Reinforcing and locomotor stimulant effects of cocaine are absent in mGluR5 null mutant mice.

Both ionotropic and metabotropic glutamate receptors (mGluRs) are involved in the behavioral effects of pyschostimulants; however, the specific contributions of individual mGluR subtypes remain unknown. Here we show that mice lacking the mGluR5 gene do not self-administer cocaine, and show no increased locomotor activity following cocaine treatment, despite showing cocaine-induced increases in nucleus accumbens (NAcc) dopamine (DA) levels similar to wild-type (WT) mice. These results demonstrate a significant contribution of mGlu5 receptors to the behavioral effects of cocaine, and suggest that they may be involved in cocaine addiction.

Altered neuroadaptation in opiate dependence and neurogenic inflammatory nociception in alpha CGRP-deficient mice.

The neuropeptide alpha CGRP (calcitonin gene-related peptide) is involved in the complex process of pain signaling, but the precise contribution of alpha CGRP remains unclear. Here we show that mice lacking alpha CGRP display an attenuated response to chemical pain and inflammation. Furthermore, alpha CGRP(-/-) mice do not show changes in heroin self-administration or morphine tolerance, but display a marked decrease in morphine withdrawal signs, suggesting an important contribution of alpha CGRP to opiate withdrawal.

Blockade of nicotine self-administration with nicotinic antagonists in rats.

The reinforcing properties of a variety of drugs abused by humans have been investigated using the technique of intravenous self-administration in the rat. To examine the effect of nicotine dose on nicotine self-administration, Wistar rats were allowed to self-administer various doses of nicotine using a within-subjects Latin square design. An inverted U-shaped dose response curve was obtained, with the highest rates of responding at the 0.03 mg/kg/inf dose. With 1-h daily nicotine self-administration sessions, rats did not appear dependent on nicotine 24 h later, as indicated by the absence of somatic signs of withdrawal after subcutaneous injection of a nicotinic acetylcholine receptor antagonist, mecamylamine (0.57 mg/kg). In another set of studies, pretreatment with subcutaneous mecamylamine or dihydro-beta-erythroidine, two nicotinic acetylcholine receptor antagonists, resulted in significant dose-dependent reductions in nicotine self-administration, at two nicotine doses (0.03 and 0.06 mg/kg/inf). These results indicate that nicotine is an effective reinforcer in Wistar rats under the present parameters, and that these reinforcing effects are mediated by activation of nicotinic acetylcholine receptors.

Transgenic mice in drug dependence research.

Transgenic mice with null mutation of specific genes of the central nervous system obtained by homologous recombination, called also knock-out mice, have been recently used by behavioural neuroscientists to understand better the relevance of certain biological mechanisms of drug dependence or addiction. This article reviews some of the main contributions to this fastly developing field. As addictive drugs exert similar reinforcing effects both in humans and other mammals, changes in behavioural performance produced by the motivational effects of the addictive drugs in knock-out mice can give important information about the relevance of that particular gene product (eg a neurotransmitter receptor) for the pathogenicity of substance abuse disorders. In same cases the deletion of a given gene for a neurotransmitter receptor involved in the action of addictive drugs is associated with a phenotype that reproduces the effects obtained by the pharmacological administration of an antagonist for the same receptor. In other instances, surprising results are obtained, the most striking being the evidence that mice lacking the dopamine transporter gene, the most important binding site of cocaine, retain the capability to self-administer cocaine intravenously. Because the gene deletion is operative during embryogenesis, some adaptive compensatory mechanisms may produce unexpected results, suggesting caution in the interpretation of these results. The advent of tissue-specific inducible knock-out mice will soon produce a second revolution in the field of substance abuse research.

The dopamine D-1 receptor antagonist SCH 23390 injected into the dorsolateral bed nucleus of the stria terminalis decreased cocaine reinforcement in the rat.

The effects of bilateral intracranial injections of the D-1 dopamine receptor antagonist SCH 23390 HCl (0, 0.8, 1.6, 3.2, and 6.4 microgram total bilateral dose) administered into the dorsolateral bed nucleus of the stria terminalis (dlBNST) immediately prior to a 3 h intravenous cocaine self-administration session were examined. In addition, anatomical control injections of the most effective dose of SCH 23390 HCl (6.4 micogram) were made either 1.5 mm dorsal to the dlBNST or into the lateral ventricle. Injections directly into the dlBNST, but not those dorsal to the dlBNST or into the lateral ventricle, significantly increased the rate of cocaine self-administration within the first 20 min of the self-administration session, consistent with a partial attenuation of the reinforcing effects of cocaine under a fixed-ratio schedule of reinforcement (0.25 mg cocaine iv; fixed-ratio 5, timeout 20 s). Injections into all three sites increased cocaine self-administration across the entire 3 h session. These results suggest a role for D-1 dopamine receptors in the dlBNST in the reinforcing properties of self-administered cocaine, and also support the hypothesis that D-1 dopamine receptors in the 'extended amygdala' may play a significant role in cocaine self-administration.

Dramatic decreases in brain reward function during nicotine withdrawal.

Tobacco smoking is a worldwide public health problem. In the United States alone, over 400,000 deaths and $50 billion in medical costs annually are directly attributed to smoking. Accumulated evidence indicates that nicotine is the component of tobacco smoke that leads to addiction, but the means by which nicotine produces addiction remain unclear. Nicotine is less effective as a positive reinforcer than other drugs of abuse in non-dependent animals. Nevertheless, nicotine-withdrawal symptoms, including depressed mood, anxiety, irritability and craving in dependent subjects may contribute to the addictive liability of nicotine. We show here that spontaneous nicotine withdrawal in rats resulted in a significant decrease in brain reward function, as measured by elevations in brain reward thresholds, which persisted for four days. Further, systemic injections of a competitive nicotinic-receptor antagonist led to a dose-dependent increase in brain reward thresholds in chronic nicotine-treated rats. The decreased function in brain reward systems during nicotine withdrawal is comparable in magnitude and duration to that of other major drugs of abuse, and may constitute an important motivational factor that contributes to craving, relapse and continued tobacco consumption in humans.