Véronique Deroche‐Gamonet

Although the voluntary intake of drugs of abuse is a behavior largely preserved throughout phylogeny, it is currently unclear whether pathological drug use ("addiction") can be observed in species other than humans. Here, we report that behaviors that resemble three of the essential diagnostic criteria for addiction appear over time in rats trained to self-administer cocaine. As in humans, this addiction-like behavior is present only in a small proportion of subjects using cocaine and is highly predictive of relapse after withdrawal. These findings provide a new basis for developing a true understanding and treatment of addiction.

Addicts Lose Plasticity What are the biological mechanisms associated with the transition from occasional drug use to addiction? In rats, like in humans, even after a prolonged period of drug intake, only a limited number of animals develop addiction-like behavior despite the amount of drug taken by all subjects being the same. Kasanetz et al. (p. 1709 ) compared the expression of N -methyl- d -aspartate (NMDA)–dependent long-term depression (NMDA-LTD) in the nucleus accumbens of addicted and nonaddicted rats. Initially, once drug self-administration had been learned and consolidated, but before the appearance of addiction-like behavior, LTD was suppressed in all animals independently of their vulnerability to addiction at a later stage. However, after 2 months, when addiction-like behavior appears, LTD was persistently lost in the addicted animals. In contrast, normal NMDA-LTD reappeared in animals that maintained a controlled drug intake without becoming addicted.

Pregnenolone is considered the inactive precursor of all steroid hormones, and its potential functional effects have been largely uninvestigated. The administration of the main active principle of Cannabis sativa (marijuana), Δ(9)-tetrahydrocannabinol (THC), substantially increases the synthesis of pregnenolone in the brain via activation of the type-1 cannabinoid (CB1) receptor. Pregnenolone then, acting as a signaling-specific inhibitor of the CB1 receptor, reduces several effects of THC. This negative feedback mediated by pregnenolone reveals a previously unknown paracrine/autocrine loop protecting the brain from CB1 receptor overactivation that could open an unforeseen approach for the treatment of cannabis intoxication and addiction.

Epidemiological studies indicate that there is an increased likelihood for the development of nicotine addiction when cigarette smoking starts early during adolescence. These observations suggest that adolescence could be a "critical" ontogenetic period, during which drugs of abuse have distinct effects responsible for the development of dependence later in life. We compared the long-term behavioral and molecular effects of repeated nicotine treatment during either periadolescence or postadolescence in rats. It was found that exposure to nicotine during periadolescence, but not a similar exposure in the postadolescent period, increased the intravenous self-administration of nicotine and the expression of distinct subunits of the ligand-gated acetylcholine receptor in adult animals. Both these changes indicated an increased sensitivity to the addictive properties of nicotine. In conclusion, adolescence seems to be a critical developmental period, characterized by enhanced neurobehavioral vulnerability to nicotine.