High mTORC1 activity drives glycolysis addiction and sensitivity to G6PD inhibition in acute myeloid leukemia cells.

Alterations in metabolic activities are cancer hallmarks that offer a wide range of new therapeutic opportunities. Here we decipher the interplay between mTORC1 activity and glucose metabolism in acute myeloid leukemia (AML). We show that mTORC1 signaling that is constantly overactivated in AML cells promotes glycolysis and leads to glucose addiction. The level of mTORC1 activity determines the sensitivity of AML cells to glycolysis inhibition as switch-off mTORC1 activity leads to glucose-independent cell survival that is sustained by an increase in mitochondrial oxidative phosphorylation. Metabolic analysis identified the pentose phosphate pathway (PPP) as an important pro-survival pathway for glucose metabolism in AML cells with high mTORC1 activity and provided a clear rational for targeting glucose-6-phosphate dehydrogenase (G6PD) in AML. Indeed, our analysis of the cancer genome atlas AML database pinpointed G6PD as a new biomarker in AML, as its overexpression correlated with an adverse prognosis in this cohort. Targeting the PPP using the G6PD inhibitor 6-aminonicotinamide induces in vitro and in vivo cytotoxicity against AML cells and synergistically sensitizes leukemic cells to chemotherapy. Our results demonstrate that high mTORC1 activity creates a specific vulnerability to G6PD inhibition that may work as a new AML therapy.

An investigation of the mechanisms responsible for acute fluoxetine-induced anxiogenic-like effects in mice.

Although selective 5-hydroxytryptamine (5-HT) reuptake inhibitors (SSRIs) are widely used in the chronic treatment of several anxiety disorders, increased anxiety has been observed in some patients at the beginning of treatment with these compounds. Similar increases in anxiety-related behaviors have been observed in animal studies following a single injection with SSRIs. The mechanism underlying this effect is unclear. The aim of the present study was to investigate the effects of a variety of psychoactive compounds on the anxiogenic-like activity of fluoxetine. The drugs used included the benzodiazepine diazepam, the 5-HT1A receptor partial agonist buspirone, the 5-HT1A receptor antagonists pindolol and WAY-100635, the non-selective 5-HT2 receptor antagonists methiothepin, mianserin and ritanserin, the non-selective dopamine (DA) receptor antagonist haloperidol, the D1 antagonist SCH23390, the selective D2 antagonist raclopride, the D2/3 agonist quinelorane, the cholecystokininB (CCK(B)) receptor antagonist LY 288513, and the corticotropin-releasing factor1 (CRF1) receptor antagonist CP-154,526. Experiments were performed in the free-exploration test. This model is based on the strong neophobic reactions exhibited by BALB/c mice when confronted simultaneously with a familiar and a novel environment. When administered alone, diazepam (1 and 2 mg/kg), buspirone (1 mg/kg) and mianserin (0.3 mg/kg) produced anxiolytic-like effects as they significantly increased exploratory activity of the novel compartment. In contrast, fluoxetine (20 mg/kg) almost completely suppressed exploration of the novel area. Diazepam reversed the anxiogenic-like as well as the locomotor impairment induced by fluoxetine, while quinelorane blocked only the anxiogenic action of fluoxetine. None of the other compounds was able to counteract this effect. Taken together, these results suggest that dopaminergic mechanisms may underlie, at least in part, the behavioral effects of fluoxetine in the free-exploration test, whereas 5-HT1A 5-HT2, CCK(B) and CRF1 receptors may not be involved primarily in these effects.

Absence of cocaine-induced place conditioning in serotonin 1B receptor knock-out mice.

A large body of evidence suggests that genetic factors may affect the reinforcing properties of drugs of abuse. This study investigated the involvement of the serotonin 1B (5-HT1B) receptor in modulating cocaine-induced place conditioning by comparing the response of 5-HT1B receptor gene knock-out mice with wild type 129/Sv-ter mice. The rewarding effects of various doses of cocaine (0, 2.5, 5, 10, 20, and 40 mg/kg) were examined in both strains. Results clearly show that 5-HT1B receptor knock-out mice failed to display a conditioned place preference for stimuli paired with cocaine while wild type mice exhibited a conditioned place preference for the compartment paired with cocaine (5 and 20 mg/kg). As other studies showed that 5-HT1B knock-out mice self-administer cocaine, these results suggest a dissociation between the psychologic state linked to self-administration and the one measured in conditioned place preference.

Naloxone potentiates anxiolytic-like actions of diazepam, pentobarbital and meprobamate but not those of Ro19-8022 in the rat.

The elevated plus-maze test was used to determine if the opiate antagonist naloxone could potentiate the anxiolytic-like effects of the benzodiazepine diazepam, the barbiturate pentobarbital, the propanediol carbamate meprobamate and the partial benzodiazepine receptor agonist [R]-1-[(10-chloro-4-oxo-3-phenyl-4H-benzo[a]quinolizin-1-yl) carbonyl]-2-pyrrolidine-methanol (Ro19-8022) in the rat. A subeffective dose of each of these compounds was combined with naloxone, 10 mg/kg. Naloxone had no effect by itself, but potentiated all drugs except Ro19-8022. The proportion of entries on the open arm increased while the total number of arms entries was not modified. These results coincide with and extend data previously obtained in the mouse. One possible explanation for naloxone's effect could be that it blocks opioid inhibition of GABAergic (gamma-aminobutyric acid) neurons thereby enhancing the effects of benzodiazepines. Another possibility is that naloxone blocks opioid effects on adenosinergic systems.

Differences in drug-induced place conditioning between BALB/c and C57Bl/6 mice.

The influence of genotype on the rewarding effects of morphine (0, 1, 3, and 9 mg/kg), amphetamine (0, 0.5, 1, and 2 mg/kg), and cocaine (0, 2.5, 5, and 10 mg/kg) was examined in a place-conditioning paradigm. Two strains of mice, the BALB/cByJIco and the C57BL/6JIco, were used, notably because of their high difference in novelty-seeking behavior. Indeed, high novelty seeking has been associated with an increased risk for using drugs of abuse. Results clearly show that C57BL/6 mice display a conditioned place preference for stimuli paired with morphine, amphetamine, or cocaine. In contrast, BALB/c mice demonstrated place preference to morphine and place aversion to amphetamine, while cocaine was ineffective at the doses tested. No treatment induced differences in the locomotion measured in a drug-free condition. Results may be related to differences at the behavioral (difference in novelty seeking) or neurochemical level (differences in catecholaminergic or opioidergic neurotransmission).

Pulling smarties out of a bag: a Headed Records analysis of children's recall of their own past beliefs.

The work reported provides an information processing account of young children's performance on the Smarties task (Perner, J., Leekam, S.R., & Wimmer, H. 1987, Three-year-olds' difficulty with false belief: the case for a conceptual deficit. British Journal of Developmental Psychology, 5, 125-137). In this task, a 3-year-old is shown a Smarties tube and asked about the supposed contents. The true contents, pencils, is then revealed, and the majority of 3-year-olds cannot recall their initial belief that the tube contained Smarties. The theoretical analysis, based on the Headed Records framework (Morton, J., Hammersley, R.J., & Bekerian, D.A. 1985, Headed records: a model for memory and its failures, Cognition, 20, 1-23), focuses on the computational conditions that are required to resolve the Smarties task; on the possible limitations in the developing memory system that may lead to a computational breakdown; and on ways of bypassing such limitations to ensure correct resolution. The design, motivated by this analysis, is a variation on Perner's Smarties task. Instead of revealing the tube's contents immediately after establishing the child's beliefs about it, these contents were then transferred to a bag and a (false) belief about the bag's contents established. Only then were the true contents of the bag revealed. The same procedure (different contents) was carried out a week later. As predicted children's performance was better (a) in the 'tube' condition; and (b) on the second test. Consistent with the proposed analysis, the data show that when the computational demands imposed by the original task are reduced, young children can and do remember what they had thought about the contents of the tube even after its true contents are revealed.

Alpha-linolenic acid deficiency modifies distractibility but not anxiety and locomotion in rats during aging.

In rodents, chronic dietary alpha-linolenic acid deficiency decreases learning and memory and alters dopaminergic and serotoninergic neurotransmission. However, these two neurotransmitter systems are related mainly to attention, emotion and locomotion. Therefore, we decided to investigate the effects of dietary alpha-linolenic acid deficiency in rats tested with animal models of distractibility (the distractometer procedure), anxiety (the elevated plus maze) and ambulatory activity (a circular corridor). Moreover, because these neurochemical modifications persist during aging, we decided to study the effects of aging on these behaviors by using rats aged 2, 6, 12 and 24 mo. An age-related decline in distractibility was observed that was accelerated by linolenic acid deficiency. Indeed, an age-related reduction in distractibility was found in so far as distraction time was reduced at the age of 12 mo in controls and at the age of 24 mo in deficient groups compared with 2-mo-old rats. Moreover, distraction time was significantly lower in 6- and 24-mo-old rats fed a deficient diet compared with age-matched controls. Anxiety was not modified by diet or age. Finally, a parallel decrease in locomotion was exhibited by rats fed both diets between 6 and 12 mo of age. Locomotion was not modified by diet. These results show that dietary alpha-linolenic deficiency alters behavior in a very specific way; distractibility is modified by diet, whereas anxiety and locomotion are not, suggesting that particular brain areas may be altered.

Social motivation in recently weaned rats is modified by opiates.

An open field choice test was used to determine whether maternal deprivation enhanced the motivation to stay close to the mother. Pups could choose between the dam, 3 sisters and 3 unknown animals of the same age. In addition, an empty enclosure identical to those that contained the stimulus animals were present as a nonsocial choice. Rats that were separated from their mother at 20 days of age and tested about 13 h later were compared to animals that had stayed with the mother until just before the test. It was found that maternal separation increased the time spent close to the mother and reduced that spent close to strangers or an empty enclosure. In fact, weaned animals spent far more time close to the mother than they spent close to any other available choice. Moreover, the mean duration of visits to the mother was much increased during the latter half of the 60-min test. These data were interpreted as showing that the mother had rewarding properties, and that maternal deprivation increased her reward value. In further experiments, the role of opioids for this increase in reward value was evaluated. Morphine enhanced the time spent close to the mother, but only in animals that had been subjected to maternal deprivation for about 13 h. Naloxone had the opposite effect. These data show that the mother's reward value is altered when the activity of opioid systems is modified. It is suggested that the mother acquires rewarding properties because of association with nutritive suckling-induced opioid release.