Pharmacokinetics of repinotan in healthy and brain injured animals.

Repinotan hydrochloride (repinotan) is a highly potent and selective 5-HT(1A) full receptor agonist. The ability of repinotan to cross the blood-brain barrier (BBB) and penetrate into rat brain tissue was investigated, because rapid penetration into brain tissue is thought to be essential for neuroprotective efficacy. Intravenous (i.v.) repinotan was rapidly distributed into brain, and the distribution equilibrium between blood and brain was reached immediately after the start of infusion. Free concentrations of repinotan were identical in brain and plasma, indicating that repinotan crosses the BBB freely in both directions with diffusion as a driving force. The brain concentration of repinotan was determined by the free plasma concentration. Thus, the total plasma concentration of repinotan (sum of bound and unbound compound) is only indicative for the brain concentration as long as the unbound fraction remains constant. Metabolites of repinotan do not penetrate the BBB and are retained in the perfusing blood due to their increased polarity. The penetration of [14C] repinotan into ischemic areas of the brain was dependent on time. In studies using injured animals (pMCAO), high levels of [14C] repinotan could be detected in ischemic areas when the compound was administered up to 5 h post injury. [14C] repinotan radioactivity could no longer be detected in ischemic areas when administered 18 h after pMCA-O. After the end of infusion, repinotan was rapidly and completely eliminated from rat brains. Elimination occurred in parallel from plasma and brain with half-lives of about 1 h. In conclusion, repinotan rapidly and to a considerable extent penetrates into brain tissue of healthy and injured animals.

BAY 38-7271: a novel highly selective and highly potent cannabinoid receptor agonist for the treatment of traumatic brain injury.

Traumatic brain injury (TBI) is the most common cause of mortality and morbidity in adults under 40 years of age in industrialized countries. Worldwide the incidence is increasing, about 9.5 million people are hospitalized per year due to TBI, and the death rate is estimated to be more than one million people per year. Recently BAY 38-7271 has been characterized as a structurally novel, selective and highly potent cannabinoid CB1/CB2 receptor agonist in vitro and in vivo with pronounced neuroprotective efficacy in a rat traumatic brain injury model, showing a therapeutic window of at least 5 h. Furthermore, neuroprotective efficacy was also found in models of transient and permanent occlusion of the middle cerebral artery and brain edema models as well. In this article we review the in vitro and in vivo pharmacology of BAY 38-7271, the results from acute and subacute toxicity studies, pharmacokinetics and drug metabolism in animals and healthy male volunteers. In phase I studies BAY 38-7271 was safe and well tolerated when administered by i.v. infusion for either 1 or 24 h. As the doses of BAY 38-7271 in animals needed for maximal neuroprotective efficacy were significantly lower than those inducing typical cannabinoid-like side effects, it is to be expected that the compound will offer a novel therapeutic approach with a favorable therapeutic window for the treatment of TBI or cerebral ischemia.