Darglitazone is a member of the thiazolidinedione class of drugs and an agonist of peroxisome proliferator-activated receptor-γ (PPAR-γ), an orphan member of the nuclear receptor superfamily of transcription factors. It has a variety of insulin-sensitizing effects, such as improving glycemic and lipidemic control, and is used in the treatment of metabolic disorders such as type II diabetes. Darglitazone sodium had been in phase I clinical trials by Pfizer for the treatment of type 2 diabetes. However, this study has been discontinued.

Iometopane I-123 is a tropane derivative labeled with iodine-123 that was being developed by MGI GP (MGI Pharma) as an injectable Single-photon emission computed tomography (SPECT) imaging agent. The ability of iometopane to bind to the dopamine transporter on presynaptic dopaminergic nerve terminal in the striatum has been used to differentiate the uptake of the agent by the neurons in the striatum in patients with a Parkinsonian disorder from patients without a Parkinsonian disorder with high sensitivity and specificity. The diminished uptake of iometopane in the striatum on the SPECT images of patients with a Parkinsonian disorder can be applied to assess both disease trait and disease state (severity) reflected by the severity of the brain dopamine neuron loss. Unfortunately Phase III clinical trials and further development of iometopane was discontinued due to the inability to contract a suitable manufacturer for the clinical and commercial supply of iometopane on acceptable conditions in the US. Currently, Iometopane is mainly used in scientific research into the dopamine reuptake transporter.

Prizidilol (also known as SKF 92657) is arylpyridazinylhydrazine derivative patented by Smith Kline and French Laboratories Ltd. as an antihypertensive agent. In clinical trials, Supine and standing blood pressure measured 24--27 h after drug intake was reduced Slight but significant decreases in heart rate were seen after moderate doses of prizidilol. A more pronounced blood pressure reduction was noticed 2--7 h after drug administration. Prizidilol was well tolerated, although dizziness and tiredness were reported by four patients and edema by two.

Gedatolisib (PF-05212384, PKI-587) is a highly potent dual inhibitor of PI3Kα, PI3Kγ and mTOR, originally being developed by Wyeth. Upon intravenous administration, gedatolisib inhibits both PI3K and mTOR kinases, which may result in apoptosis and growth inhibition of cancer cells overexpressing PI3K/mTOR. Activation of the PI3K/mTOR pathway promotes cell growth, survival, and resistance to chemotherapy and radiotherapy; mTOR, a serine/threonine kinase downstream of PI3K, may also be activated independent of PI3K. Significant antitumor efficacy and a favorable pharmacokinetic/safety profile justified clinical evaluation of Gedatolisib. Gedatolisb is in phase II clinical trials by Pfizer for the treatment of acute myeloid leukaemia. Gedatolisb is in phase I clinical trials for the treatment of solid tumours.

METHYLPARABEN SUBEROHYDROXAMIC ACID PHENYL ESTER (more known as Remetinostat), a histone deacetylase (HDAC) inhibitor, was developed for the treatment of cutaneous T cell lymphoma (CTCL). This drug is participating in phase II clinical trial to evaluate the efficacy, safety, and tolerability to skin lesions in patients with early-stage cutaneous T-cell lymphoma. In May 2019 was announced the positive results from phase II trial of remetinostat in basal cell carcinoma (BCC) patients. Initial results suggest that remetinostat gel offers a potentially effective and well-tolerated, non-surgical intervention for the treatment of localized BCCs. The unique design of remetinostat enables topical application, making it active only in the skin. As soon as it reaches the blood stream, it is degraded, avoiding the side effects associated with other HDAC inhibitors. Besides, remetinostat was studied as the treatment of plaque psoriasis; however, this study was discontinued.

Dexamisole is the dextro-isomer of tetramisole, a broad spectrum anthelmintic. Dexamisole significantly improves mood and psychotonicity. In adrenergically innervated blood vessels dexamisole inhibits neuronal uptake of norepinephrine more than levamisole. Dexamisole antagonized the reserpine-induced hypothermia but was ineffective in the apomorphine-induced hypothermia in mice. It reduced ptosis produced by reserpine in mice but this effect was very weak. The effect of dexamisole on the amphetamine-induced hyperactivity depended upon the animal species. Dexamisole reduced the duration of immobility in the despair test in rats. It did not modify the 5-HTP-induced head twitch reaction in mice but produced stimulation of the hind limb flexor reflex in spinal rats. The latter effect was blocked by phenoxybenzamine but not by cyproheptadine and metergoline. Dexamisole also exerted a sedative and hypothermic effect. The above findings indicate that the pharmacological profile of dexamisole resembles in some respects that of tricyclic antidepressants; they also point out that this drug has a central noradrenergic activity.