CART (cocaine-and amphetamine-regulated transcript) peptides are neuromodulators that are involved in feeding, drug reward, stress, cardiovascular function, and bone remodeling. CART peptides are abundant but discretely distributed in the brain, pituitary and adrenal glands, pancreas, and gut. High expression of CART in discrete hypothalamic nuclei associated with feeding has led to behavioral and pharmacological studies that strongly support an anorectic action of CART in feeding. Subsequent studies on humans and transgenic animals provide additional evidence that CART is important in the regulation of appetite as mutations in the CART gene are linked to eating disorders, including obesity and anorexia. The expression of CART in the mesolimbic dopamine circuit has lead to functional studies demonstrating CART's psychostimulant-like effects on locomotor activity and conditioned place preference in rats. These and other findings demonstrated that CART modulates mesolimbic dopamine systems and affects psychostimulantinduced reward and reinforcing behaviors. The link between CART and psychostimulants was substantiated by demonstrating alterations of the CART system in human cocaine addicts. CART seems to regulate the mesolimbic dopamine system, which serves as a common mechanism of action for both feeding and addiction. Indeed, recent studies that demonstrated CART projections from specific hypothalamic areas associated with feeding to specific mesolimbic areas linked to reward/motivation behaviors provide evidence that CART may be an important connection between food-and drug-related rewards. Given the enormous public health burden of both obesity and drug addiction, future studies exploring the pharmacotherapies targeting CART peptide represent an exciting and challenging research area.CART (cocaine-and amphetamine-regulated transcript) is a peptide that functions as both a central and peripheral neurotransmitter. The CART peptide was first sequenced as a peptide with unknown function (Spiess and Vale, 1980) and then confirmed in a study reporting that a protein product of an mRNA up-regulated in the ventral striatum following acute administration of cocaine and amphetamine (Douglass et al., 1995) was the peptide described by Spiess and Vale (1980). The human propeptide form of CART is processed into two biologically active fragments, 42 to 89 and 49 to 89, which correspond to rat 55 to 102 and 62 to 102 fragments, respectively. Although physical description, synthesis, and processing of the peptides have been well studied , very little is known about their metabolism. CART has been implicated in a variety of physiological processes, including feeding, bone remodeling, sensory processing, endocrine regulation, stress and anxiety, and the rewarding and reinforcing properties of psychostimulants (Hunter and Kuhar, 2003). Moreover, CART was shown to exert effects on neuronal activity, such as N-methyl-D-aspartate receptormediated neurotransmission (Hsun Lin et al., 2005) and ventromedial hypothalamic nucleu...
