofosfamide releases bromo isophosphoramide mustard (Br-IPM), a potent DNA alkylating agent that kills tumor cells by forming DNA crosslinks. Once activated in hypoxic tissues, Br-IPM can also diffuse into surrounding oxygenated regions of the tumor and kill cells there via a “bystander effect”. Because of its preferential activation in the targeted hypoxic regions of solid tumors, evofosfamide may be less likely to produce broad systemic toxicity seen with untargeted cytotoxic chemotherapies.

NSC-631570 (Ukrain) is a semisynthetic compound of thiophosphoric acid and the alkaloid chelidonine from the plant Chelidonium majus. Ukrain was promoted as a drug to treat cancer and viral infections, including HIV and hepatitis. It exerts a selective cytotoxic effect on tumor cells in vitro and in vivo and shows the ability to modulate immunocyte functions. Ukrain has been used in complementary herbal medicine for more than 20 years for the treatment of benign and malignant tumors. Thus, in unresectable advanced pancreatic cancer, Ukrain alone and in combination with gemcitabine nearly doubled the median survival times in patients suffering from advanced pancreatic cancer. Inhibition of the growth of cancer cell lines in vitro, tumor mass reductions in vivo, and partial and complete remissions in oncological patients, occur as a result of Ukrain application. The drug may interfere directly with the metabolism of cancer cells and it also improves the functioning of the host immune system. Diminished synthesis of DNA, RNA and proteins, the inhibition of cellular oxygen consumption, and the induction of programmed cell death in malignant cells have been described following Ukrain administration. The drug can also modify the immunological response via an increase in the number of total T-cells and a normalization of the T-helper/T-suppressor lymphocyte ratio. However,according to the American Cancer Society and the Memorial Sloan-Kettering Cancer Center, there is no evidence that Ukrain is an effective cancer treatment. Through an Austrian company known as Nowicky Pharma, the drug, which was never approved by regulators, was sold as a treatment for AIDS, radiation-induced diseases and as a cure for all forms of cancer. Ukrain is not approved by the Food and Drug Administration but is available in parts of Europe and from Tijuana clinics.

Mibefradil is a calcium channel blocker, chemically unlike other compounds in the class, that was approved by the Food and Drug Administration (FDA), U.S.A. in June 1997 for the treatment of patients with hypertension and chronic stable angina. Shortly following its introduction, mibefradil was withdrawn from the market in the U.S.A. as well as in Europe. The reason for the voluntary withdrawal of the drug by Roche laboratories was claimed to be the result of new information about potentially harmful interactions with other drugs. Mibefradil is calcium channel blocker with moderate selectivity for T-type Ca2+ channels displaying IC50 values of 2.7 uM and 18.6 uM for T-type and L-type channels respectively. Mibefradil is a tetralol calcium channel blocking agent that inhibits the influx of calcium ions across both the T (low-voltage) and L (high-voltage) calcium channels of cardiac and vascular smooth muscle, with a greater selectivity for T channels. Vasodilation occurs in vascular smooth muscle, causing a decrease in peripheral vascular resistance and a resulting decrease in blood pressure. Mibefradil causes a slight increase in cardiac output during chronic dosing. Mibefradil slows sinus and atrioventricular (AV) node conduction, producing a slight reduction in heart rate and a slight increase in the PR interval. It has also been shown to slightly lengthen the corrected sinus node recovery time and AH interval and to raise the Wenckebach point. The mechanism by which mibefradil reduces angina is not known, but is thought to be attributed to a reduction in heart rate, total peripheral resistance (afterload), and the heart rate-systolic blood pressure product at any given level of exercise. The result of these effects is a decrease in cardiac workload and myocardial oxygen demand. Mibefradil has been repurposed from an abandoned antihypertensive to a targeted solid tumor treatment, and it has been rescued from drug-drug interactions by using short-term dose exposure. Tau is using the early success of mibefradil as a proof of concept to build a platform technology of Cav3 blockers for broad antitumor applications in combination with new targeted cancer therapies, well-established.