ACT-451840 is a new compound with potent activity against sensitive and resistant Plasmodium falciparum strains. ACT-451840 has been used in trials studying malaria. ACT-451840 appears to have a distinct mode of action that sets it apart from current antimalarial drugs, including artemisinins. It has a rapid onset of action as well as activity on all blood-borne (erythrocytic) stages, which is retained against multiple resistant parasites, including artemisinin-resistant strains. Unlike the majority of antimalarial agents, ACT-451840 has the potential to block disease transmission due to its activity on gametocytes. he antimalarial activity of ACT-451840 was studied in an experimental induced blood stage malaria clinical trial performed in collaboration with MMV Medicines for Malaria Ventures at the laboratories of Professor James McCarthy, MBBS, MD of the Royal Brisbane and Women's Hospital in Herston, Australia. In the trial, ACT-451840 was safe and well tolerated and showed clinical efficacy against the early stages of P. falciparum infections. The PK/PD model developed from this proof-of-concept study with eight healthy subjects enabled prediction of therapeutic effects, with cure rates following 1 week of therapy (single daily doses) predicted to be equivalent to artesunate monotherapy.

4SC-202 is an epigenetic oncology compound with a unique therapeutic profile, which was developed by biotechnology company: 4SC. 4SC-202 works as a selective inhibitor of LSD1 (lysine-specific demethylase 1) and HDAC (histone deacetylase) 1, 2 and 3. 4SC-202 also strengthens the endogenous immune response to cancer tissue. This compound demonstrated successfully completed Phase I of the clinical study, where it was proved safe and well tolerated in patients with advanced hematologic cancer. In addition, 4SC-202 shows substantial anti-tumor activity in a broad range of cancer cell lines including hepatocellular carcinoma, Urothelial Carcinoma Cell Lines and colorectal cancer.

Mitoglitazone (previously known as MSDC-0160 or CAY-10415) is a mTOT (mitochondrial target of thiazolidinediones) modulator that targets the mitochondrial pyruvate carrier (MPC), which is a key controller of cellular metabolism. MSDC-0160 is modulated MPC and act as insulin sensitizers without activating PPAR gamma. (Mitoglitazone exhibits very low binding affinity and activity at PPARγ). Mitoglitazone has been used in trials phase II studying the treatment of Type 2 Diabetes and Alzheimer's disease; the treatment for diabetes was discontinued. In addition, MSDC-0160 has demonstrated significant neuroprotective effects in the En1+/- mouse model of Parkinson’s disease via modulation of the mTOR-autophagy signaling cascade.

Radalbuvir (also known as GS-9669 ) is a Hepatitis C virus NS 5 protein inhibitor for the treatment of hepatitis C virus (HCV) infection developed by Gilead Sciences. Radalbuvir is a highly optimized thumb site II nonnucleoside inhibitor, with a binding affinity of 1.35 nM for the genotype (GT) 1b protein. It is a selective inhibitor of HCV RNA replication, with a mean 50% effective concentration of ≤ 11 nM in genotype 1 and 5 replicon assays, but lacks useful activity against genotypes 2 to 4. In preclinical Radalbuvir exhibited at least additive activity in combination with agents encompassing four other direct modes of action (NS3 protease, NS5A, NS5B via an alternative allosteric binding site, and NS5B nucleotide) as well as with alpha interferon or ribavirin in replicon assays. It exhibited high metabolic stability in vitro human liver microsomal assays, which, in combination with its pharmacokinetic profiles in rat, dog, and two monkey species, is predictive of good human pharmacokinetics. In clinical trials, Radalbuvir shows highly effective inhibition of wild-type HCV.

QAV-680 is a pyrrolopyridine derivative patented by Novartis Pharma GmbH as chemoattractant receptor (CRTh2) antagonist for the treatment of an inflammatory or allergic condition, particularly an inflammatory or obstructive airways disease. QAV-680 shows low nM potency and excellent selectivity across a range of CRTh2 dependent primary human inflammatory cell assays. In preclinical studies, QAV-680 shows good pharmacokinetic properties (including a suitable escalating dose–exposure relationship) in the rat and mouse and demonstrates efficacy in both mechanistic and allergic disease CRTh2-dependent rodent in vivo models. In 2008-2010 QAV-680 was tested in Phase 2 clinical trials but no further development reports were published.