A robust, state-of-the-art amperometric microbiosensor for glutamate detection.

Scientific knowledge of glutamate (GLU) neurobiology is severely hampered by the inadequacy of the available in vivo brain sampling techniques. Due to the crucial role of GLU in central nervous system function and pathology, the development of a reliable sampling device is mandatory. GLU biosensor holds potential to address many of the known issues of in vivo GLU measurement. We report here on the development and test of a labor- and cost-effective microbiosensor, suitable to be applied for measuring brain GLU. A glycerol-based cryopreservation method was also tested. Needle type Pt biosensors were coated with a permselective Nafion-Poly(o-phenylenediamine) layer and cross-linked to l-glutamate oxidase with poly(ethylene glycol) diglycidyl ether. Tested in vitro, the device shows high sensitivity and specificity for GLU, while being poorly influenced by common interfering substances such as ascorbate, dopamine and dihydroxyphenylacetic acid. Further, the cryopreservation procedure kept sensitivity unaltered for 30 days and possibly longer. We conclude that a highly efficient GLU biosensor of minimal dimensions can be consistently and affordably constructed with relative ease. Together with the possibility of cryopreservation this shall foster diffusion and exploitation of GLU biosensors technology.

A relationship between bruxism and orofacial-dystonia? A trigeminal electrophysiological approach in a case report of pineal cavernoma.

BACKGROUND: In some clinical cases, bruxism may be correlated to central nervous system hyperexcitability, suggesting that bruxism may represent a subclinical form of dystonia. To examine this hypothesis, we performed an electrophysiological evaluation of the excitability of the trigeminal nervous system in a patient affected by pineal cavernoma with pain symptoms in the orofacial region and pronounced bruxism. METHODS: Electrophysiological studies included bilateral electrical transcranial stimulation of the trigeminal roots, analysis of the jaw jerk reflex, recovery cycle of masseter inhibitory reflex, and a magnetic resonance imaging study of the brain. RESULTS: The neuromuscular responses of the left- and right-side bilateral trigeminal motor potentials showed a high degree of symmetry in latency (1.92 ms and 1.96 ms, respectively) and amplitude (11 mV and 11.4 mV, respectively), whereas the jaw jerk reflex amplitude of the right and left masseters was 5.1 mV and 8.9 mV, respectively. The test stimulus for the recovery cycle of masseter inhibitory reflex evoked both silent periods at an interstimulus interval of 150 ms. The duration of the second silent period evoked by the test stimulus was 61 ms and 54 ms on the right and left masseters, respectively, which was greater than that evoked by the conditioning stimulus (39 ms and 35 ms, respectively). CONCLUSIONS: We found evidence of activation and peripheral sensitization of the nociceptive fibers, the primary and secondary nociceptive neurons in the central nervous system, and the endogenous pain control systems (including both the inhibitory and facilitatory processes), in the tested subject. These data suggest that bruxism and central orofacial pain can coexist, but are two independent symptoms, which may explain why numerous experimental and clinical studies fail to reach unequivocal conclusions.

Acute restraint stress prevents nicotine-induced mesolimbic dopaminergic activation via a corticosterone-mediated mechanism: a microdialysis study in the rat.

BACKGROUND: Stress affects the responsiveness to nicotine (NIC), by increasing drug use, facilitating relapse and reinstating NIC self administration even after prolonged abstinence. In turn, high corticosterone (CORT) blood levels induced by stress may alter the neurobiological properties of NIC by acting on the dopamine (DA) mesolimbic system. METHODS: In this study, we evaluated the effect of exposure to acute restraint stress on NIC-induced stimulation of the mesolimbic DA system of the rat, by studying extracellular DA levels in the nucleus accumbens shell (NAccs) with microdialysis. RESULTS: NIC intravenous administration (130 µg/kg) increased DA levels in the NAccs in control rats but not in subjects exposed to stress; this latter phenomenon was prevented by blockade of CORT effects with the inhibitor of corticosterone synthesis metirapone (100 mg/kg) or the glucorticoid receptor antagonist mifepristone (150 µmol/kg). CONCLUSIONS: These observations show that exposure to acute stress inhibits the stimulatory response of the mesolimbic DA system to NIC and suggest that this effect is mediated by circulating CORT acting on its receptors. These results may bear relevance in explaining the role played by stressful stimuli in NIC-seeking and taking behavior.

Effect of (L)-cysteine on acetaldehyde self-administration.

Acetaldehyde (ACD), the first metabolite of ethanol, has been implicated in several behavioural actions of alcohol, including its reinforcing effects. Recently, we reported that l-cysteine, a sequestrating agent of ACD, reduced oral ethanol self-administration and that ACD was orally self-administered. This study examined the effects of l-cysteine pre-treatment during the acquisition and maintenance phases of ACD (0.2%) self-administration as well as on the deprivation effect after ACD extinction and on a progressive ratio (PR) schedule of reinforcement. In a separate PR schedule of reinforcement, the effect of l-cysteine was assessed on the break-point produced by ethanol (10%). Furthermore, we tested the effect of l-cysteine on saccharin (0.2%) reinforcement. Wistar rats were trained to self-administer ACD by nose poking on a fixed ratio (FR1) schedule in 30-min daily sessions. Responses on an active nose-poke caused delivery of ACD solution, whereas responses on an inactive nose-poke had no consequences. l-cysteine reduced the acquisition (40 mg/kg), the maintenance and the deprivation effect (100 mg/kg) of ACD self-administration. Furthermore, at the same dose, l-cysteine (120 mg/kg) decreased both ACD and ethanol break point. In addition, l-cysteine was unable to suppress the different responses for saccharin, suggesting that its effect did not relate to an unspecific decrease in a general motivational state. Compared to saline, l-cysteine did not modify responses on inactive nose-pokes, suggesting an absence of a non-specific behavioural activation. Taken together, these results could support the hypotheses that ACD possesses reinforcing properties and l-cysteine reduces motivation to self-administer ACD.

L-cysteine prevents ethanol-induced stimulation of mesolimbic dopamine transmission.

BACKGROUND: Acetaldehyde (ACD), the first metabolite of ethanol (EtOH) appears to be involved in many of the psychoactive effects of its parent compound, including EtOH-induced activation of the mesolimbic dopamine (DA) system, thereby suggesting that ACD may participate in EtOH motivational properties. l-cysteine (Lcys), a thiol compound sequestering ACD, is able to prevent the behavioral effect of EtOH and ACD. Here we show that the stimulatory effect of both EtOH and ACD on the mesolimbic DA system is prevented by Lcys pretreatment. METHODS: Male Wistar rats were implanted with a microdialysis probe in the nucleus accumbens shell (NAccs), and pretreated intraperitoneally with Lcys (30 mg/kg) before intragastric administration of EtOH (1 g/kg) or ACD (20 mg/kg) or before intraperitoneal administration of morphine (2.5 mg/kg). RESULTS: Pretreatment with Lcys prevented both EtOH and ACD-induced DA release in the NAccs without influencing morphine-induced DA release, suggesting that Lcys specifically affects EtOH-induced DA release possibly through ACD sequestering. CONCLUSIONS: Our results underscore the role of ACD on EtOH-induced stimulation of DA mesoaccumbens system and support the notion that thiol compounds such as Lcys, by modulating EtOH-derived ACD bioavailability, would blunt EtOH rewarding properties.

Acetaldehyde sequestering prevents ethanol-induced stimulation of mesolimbic dopamine transmission.

Acetaldehyde (ACD) has been postulated to mediate some of the neurobehavioral effects of ethanol (EtOH). In this study we sought to evaluate whether the stimulatory effects of EtOH on mesolimbic dopamine (DA) transmission are affected by the administration of ACD-sequestering agent D-penicillamine (Dp). To this end we studied the effect of EtOH and ACD in the rat mesoaccumbens pathway by in vivo microdialysis in the nucleus accumbens shell (NAccs), and by single cell extracellular recordings from antidromically identified mesoaccumbens DA neurons in the ventral tegmental area (VTA). Both EtOH (1g/kg) and ACD (20mg/kg) administration increased DA levels in the NAccs and increased the activity of mesoaccumbens DA neurons. Pretreatment with Dp (50mg/kg i.p. 1h before drug challenge) prevented both EtOH- and ACD-induced stimulation of the DA mesolimbic system without affecting morphine stimulatory actions. These observations add further support to the notion that EtOH-derived ACD stimulates the mesolimbic DA system and is essential in EtOH-induced stimulation of the DA mesoaccumbens system. We conclude that modulation of ACD bioavailability may influence the addictive profile of EtOH by decreasing its psychotropic effects and possibly leading the way to new pharmacological treatments of alcoholism.

Crucial role of acetaldehyde in alcohol activation of the mesolimbic dopamine system.

Ethyl alcohol (EtOH), the main psychoactive ingredient of alcoholic drinks, is widely considered responsible for alcohol abuse and alcoholism through its positive motivational properties, which depend, at least partially, on the activation of the mesolimbic dopaminergic system. On the other hand, acetaldehyde (ACD), EtOH's first metabolite, has been classically considered aversive and useful in the pharmacologic therapy of alcoholics. Here we show that EtOH-derived ACD is necessary for EtOH-induced place preference, a preclinical test with high predictive validity for reward liability. We also found that ACD is essential for EtOH-increased microdialysate dopamine (DA) levels in the nucleus accumbens (NAcc), and that this effect is mimicked by ACD administration to the intraventral tegmental area (VTA). Furthermore, in vitro, ACD enhances VTA DA neuronal firing. Coherently, EtOH-stimulating properties on DA neurons are prevented by pharmacologic blockade of local catalase: the main metabolic step for biotransformation of EtOH into ACD in the central nervous system. These results provide in vivo and in vitro evidence for a key role of ACD in EtOH motivational properties and its activation of the mesolimbic DA system. Additionally, these observations suggest that ACD, by increasing VTA DA neuronal activity, would oppose its well-known peripherally originating aversive properties. These findings could help in devising new effective pharmacologic therapies in alcoholism.

Antioxidants, minerals, vitamins, and herbal remedies in tinnitus therapy.

The use of complementary and alternative medicine (CAM) is very popular in western countries and several CAM products are often used by individuals with tinnitus with or without medical guidance. CAM pharmacological approach to tinnitus today is mainly based on vitamins and minerals (dietary supplements), antioxidants, and herbal medications. Despite the popularity of CAM products, the evidence regarding their efficacy against tinnitus is in general scarce and their potential toxic effects are often underestimated or even neglected. In this paper the available literature on the efficacy of dietary supplements, antioxidants, and herbal medications against tinnitus is reviewed, and some of the major potential toxic effects are discussed. It is concluded that the use of CAM products in tinnitus therapy in general lack substantial scientific support, and that these substances are probably not clinically effective either. However, it is difficult to draw clear-cut conclusions regarding CAM pharmacological approach to tinnitus. In fact, the subjective nature of tinnitus and the reported variability in patient's response to therapy indicate that several non-pharmacological factors may be influencing drug effects, with the placebo effect playing a major role. Nevertheless, in view of the potential harm that may occur from inappropriate use of CAM products, physicians need to be aware of their principal characteristics with particular emphasis on toxicity and possibilities of interaction with prescription drugs.