PBT-1033, also known as PBT-2, is a neural protective agent potentially for the treatment of Alzheimer's disease and Huntington's Disease. PBT-1033 is a moderate-affinity 8-hydroxyquinoline transition metal-ligand that acts as a synthetic chaperone, re distributing copper, zinc, and iron from locations where they are abundant to subcellular locations where they might be deficient. Delivery of copper and zinc by PBT-1033 into the cytoplasm deactivates the kinase glycogen synthase kinase 3β and the phosphatase calcineurin, both potential targets for Huntington’s disease. In aged wild-type mice, PBT-1033 improves cognitive ability and markers of neuronal plasticity and function. In Alzheimer’s disease mouse models, PBT-1033 inhibits the accumulation of amyloid β, attenuates neuropathological effects of amyloid β, including amyloid-β-induced hyperphosphorylation of tau, and improves cognition. In a 12-week, phase 2a, randomized, double-blind, placebo-controlled trial in 78 individuals with mild Alzheimer’s dementia, PBT-1033 was safe and well tolerated and significantly reduced concentrations of amyloid β42 in CSF.

Sephin1 is a guanabenz derivative that binds to and inhibits a regulatory subunit of the stress-induced protein phosphatase 1 (PPP1R15A), but not the constitutive PPP1R15B, and lacks beta2-adrenergic activity. Phosphorylation of eIF2α, α subunit of eukaryotic translation initiation factor 2, reduces protein synthesis and prevents the accumulation of misfolded protein in the endoplasmic reticulum (ER). PPP1R15A recruits the serine/threonine-protein phosphatase PP1 to dephosphorylate eIF2α, so inhibiting PPP1R15A activity prolongs the phosphorylation of eIF2α and aids in its prevention of the accumulation of misfolded protein. In vitro, Sephin1 protected cells from lethal protein misfolding and cytotoxic ER stress. In vivo Sephin1 prevented Charcot-Marie-Tooth 1B and ALS diseases in mice.

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.

Derazantinib (ARQ 087) is an investigational, oral, multi-kinase inhibitor designed to preferentially inhibit the FGFR family of kinases with demonstrated activity in FGFR2 genetic alterations, including fusions. In human cancers, FGFRs have been found to be dysregulated by multiple mechanisms, including aberrant expression, mutations, chromosomal rearrangements, and amplifications. FGFR dysregulation has been identified as a driver in a number of cancers, including iCCA, cholangiocarcinoma, bladder, endometrial, breast, gastric, lung and ovarian. Current scientific literature suggests FGFR alterations exist in anywhere from 5% to 40% of these cancers. Derazantinib is a potent FGFR inhibitor that shows strong anti-proliferative activity in cell lines harboring FGFR2 alterations. In clinical testing, the molecule has demonstrated activity in cancerous tumors harboring FGFR2 fusions in iCCA and bladder cancers.