The Psychoactive Designer Drug and Bath Salt Constituent MDPV Causes Widespread Disruption of Brain Functional Connectivity

Colon-Perez, Luis M.; Tran, Kelvin; Thompson, Khalil; Pace, Michael C.; Blum, Kenneth; Goldberger, Bruce A.; Gold, Mark S.; Bruijnzeel, Adrie W.; Setlow, Barry; Febo, Marcelo

doi:10.1038/npp.2016.40

Cited by 63 publications

(51 citation statements)

References 88 publications

(125 reference statements)

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“…Since dopamine-induced activation of cortical regions drive and sustain nervousness, irritability, aggressiveness and paranoia that approximate schizophrenia (Morton 1999;Seo et al 2008), it is reasonable to speculate that the increased neuronal activity in the frontal lobe may sustain some of the aggressive and bizarre behaviors herein observed. Of note, MDPV has been recently shown to alter functional connectivity between cortical and subcortical regions (Colon-Perez et al 2016), further corroborating a drug-induced loss of control over the "top-down" neuronal connection, which is essential for the control of impulsive behaviors (Dalley et al 2011) and may contribute to explain the high addictive properties of these drugs. Although the different pharmacokinetic profile does not result in different reinforcing properties of the drugs (Aarde et al 2013;Watterson and Olive 2014), we cannot rule out the possibility that the more persistent activation of neuronal activity promoted by MDPV may initiate and sustain neuroadaptive changes caused by repeated exposure to the drug: this possibility will be investigated in the future by employing chronic treatment regimens with these two cathinones.…”

Section: Discussionmentioning

confidence: 87%

The Cathinones MDPV and α-PVP Elicit Different Behavioral and Molecular Effects Following Acute Exposure

et al. 2017

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Since the mid-to-late 2000s, synthetic cathinones have gained popularity among drug users due to their psychostimulant effects greater than those produced by cocaine and amphetamine. Among them, 3,4-methylenedioxypyrovalerone (MDPV) and 1-phenyl-2-(pyrrolidin-1-yl)pentan-1-one (α-PVP) are ones of the most popular cathinones available in the clandestine market as "bath salts" or "fertilizers." Pre-clinical studies indicate that MDPV and α-PVP induced psychomotor stimulation, affected thermoregulation, and promoted reinforcing properties in rodents. However, a direct comparative analysis on the effects caused by MDPV and α-PVP on the behavior and neuronal activation in rodents is still lacking. Behavioral analyses revealed that both MDPV and α-PVP affect spontaneous and stimulated motor responses. In particular, MDPV showed a greater psychomotor effect than α-PVP in line with its higher potency in blocking the dopamine transporter (DAT). Notably, MDPV was found to be more effective than α-PVP in facilitating spontaneous locomotion and it displayed a biphasic effect in contrast to the monophasically stimulated locomotion induced by α-PVP. In addition to the behavioral results, we also found a different modulation of immediate early genes (IEGs) such as Arc/Arg3.1 and c-Fos in the frontal lobe, striatum, and hippocampus, indicating that these drugs do impact brain homeostasis with changes in neuronal activity that depend on the drug, the brain area analyzed, and the timing after the injection. These results provide the first discrimination between MDPV and α-PVP based on behavioral and molecular data that may contribute to explain, at least in part, their toxicity.

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Section: Discussionmentioning

confidence: 87%

The Cathinones MDPV and α-PVP Elicit Different Behavioral and Molecular Effects Following Acute Exposure

et al. 2017

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“…The masks were used to crop images and remove non-brain voxels. The cropped brain images were aligned with a rat brain template using the FMRIB Software Library linear registration program flirt (Jenkinson et al, 2002), using previously published parameters (Colon-Perez et al, 2016). Registration matrices were saved and used to subsequently transform functional datasets into atlas space for preprocessing and analysis.…”

Section: Methodsmentioning

confidence: 99%

Multi-scale Imaging Reveals Aberrant Connectome Organization and Elevated Dorsal Striatal Arc Expression in Advanced Age

Colon-Perez

Turner

Lubke

et al. 2018

Preprint

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words max)The functional connectome reflects a network architecture enabling adaptive behavior that becomes vulnerable in advanced age. The cellular mechanisms that contribute to altered functional connectivity in old age, however, are not known. Here we used a multi-scale imaging approach to link age-related changes in the functional connectome to altered expression of the activity-dependent immediate-early gene Arc as a function of training to multi-task. Aged behaviorally-impaired, but not young, rats had a subnetwork of increased connectivity between the anterior cingulate cortex and dorsal striatum. Moreover, the old rats had less stable rich club participation that increased with cognitive training. The altered functional connectome of aged rats was associated with a greater engagement of neurons in the dorsal striatum during cognitive multi-tasking. These findings point to aberrant large-scale functional connectivity in aged animals that is associated with altered cellular activity patterns within individual brain regions.

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“…The first nine images in each functional time series were not used to avoid unstable fMRI signal intensity variations that are typically found in the initial images. Voxelwise cross-correlations were conducted to create correlation coefficient (Pearson r) maps (Colon-Perez et al, 2016) and the Pearson r coefficients were then subjected to a voxelwise z-transformation. Pearson r coefficients were exported for seed-based functional connectivity and network analyses in MATLAB (MathWorks).…”

Section: Image Processing and Statistical Analysismentioning

confidence: 99%

Longitudinal Characterization and Biomarkers of Age and Sex Differences in the Decline of Spatial Memory

Febo

Rani

Yegla

et al. 2020

Front. Aging Neurosci.

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The current longitudinal study examined factors (sex, physical function, response to novelty, ability to adapt to a shift in light/dark cycle, brain connectivity), which might predict the emergence of impaired memory during aging. Male and female Fisher 344 rats were tested at 6, 12, and 18 months of age. Impaired spatial memory developed in middle-age (12 months), particularly in males, and the propensity for impairment increased with advanced age. A reduced response to novelty was observed over the course of aging, which is inconsistent with cross-sectional studies. This divergence likely resulted from differences in the history of environmental enrichment/impoverishment for cross-sectional and longitudinal studies. Animals that exhibited lower level exploration of the inner region on the open field test exhibited better memory at 12 months. Furthermore, males that exhibited a longer latency to enter a novel environment at 6 months, exhibited better memory at 12 months. For females, memory at 12 months was correlated with the ability to behaviorally adapt to a shift in light/dark cycle. Functional magnetic resonance imaging of the brain, conducted at 12 months, indicated that the decline in memory was associated with altered functional connectivity within different memory systems, most notably between the hippocampus and multiple regions such as the retrosplenial cortex, thalamus, striatum, and amygdala. Overall, some factors, specifically response to novelty at an early age and the capacity to adapt to shifts in light cycle, predicted spatial memory in middle-age, and spatial memory is associated with corresponding changes in brain connectivity. We discuss similarities and differences related to previous longitudinal and cross-sectional studies, as well as the role of sex differences in providing a theoretical framework to guide future longitudinal research on the trajectory of cognitive decline. In addition to demonstrating the power of longitudinal studies, these data highlight the importance of middle-age for identifying potential predictive indicators of sexual dimorphism in the trajectory in brain and cognitive aging.

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The Psychoactive Designer Drug and Bath Salt Constituent MDPV Causes Widespread Disruption of Brain Functional Connectivity

Cited by 63 publications

References 88 publications

The Cathinones MDPV and α-PVP Elicit Different Behavioral and Molecular Effects Following Acute Exposure

The Cathinones MDPV and α-PVP Elicit Different Behavioral and Molecular Effects Following Acute Exposure

Multi-scale Imaging Reveals Aberrant Connectome Organization and Elevated Dorsal Striatal Arc Expression in Advanced Age

Longitudinal Characterization and Biomarkers of Age and Sex Differences in the Decline of Spatial Memory

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