Alentemol (U-66444B) is a selective dopamine agonist acting at presynaptic receptors to inhibit the release of dopamine. In preclinical studies the compound caused hypothermia in mice and inhibited amphetamine-stimulated omtor activity in mice. U-66444B was investigated by Upjohn Company for the treatment of schizophrenia, but the development of the drug was discontinued.

Guanazodine is a new antihypertensive drug. Guanazodine caused a sustained decrease in the systemic blood pressure of spontaneously hypertensive rats, renal hypertensive dogs and normal cats. No tachyphylaxis developed when the drug was administered orally. The heart rate decreased. Guanazodine relaxed the cat nictitating membrane, attenuated the positive chronotropic response to sympathetic nerve stimulation in anesthetized dogs and in isolated rabbit aorta to transmural electrical stimulation. Guanazodine potentiated the pressor response to noradrenaline but attenuated the response to tyramine in anesthetized cats. It may be concluded that the hypotensive effect of guanazodine is related to adrenergic neuron blocking action, the noradrenaline-depleting action in peripheral tissues is similar to the effect of guanethidine and bethanidine. However, this drug is less potent than guanethidine. Toxicity and side effects appear to be less with guanazodine than with guanethidine and bethanidine.

Diponium bromide ((2-[alpha,alpha-dicyclopentylacetoxy)- ethyl] triethylammonium bromide) is a muscarinic cholinergic receptor antagonist. It exerts antispasmodic action.

Timepidium bromide is a quaternary ammonium antimuscarinic used for the symptomatic treatment of visceral spasms. It is a muscarinic antagonist.

Obidoxime is an antidote for organophosphorous nerve agent poisoning including chlorosarin, cyclosarin (GF), R-33 (VR), R-VX, sarin (GB), tabun (GA), VX, chlorosoman, soman (GD), and organophosphorous pesticides. It acts as an acetylcholinesterase (AChE) reactivator. In combination with atropine obidoxime can be used to treat super toxic organophosphate poisoning by relieving the symptoms of skeletal neuromuscular blocking that occurs during a cholinergic crisis.

Budipine is an antiparkinsonian drug, which was developed by Byk Gulden (now Takeda) for the treatment of Parkinson's disease. The drug has multiple mechanisms of action: it was found to interfere with dopamine biosynthesis, mainly by inhibiting MAO-B enzyme and stimulating aromatic L-amino acid decarboxylase. Also the drug inhibits the dopamine re-uptake and has weak affinity to NMDA and muscarinic receptors. Budipine passes the blood-brain barrier, is metabolized by hydroxylation, and is excreted by both in urine and feces within 24 h.

Oxypyrronium is an anticholinergic and spasmolytic agent containing quaternary ammonium. In animal models it inhibited gastric motility, hypotension induced by vagus stimulation or intravenation of acetylcholine; salivation induced by chorda tympani nerve stimulation, and contraction elicited by preganglionic cervical sympathetic nerve stimulation. Oxypyrronium was marketed in France under tradename Immetropan for the treatment of gastric pain.

Remoxipride is a substituted benzamide. It is a weak, but relatively selective, central dopamine D2-receptor antagonist and appears to have preferential affinity for extrastriatal dopamine D2-receptors. It also has marked affinity for central sigma receptors. It was introduced by Astra (Roxiam) at the end of the eighties and was prescribed as an atypical antipsychotic. Remoxipride was withdrawn from the market worldwide by Astra because of several cases of aplastic anaemia associated with the drug.

Benfluorex under trade name Mediator was launched in 1976 for controlling blood sugar levels in people with type 2 diabetes. In 2009 this drug together with others medicines containing it was withdrawn because of the risk of heart valve disease. The mechanisms by which benfluorex reduces hepatic gluconeogenesis are markedly different from those of metformin, the main antidiabetic compound used in the world. It was suggested that inhibition of gluconeogenesis by benfluorex was, at least in part, due to a decrease in mitochondrial β-oxidation. First, benfluorex decreased acetyl-CoA concentration, which in turn would reduce pyruvate carboxylase activity and release its inhibitory effect on pyruvate dehydrogenase. Second, benfluorex decreased both the ATP-to-ADP and the NAD+-to-NADH ratios, leading to a reduced gluconeogenic flux at the level of 3-phosphoglycerate kinase and GAPDH. Changes in cellular redox state represent probably the main mechanism by which benfluorex reduces glucose production in hepatocytes.

Clorprenaline is a β2-adrenergic receptor agonist. As a bronchodilator it has been used for the treatment of bronchial asthma, bronchitis and other respiratory diseases. It is a potential new lean meat-boosting feed additive because it can promote animal muscular mass growth and decrease fat accumulation.