Selenoprotein P Modulates Methamphetamine Enhancement of Vesicular Dopamine Release in Mouse Nucleus Accumbens Via Dopamine D2 Receptors

Torres, Daniel J.; Yorgason, Jordan T.; Mitchell, Catherine C.; Hagiwara, Ayaka; Andrés, Míriam; Kurokawa, Shu; Steffensen, Scott C.; Bellinger, Frederick P.

doi:10.3389/fnins.2021.631825

Cited by 13 publications

(10 citation statements)

References 70 publications

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“…Thus, there are likely many other factors that affect the gradient of release from evoked signals that are not contributing to spontaneously occurring release. Examining evoked DA release is extremely valuable when measuring uptake kinetics (i.e., Michaelis‐Menten measures of DAT function, Yorgason et al., 2013), psychostimulant effects on proteins expressed in DA terminals (Hedges et al., 2018; Torres et al., 2021; Yorgason et al., 2020), and examining circuitry from direct auto‐ and hetero‐receptor activity on DA terminals (Gao et al., 2019; Torres et al., 2021; Yorgason et al., 2013). However, since regional activity differs between nonstimulated (spontaneous) and evoked conditions, further pharmacological and/or genetic manipulations are necessary to describe circuit‐specific effects recruited during evoked release experiments.…”

Section: Discussionmentioning

confidence: 99%

Regional and sex differences in spontaneous striatal dopamine transmission

Brundage

Mason

Wadsworth

et al. 2021

Journal of Neurochemistry

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Striatal dopamine release is key for learning and motivation and is composed of subregions including the dorsal striatum (DS), nucleus accumbens core, and the nucleus accumbens shell. Spontaneously occurring dopamine release was compared across these subregions. Dopamine release/uptake dynamics differ across striatal subregions, with dopamine transient release amplitude and release frequency greatest in male mice, and the largest signals observed in the DS. Surprisingly, female mice exhibited little regional differences in dopamine release for DS and nucleus accumbens core regions, but lower release in the nucleus accumbens shell. Blocking voltage‐gated K+ channel (Kv channels) with 4‐aminopyridine enhanced dopamine detection without affecting reuptake. The 4‐aminopyridine effects were greatest in ventral regions of female mice, suggesting regional differences in Kv channel expression. The dopamine transporter blocker cocaine also enhanced detection across subregions in both sexes, with greater overall increased release in females than males. Thus, sex differences in dopamine transmission are apparent and likely include differences in the Kv channel and dopamine transporter function. The lack of regional differences in dopamine release observed in females indicates differential regulation of spontaneous and evoked dopamine release.

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Section: Discussionmentioning

confidence: 99%

Regional and sex differences in spontaneous striatal dopamine transmission

Brundage

Mason

Wadsworth

et al. 2021

Journal of Neurochemistry

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“…The Michaelis–Menten K m is frequently used for describing the effects of DAT inhibitors ,,, and correlates strongly with the exponential decay measure tau . Therefore, in order to establish the relationship between exponential decay and downward velocity, the effects of tropane analogs on tau were examined (Figure E).…”

Section: Results and Discussionmentioning

confidence: 99%

“…Another common method is to start off with a specific fixed value for K m (e.g., 160–200 nM based on previous dopamine binding studies). With this fixed K m value, only the thickness layer, release concentration, and V max are adjusted to determine baseline release and clearance values. − This second method is often combined with a third approach where the V max is constrained after drug application, and K m becomes variable in the presence of psychostimulants. − …”

Section: Introductionmentioning

confidence: 99%

Effectiveness and Relationship between Biased and Unbiased Measures of Dopamine Release and Clearance

Everett

Graul

Ronström

et al. 2022

ACS Chem. Neurosci.

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Fast-scan cyclic voltammetry (FSCV) is an effective tool for measuring dopamine release and clearance throughout the brain, especially the striatum where dopamine terminals are abundant and signals are heavily regulated by release machinery and the dopamine transporter (DAT). Peak height measurement is perhaps the most common method for measuring dopamine release, but it is influenced by changes in clearance. Michaelis–Menten-based modeling has been a standard in measuring dopamine clearance, but it is problematic in that it requires experimenter fitted modeling subject to experimenter bias. This study presents the use of the first derivative (velocity) of evoked dopamine signals as an alternative approach for measuring and distinguishing dopamine release from clearance. Maximal upward velocity predicts reductions in dopamine peak height due to D2 and GABAB receptor stimulation and by alterations in calcium concentrations. The Michaelis–Menten maximal velocity (V max) measure, an approximation for DAT levels, predicts maximal downward velocity in slices and in vivo. Dopamine peak height and upward velocity were similar between wild-type and DAT knock-out (DATKO) mice. In contrast, downward velocity was lower and exponential decay (tau) was higher in DATKO mice, supporting the use of both measures for extreme changes in DAT activity. In slices, the competitive DAT inhibitors cocaine, PTT, and WF23 increased peak height and upward velocity differentially across increasing concentrations, with PTT and cocaine reducing these measures at high concentrations. Downward velocity and tau values decreased and increased respectively across concentrations, with greater potency and efficacy observed with WF23 and PTT. In vivo recordings demonstrated similar effects of WF23, PTT, and cocaine on measures of release and clearance. Tau was a more sensitive measure at low concentrations, supporting its use as a surrogate for the Michaelis–Menten measure of apparent affinity (K m). Together, these results inform on the use of these various measures for dopamine release and clearance.

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“…Selenium has been implicated in mediating dopamine release and transmission within the substantia nigra [51,52] and the nucleus accumbens [53] . The presence of SELENOP1 on nucleus accumbens dopamine terminals is proposed to attenuate dopamine release into the synaptic cleft via direct mediation of the dopamine 2 autoreceptors, protecting against neurotoxic effects of drugs of abuse as evidenced for methamphetamine [53] . Ccdc152, another gene on chromosome 2, is encoded within the SELENOP1 gene, and acts to attenuate SELENOP1 levels via posttranslational modification [54] .…”

Section: Gwasmentioning

confidence: 99%

Genome-wide association study reveals multiple loci for nociception and opioid consumption behaviors associated with heroin vulnerability in outbred rats

Kuhn,

Cannella,

Chitre

et al. 2024

Preprint

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The increased prevalence of opioid use disorder (OUD) world-wide has made it imperative to disentangle the biological mechanisms contributing to OUD propensity. OUD shows strong heritability, however genetic variants contributing toward vulnerability remain under explored. In the current study, genome-wide association (GWAS) analysis on over 850 male and female heterogeneous stock rats were performed to identify genes underlying heroin-taking, refraining and seeking behaviors. By using an animal model of OUD, we were able to identify genetic variants associated with distinct behaviors contributing to OUD, an experimental design not easily achieved in human GWAS analysis, and not performed to date for OUD GWAS studies. Our findings show, akin to the human population, several heritable traits related with OUD. We also identified genetic variants associated with heroin consumption, escalation of intake, motivation to obtain heroin, and basal levels of analgesic threshold prior to heroin experience, which was behaviorally unrelated to the heroin behaviors. Several of the genes identified are known biomarkers of other substance use disorders and mediators of neurobiological mechanisms underlying addiction-related behaviors. These findings emphasize the need to assess the role of these genetic variants in OUD, thereby augmenting our understanding of risk factors and neurobiological processes associated with OUD vulnerability.

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Selenoprotein P Modulates Methamphetamine Enhancement of Vesicular Dopamine Release in Mouse Nucleus Accumbens Via Dopamine D2 Receptors

Cited by 13 publications

References 70 publications

Regional and sex differences in spontaneous striatal dopamine transmission

Regional and sex differences in spontaneous striatal dopamine transmission

Effectiveness and Relationship between Biased and Unbiased Measures of Dopamine Release and Clearance

Genome-wide association study reveals multiple loci for nociception and opioid consumption behaviors associated with heroin vulnerability in outbred rats

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