JDTic

JDTic is a selective, long-acting ('inactivating') antagonist of the κ-opioid receptor (KOR). JDTic is a 4-phenylpiperidine derivative, distantly related structurally to analgesics such as pethidine and ketobemidone, and more closely to the MOR antagonist alvimopan. In addition, it is structurally distinct from other KOR antagonists such as norbinaltorphimine.Overall, the adverse events attributed to JDtic were similar to those reported with placebo, except for cardiac events, such as bradycardia and ventricular tachycardia (VT), which were seen only in the JDTic group. The episodes of VT occurred in two subjects, were not sustained (NSVT), and were asymptomatic. Preclinical experiments in monkeys showed that JDTic administration resulted in a short run of NSVT. Other safety measurements, including clinical laboratory studies, 12-lead ECG, psychomotor function, and measures of mood, did not differ between group during admission or at follow-up. JDTic is a selective, long-acting ('inactivating') antagonist of the κ-opioid receptor (KOR). JDTic is a 4-phenylpiperidine derivative, distantly related structurally to analgesics such as pethidine and ketobemidone, and more closely to the MOR antagonist alvimopan. In addition, it is structurally distinct from other KOR antagonists such as norbinaltorphimine. JDTic is a long-acting ('inactivating') antagonist of the KOR, and is highly selective for the KOR over the μ-opioid receptor (MOR), δ-opioid receptor (DOR), and nociceptin receptor (NOP). It has a very long duration of action, with effects in animals seen for up to several weeks after administration of a single dose, although its binding to the KOR is not technically 'irreversible' and its long-acting effects are instead caused by altered activity of c-Jun N-terminal kinases. Animal studies suggest that JDTic may produce antidepressant, anxiolytic, and anti-stress effects, as well as having possible application in the treatment of addiction to cocaine and morphine. JDTic shows robust activity in animal models of depression, anxiety, stress-induced cocaine relapse, and nicotine withdrawal. The high affinity of JDTic for the KOR suggested that it might be a suitable ligand for promoting the crystallization of this receptor for X-ray crystallographic studies. Such experiments were successful and lead to the publication of the first report of a high-resolution structure of an opioid receptor . During phase I human clinical trials for the treatment of cocaine abuse, development of JDTic was halted due to the incidence of non-sustained ventricular tachycardia, a type of arrhythmia that can potentially be life-threatening. In addition, JDTic showed an unfavorable brain-to-plasma concentration ratio, indicating poor central nervous system penetration. As a result, new KOR antagonists with more favorable drug profiles (e.g., short-acting, improved brain penetration, etc.), such as ALKS-5461 (a combination of buprenorphine and samidorphan) and CERC-501 (formerly LY-2456302), are being developed instead. The discontinuation of the clinical development of JDTic is detailed in the following important literature quote: In the same paper, LY-2456302 (now CERC-501) was described, 'The LY2456302 compound developed by Eli Lilly is an example of a KOR antagonist that does not strongly activate JNK. In a recent phase 1 trial of LY2456302, the authors concluded that the drug was well-tolerated with no clinically significant findings (Lowe et al, 2014).' Note that KOR antagonists that strongly activate JNK are inactivating (long-acting) while those that do not are non-inactivating (short-acting), and that inactivating KOR antagonists are more 'complete' and hence potentially more risky inhibitors of the KOR than are non-inactivating antagonists.