Alpelisib (BYL719) is a PI3Kα-selective inhibitor. PI3K-AKT-mTOR pathway is frequently activated in cancer, therefore investigational PI3K inhibitor alpelisib is considered to be effective as an anticancer agent and has been in clinical development by Novartis. Alpelisib have demonstrated activity in preclinical models of solid tumors and had favorable tolerability profiles, with the most common adverse events consistent with “on-target” inhibition of PI3K in early clinical studies. There are ongoing clinical trials of alpelisib in a range of cancer types, including breast cancer, head and neck squamous cell carcinoma, non-small cell lung carcinoma, lymphoma, and glioblastoma multiforme. Combination therapy with other chemo therapeutics may be preferable.

Pretomanid (PA-824) is an experimental anti-tuberculosis drug. Pretomanid is a bicyclic nitroimidazole-like molecule with a very complex mechanism of action. It is active against both replicating and hypoxic, non-replicating Mycobacterium tuberculosis. As a potential TB therapy, it has many attractive characteristics - most notably its novel mechanism of action, its activity in vitro against all tested drug-resistant clinical isolates, and its activity as both a potent bactericidal and a sterilizing agent in mice. In addition, the compound shows no evidence of mutagenicity in a standard battery of genotoxicity studies, no significant cytochrome P450 interactions, and no significant activity against a broad range of Gram-positive and Gram-negative bacteria. This compound has been developed by TB Alliance and is a potential cornerstone of future TB and drug-resistant TB treatment regimens. It is currently undergoing Phase III clinical trials.

Siponimod (BAF312) is a dual agonist at the sphingosine-1 phosphate receptors, S1PR1 and S1PR5. The S1P receptor is commonly found on the surface of specific cells residing in the central nervous system (CNS), that are responsible for causing CNS damage that drives loss of function in secondary progressive multiple sclerosis (SPMS). Siponimod (BAF312) enters the brain and by binding to these specific receptors, may prevent the activation of these harmful cells, helping to reduce the loss of physical and cognitive function associated with SPMS.

Lemborexant is a dual orexin receptor antagonist, which inhibits orexin by binding competitively to two subtypes of orexin receptors. During normal periods of sleep, orexin system activity is suppressed, suggesting it is possible to purposefully facilitate the initiation and maintenance of sleep by interfering with orexin neurotransmission with lemborexant. Extensive in vitro and non-clinical testing of lemborexant supported the supposition that lemborexant has a low risk of QT prolongation at therapeutic and supratherapeutic exposures in humans. A Phase III study of lemborexant in insomnia is underway, and in addition, Eisai has announced the initiation of Phase II clinical studies of lemborexant in patients with irregular sleep-wake rhythm disorder.

Pexidartinib (PLX3397) is a small-molecule receptor tyrosine kinase (RTK) inhibitor with potential antineoplastic activity. Pexidartinib binds to and inhibits phosphorylation of stem cell factor receptor (KIT), colony-stimulating factor-1 receptor (CSF1R) and FMS-like tyrosine kinase 3 (FLT3), which may result in the inhibition of tumor cell proliferation and down-modulation of macrophages, osteoclasts and mast cells involved in the osteolytic metastatic disease. FDA has granted Breakthrough Therapy Designation to pexidartinib (PLX3397) for the treatment of tenosynovial giant cell tumor (TGCT) where surgical removal of the tumor would be associated with potentially worsening functional limitation or severe morbidity. In addition to Breakthrough Therapy Designation, pexidartinib (PLX3397) has been granted Orphan Drug Designation by FDA for the treatment of pigmented villonodular synovitis (PVNS) and giant cell tumor of the tendon sheath (GCT-TS). It also has received Orphan Designation from the European Commission for the treatment of TGCT.

Brilliant Blue G is triphenylmethane dye that was developed for use in the textile industry but is now commonly used for staining proteins in analytical biochemistry. The Bradford assay is a standard, rapid dye-binding assay that uses Brilliant Blue G to quantify the amount of protein in a solution. Brilliant Blue G also acts as a selective inhibitor of the P2X purinoceptor channel P2X7 (IC50s = 10.1 and 265 nM for rat and human P2X7, respectively). In mice, it inhibits interleukin-1β expression and reduces neurological injury secondary to traumatic brain injury. Brilliant Blue G was used to prepare the protein reagent for the determination of protein content of the collagenase enzyme isolated from fish waste. It may be employed as a stain for the internal limiting membrane (ILM) for the macular hole (MH) and epiretinal membrane (ERM) surgery.

Potassium is needed to maintain good health. When potassium level falls below 3.5 mmol/L, Hypokalemia is diagnosed. In case of extremely low level of potassium (lower than 2.5 mmol/L) the following symptoms are appeared: malaise and fatigue. This low level of potassium can lead to severe muscle weakness and paralysis; respiratory failure; intermittent muscle spasms. It is known, foods that are good sources of potassium and low in sodium may reduce the risk of high blood pressure and stroke. Potassium supplementation is also recommended as an adjuvant antihypertensive agent for patients with essential hypertension.

Apaziquone (EOquin, EO9) is an indolequinone that is a bioreductive prodrug and a chemical analog of the older chemotherapeutic agent mitomycin C. In hypoxic cells, such as those on the inner surface of the urinary bladder, apaziquone is converted to active metabolites by intracellular reductases (such as NQO1). The active metabolites alkylate DNA and lead to apoptosis. In animal tumour models, EO9 was inactive against the P388 murine leukaemia but exhibited anti-tumour activity against human tumour xenografts and the generally chemo-resistant murine adenocarcinomas of the colon (MAC) tumours. Initial evidence that in vivo response correlated with NQO1 activity. Apaziquone was selected for clinical evaluation based upon its novel mechanism of action (which was distinct from MMC), its preferential activity against cells derived from solid tumours in vitro and in vivo, its ability to target both aerobic and hypoxic cells and the lack of myelosuppression in mice and rats. Apaziquone has been applied in clinical studies sponsored by Spectrum Pharmaceuticals and Allergan, Inc. for the treatment of superficial (non-muscle invasive) bladder cancer. However, the US-FDA determined that it was not statistically effective.

Dalcetrapib (JTT-705) is a modulator than an inhibitor of cholesteryl ester transfer protein (CETP) activity and it may interact with and decrease CETP activity by a unique mechanism without an off-target effect. Dalcetrapib increased high-density lipoprotein (HDL) cholesterol levels but did not reduce the risk of cardiovascular events. It is in phase III of clinical trials for the treatment of acute coronary syndrome.

Arhalofenate is a uricosuric drug which lowers serum urate by blocking its reabsorption by the proximal tubules of the kidney. Arhalofenate activity is mediated by inhibition of URAT1, OAT4 and OAT10. Additionally, arhalofenate has been suggested to exert potent anti-inflammatory activity. Arhalofenate has completed Phase 2 and is ready to advance to Phase 3 as a novel potential treatment for gout. The drug was also tested in patients with type 2 diabetes mellitus (phase III study), where it demonstrated its ability to lower glucose level, acting as a selective, partial PPAR-gamma agonist. However, the development of arhalofenate as an anti-diabetic drug was terminated.