G F Koob's research while affiliated with The Scripps Research Institute and other places

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Publications (1)

Drug abuse: Hedonic homeostatic dysregulation
  • Article

October 1997

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135 Reads

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1,984 Citations

Science

G F Koob

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M. LeMoal

Understanding the neurobiological mechanisms of addiction requires an integration of basic neuroscience with social psychology, experimental psychology, and psychiatry. Addiction is presented as a cycle of spiralling dysregulation of brain reward systems that progressively increases, resulting in compulsive drug use and a loss of control over drug-taking. Sensitization and counteradaptation are hypothesized to contribute to this hedonic homeostatic dysregulation, and the neurobiological mechanisms involved, such as the mesolimbic dopamine system, opioid peptidergic systems, and brain and hormonal stress systems, are beginning to be characterized. This framework provides a realistic approach to identifying the neurobiological factors that produce vulnerability to addiction and to relapse in individuals with a history of addiction.

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Citations (1)

... Cocaine is a powerful psychostimulant known to cause severe addiction in users; it enhances drug-seeking behavior to a point where users can lose control of their drug intake. At behavioral and physiological levels, cocaine use leads to compulsory addictionrelated behavior and causes long-lasting functional changes in neuronal circuitry [1,2]. Specifically, cocaine induces an alteration of the reward circuitry in the mesolimbic region [3][4][5] and increases dopamine concentration in the synaptic cleft by inhibiting dopamine reuptake [6,7], which enhances neuronal activity in the mesolimbic synapse [8]. ...

Reference:

The ion channel TRPA1 is a modulator of the cocaine reward circuit in the nucleus accumbens
Drug abuse: Hedonic homeostatic dysregulation
  • Citing Article

  • October 1997

Science

G F Koob

·

M. LeMoal