A Novel Heterocyclic Compound CE-104 Enhances Spatial Working Memory in the Radial Arm Maze in Rats and Modulates the Dopaminergic System

Various psychostimulants targeting monoamine neurotransmitter transporters (MAT) have been shown to rescue cognition in patients with neurological disorders and improve cognitive abilities in healthy subjects at low doses. Here, we examined the effects upon cognition of a chemically synthetized novel MAT inhibiting compound 2-(benzhydrylsulfinylmethyl)-4-methylthiazole (named as CE-104). The efficacy of CE-104 in blocking MAT (DAT – dopamine transporter, SERT – serotonin transporter and NET – norepinephrine transporter) was determined using in vitro neurotransmitter uptake assay. The effect of the drug at low doses (1 and 10mg/kg) on spatial memory was studied in male rats in the radial arm maze (RAM). Furthermore, the dopamine receptor and transporter complex levels of frontal cortex (FC) tissue of trained and untrained animals treated either with the drug or vehicle were quantified on blue native PAGE (BN-PAGE). The drug inhibited dopamine (IC50: 27.88µM) and norepinephrine uptake (IC50: 160.40µM), but had a negligible effect on SERT. In the RAM, both drug-dose groups improved spatial working memory during the performance phase of RAM as compared to vehicle. BN-PAGE western blot quantification of dopamine receptor and transporter complexes revealed that D1, D2, D3 and DAT complexes were modulated due to training and by drug effects. The drug’s ability to block DAT and its influence on dopamine transporter and receptor complex levels in the FC is proposed as a possible mechanism for the observed learning and memory enhancement in the RAM

The Novel Analogue of Modafinil CE-158 Protects Social Memory against Interference and Triggers the Release of Dopamine in the Nucleus Accumbens of Mice

Previous studies have shown that atypical dopamine-transporter-inhibitors such as modafinil and its analogues modify behavioral and cognitive functions in rodents. Here, we tested potential promnestic effects of the novel, more dopamine-transporter selective modafinil analogue CE-158 in the social discrimination memory task in male mice. Systemic administration of CE-158 1 h before the social learning event prevented the impairment of social-recognition memory following retroactive interference 3 h after the learning session of a juvenile conspecific. This effect was dose-dependent, as mice treated with 10 mg/kg, but not with 1 mg/kg CE-158, were able to discriminate between the novel and familiar conspecific despite the presentation of an interference stimulus, both 3 h and 6 h post learning. However, when 10 mg/kg of the drug was administered after learning, CE-158 failed to prevent social memory from interference. Paralleling these behavioral effects, the systemic administration of 10 mg/kg CE-158 caused a rapid and sustained elevation of extracellular dopamine in the nucleus accumbens, a brain area where dopaminergic signaling plays a key role in learning and memory function, of freely moving mice, while 1 mg/kg was not sufficient for altering dopamine levels. Taken together, our findings suggest promnestic effects of the novel dopamine-transporter-inhibitor CE-158 in a social recognition memory test that may be in part mediated via increased dopamine-neurotransmission in the nucleus accumbens. Thus, selective-dopamine-transporter-inhibitors such as CE-158 may represent interesting drug candidates for the treatment of memory complaints observed in humans with cognitive impairments and dementia

Immunosuppression With 4SC-101, a Novel Inhibitor of Dihydroorotate Dehydrogenase, in a Rat Model of Renal Transplantation

BACKGROUND: 4SC-101 is a novel dihydroorotate dehydrogenase inhibitor and a blocker of interleukin (IL)-17 secretion with beneficial effects in experimental lupus and inflammatory bowel disease. Its immunomodulatory effect on acute kidney rejection is not known; therefore, in this study, the impact of 4SC-101 was examined in a rat model of acute kidney rejection. METHODS: The kidneys of Brown-Norway rats were orthotopically transplanted into bilaterally nephrectomized Lewis recipients. Allograft recipients were administered with 4SC-101 at dosages of 4, 20, or 60 mg/kg per day, and survival was assessed. In the second setting, the animals were harvested 3 or 5 days after transplantation (Tx), and graft histologic diagnosis was determined. The effects of 4SC-101 on impaired renal function were examined in a model of 5/6 nephrectomy in Lewis rats. RESULTS: The recipients treated with 20-mg/kg 4SC-101 showed prolonged survival compared with placebo-treated animals (mean+/-SEM, 24+/-9.3 vs. 5.4+/-3 days), paralleled by less severe histologic features of acute kidney rejection such as interstitial/perivascular infiltration and tubulitis 3 and 5 days after Tx, and a lower level of IL-17 messenger RNA 5 days after Tx compared with the placebo-treated animals. In the 5/6 nephrectomy model, 20-mg/kg 4SC-101 reduced proteinuria, glomerulosclerosis, and fibrosis with decreased IL-17 messenger RNA expression. CONCLUSIONS: 4SC-101 prolongs survival after Tx, paralleled by amelioration of histologic signs of acute rejection. Furthermore, it showed no worsening effects on kidney function in a remnant kidney model and even slowed the progression of proteinuria and kidney fibrosis. Therefore, 4SC- 101 might be a promising pharmaceutical agent in Tx medicine for further investigations

Reinstatement of synaptic plasticity in the aging brain through specific dopamine transporter inhibition

Aging-related neurological deficits negatively impact mental health, productivity, and social interactions leading to a pronounced socioeconomic burden. Since declining brain dopamine signaling during aging is associated with the onset of neurological impairments, we produced a selective dopamine transporter (DAT) inhibitor to restore endogenous dopamine levels and improve cognitive function. We describe the synthesis and pharmacological profile of (S,S)-CE-158, a highly specific DAT inhibitor, which increases dopamine levels in brain regions associated with cognition. We find both a potentiation of neurotransmission and coincident restoration of dendritic spines in the dorsal hippocampus, indicative of reinstatement of dopamine-induced synaptic plasticity in aging rodents. Treatment with (S,S)-CE-158 significantly improved behavioral flexibility in scopolamine-compromised animals and increased the number of spontaneously active prefrontal cortical neurons, both in young and aging rodents. In addition, (S,S)-CE-158 restored learning and memory recall in aging rats comparable to their young performance in a hippocampus-dependent hole board test. In sum, we present a well-tolerated, highly selective DAT inhibitor that normalizes the age-related decline in cognitive function at a synaptic level through increased dopamine signaling