Impaired cognitive performance under psychosocial stress in cannabis-dependent men is associated with attenuated precuneus activity
Weihua Zhao, Kaeli Zimmermann, Xinqi Zhou, Feng Zhou, Meina Fu, Christian Dernbach, Dirk Scheele, Bernd Weber, Monika Eckstein, René Hurlemann, Keith M. Kendrick, Benjamin Becker
Journal of Psychiatry and Neuroscience February 26, 2020 DOI: 10.1503/jpn.190039 via OpenAlex
Summary
Cannabis-dependent men show exaggerated cognitive performance deterioration during psychosocial stress compared to controls, despite reporting similar stress levels and cardiovascular responses. Brain imaging revealed that this performance decline was accompanied by reduced activity in the precuneus and increased connectivity between the precuneus and the superior frontal gyrus during stress exposure. The findings provide first evidence linking chronic cannabis use to altered neural stress processing, specifically deficient recruitment of the precuneus, which may underlie stress-induced cognitive impairments in cannabis users.
Study at a glance
| Characteristics | Functional MRI study Peer reviewed |
|---|---|
| Sample size | 51 |
| Population | Cannabis-dependent men and matched controls |
| Topics | Cannabis |
| Keywords | Precuneus Cognition Social stress Psychosocial |
| Citations | 14 |
| Key finding | Cannabis users exhibited impaired performance during psychosocial stress accompanied by decreased precuneus activity and increased connectivity with the superior frontal gyrus. |
Abstract
Background: Deficient regulation of stress plays an important role in the escalation of substance use, addiction and relapse. Accumulating evidence suggests dysregulations in cognitive and reward-related processes and the underlying neural circuitry in cannabis dependence. However, despite the important regulatory role of the endocannabinoid system in the stress response, associations between chronic cannabis use and altered stress processing at the neural level have not been systematically examined. Methods: Against this background, the present functional MRI study examined psychosocial stress processing in cannabis-dependent men (n = 28) and matched controls (n = 23) using an established stress-induction paradigm (Montreal Imaging Stress Task) that combines computerized (adaptive) mental arithmetic challenges with social evaluative threat. Results: During psychosocial stress exposure, but not the no-stress condition, cannabis users demonstrated impaired performance relative to controls. In contrast, levels of experienced stress and cardiovascular stress responsivity did not differ from controls. Functional MRI data revealed that stress-induced performance deteriorations in cannabis users was accompanied by decreased precuneus activity and increased connectivity of this region with the superior frontal gyrus. Limitations: Only male cannabis-dependent users were examined; the generalizability in female users remains to be determined. Conclusion: Together, the present findings provide first evidence for exaggerated stress-induced cognitive performance deteriorations in cannabis users. The neural data suggest that deficient stress-related recruitment of the precuneus may be associated with the deterioration of performance at the behavioural level.