NLG919 is a novel small-molecule IDO-pathway inhibitor. NLG919 potently inhibits this pathway in vitro and in cell-based assays. It is orally bioavailable and has a favorable pharmacokinetic and toxicity profile. In mice, a single oral administration of NLG919 reduces the concentration of plasma and tissue Kyn by ∼ 50%. Using IDO-expressing human monocyte-derived DCs in allogeneic MLR reactions, NLG919 potently blocked IDO-induced T cell suppression and restored robust T cell responses with an ED50=80 nM. Similarly, using IDO-expressing mouse DCs from tumor-draining lymph nodes, NLG919 abrogated IDO-induced suppression of antigen-specific T cells (OT-I) in vitro. In vivo, in mice bearing large established B16F10 tumors, administration of NLG919 markedly enhanced the anti-tumor responses of naïve, resting pmel-1 cells to vaccination with cognate hgp100 peptide plus CpG-1826 in IFA

18F-THK-5351 is a novel radiotracer that demonstrates high binding selectivity and affinity for tau pathology and exhibits better pharmacokinetics in the living brain than previous THK tau probes. FluoroTau is in phase II clinical trials as a positron emission tomography (PET) imaging agent for the diagnosis and monitoring of the progression of Alzheimer's disease(AD) in South Korea. This compound was originally discovered by Tohoku University, and now is being developed by GE Healthcare, Samung Medical Centre and Asan Medical Center.

Pranolium (UM-272) is propranolol derivative. It can reduce the extent of myocardial injury sustained during severe ischemia. UM-272 lacks significant beta-adrenergic blocking activity but retains the negative chronotropic, negative inotropic and antiarrhythmic effects common to both d- and l-propranolol. The protective effects of UM-272 during myocardial ischemia cannot be due to metabolic effects of the beta-adrenergic blockade but may be due to effects on oxygen consumption or to effects on myocardial membrane properties that are related to its antiarrhythmic and myocardial depressant activity. The ability of UM-272 to enhance blood flow to subendocardial myocardium may also play a role in its beneficial effects during ischemia. UM-272 may protect the ischemic heart through direct effects on myocardial Ca++ regulating mechanisms. UM-272 has kinetically similar use-dependent inhibitory action of the fast sodium channels of cardiac muscles as other Class Ia antiarrhythmic drugs like quinidine or procainamide. Pranolium was investigated as an antiarrhythmic agent.

Donitriptan hydrochloride (F 11356) was developed by Pierre Fabre as a brain penetrant 5-HT1B/1D agonist. Which inhibits capsaicin-induced external carotid vasodilation and produces selective carotid vasoconstriction in various animal species. In January 2001, donitriptan had completed phase I trials for migraine and was scheduled to enter phase II development, but before development in phase II, this drug was discontinued.

Omipalisib, also known as GSK2126458, is a small-molecule pyridylsulfonamide inhibitor of phosphatidylinositol 3-kinase (PI3K) with potential antineoplastic activity. Omipalisib (GSK2126458, GSK458) is a highly selective and potent inhibitor of p110α/β/δ/γ, mTORC1/2 with Ki of 0.019 nM/0.13 nM/0.024 nM/0.06 nM and 0.18 nM/0.3 nM in cell-free assays, respectively. It is also a low picomolar inhibitor of the common activating mutants of p110a (E542K, E545K, and H1047R) found in human cancer. Omipalisib (GSK2126458) binds to and inhibits PI3K in the PI3K/mTOR signaling pathway, which may trigger the translocation of cytosolic Bax to the mitochondrial outer membrane, increasing mitochondrial membrane permeability and inducing apoptotic cell death. Bax is a member of the proapoptotic Bcl2 family of proteins. PI3K, often overexpressed in cancer cells, plays a crucial role in tumor cell regulation and survival. GlaxoSmithKline (GSK) is developing omipalisib, a phosphoinositide 3-kinase/mammalian target of rapamycin (PI3K/mTOR) inhibitor as well as mTOR complex 1 and 2 inhibitor, for the potential oral treatment of cancer and idiopathic pulmonary fibrosis.

AZD4017, a 11β-hydroxysteroid dehydrogenase type 1 inhibitor, has been developed by AstraZeneca for the treatment of obesity, raised intraocular pressure (IOP) and type 2 diabetes. Inhibition of 11β-HSD1 is an attractive mechanism for the treatment of obesity and other elements of the metabolic syndrome. However, studies were discontinued due to safety and efficacy reasons. Besides, specific inhibition of 11β-HSD1 can decrease intracranial pressure and consequently treat patients with Idiopathic Intracranial Hypertension (IIH), thus AZD4017 participated in phase II clinical trials to treat this disease. IIH, also known as benign intracranial hypertension or pseudotumor cerebri, is a condition of unknown etiology characterized by elevated intracranial pressure (ICP) and papilledema. In addition, AZD4017 in combination with prednisolone participated in phase II clinical trials for patients with Iatrogenic Cushing's Disease. It was postulated that the adverse metabolic effects of prednisolone could be reduced by co-administration of AZD4017.