Your search keyword '"Siciliano, Cody A"' showing total 5 results

1. Granulocyte Colony Stimulating Factor Enhances Reward Learning through Potentiation of Mesolimbic Dopamine System Function.

Author

Kutlu, Munir Gunes, Brady, Lillian J., Peck, Emily G., Hofford, Rebecca S., Yorgason, Jordan T., Siciliano, Cody A., Kiraly, Drew D., and Calipari, Erin S.

Subjects

GRANULOCYTE colony stimulating factor receptor, DRUG synergism, DOPAMINE, COGNITIVE ability, PATHOLOGICAL psychology

Abstract

Deficits in motivation and cognition are hallmark symptoms of multiple psychiatric diseases. These symptoms are disruptive to quality of life and often do not improve with available medications. In recent years there has been increased interest in the role of the immune system in neuropsychiatric illness, but to date no immune-related treatment strategies have come to fruition. The cytokine granulocytecolony stimulating factor (G-CSF) is known to have trophic and neuroprotective properties in the brain, and we recently identified it as a modulator of neuronal and behavioral plasticity. By combining operant tasks that assess discrete aspects of motivated behavior and decision-making in male mice and rats with subsecond dopamine monitoring via fast-scan cyclic voltammetry, we defined the role of G-CSF in these processes as well as the neural mechanism by which it modulates dopamine function to exert these effects. G-CSF enhanced motivation for sucrose as well as cognitive flexibility as measured by reversal learning. These behavioral outcomes were driven by mesolimbic dopamine system plasticity, as systemically administered G-CSF increased evoked dopamine release in the nucleus accumbens independent of clearance mechanisms. Importantly, sustained increases in G-CSF were required for these effects as acute exposure did not enhance behavioral outcomes and decreased dopamine release. These effects seem to be a result of the ability of G-CSF to alter local inflammatory signaling cascades, particularly tumor necrosis factor a. Together, these data show G-CSF as a potent modulator of the mesolimbic dopamine circuit and its ability to appropriately attend to salient stimuli. [ABSTRACT FROM AUTHOR]

Published

2018

2. Amphetamine Reverses Escalated Cocaine Intake via Restoration of Dopamine Transporter Conformation.

Author

Siciliano, Cody A., Saha, Kaustuv, Calipari, Erin S., Fordahl, Steve C., Rong Chen, Khoshbouei, Habibeh, and Jones, Sara R.

Subjects

*AMPHETAMINES, *COCAINE-induced disorders, *DOPAMINE, *BEHAVIORAL economics, *NUCLEUS accumbens, *VOLTAMMETRY, *THERAPEUTICS

Abstract

Cocaine abuse disrupts dopamine system function, and reduces cocaine inhibition of the dopamine transporter (DAT), which results in tolerance. Although tolerance is a hallmark of cocaine addiction and a DSM-V criterion for substance abuse disorders, the molecular adaptations producing tolerance are unknown, and testing the impact of DAT changes on drug taking behaviors has proven difficult. In regard to treatment, amphetamine has shown efficacy in reducing cocaine intake; however, the mechanisms underlying these effects have not been explored. The goals of this study were twofold; we sought to (1) identify the molecular mechanisms by which cocaine exposure produces tolerance and (2) determine whether amphetamine-induced reductions in cocaine intake are connected to these mechanisms. Using cocaine self-administration and fast-scan cyclic voltammetry in male rats, we show that low-dose, continuous amphetamine treatment, during self-administration or abstinence, completely reversed cocaine tolerance. Amphetamine treatment also reversed escalated cocaine intake and decreased motivation to obtain cocaine as measured in a behavioral economics task, thereby linking tolerance to multiple facets of cocaine use. Finally, using fluorescence resonance energy transfer imaging, we found that cocaine tolerance is associated with the formation of DAT-DAT complexes, and that amphetamine disperses these complexes. In addition to extending our basic understanding of DATs and their role in cocaine reinforcement, we serendipitously identified a novel therapeutic target: DAT oligomer complexes. We show that dispersion of oligomers is concomitant with reduced cocaine intake, and propose that pharmacotherapeutics aimed at these complexes may have potential for cocaine addiction treatment. [ABSTRACT FROM AUTHOR]

Published

2018

3. Cocaine Self-Administration Produces Long-Lasting Alterations in Dopamine Transporter Responses to Cocaine.

Author

Siciliano, Cody A., Fordahl, Steve C., and Jones, Sara R.

Subjects

*COCAINE abuse, *DOPAMINE receptors, *VOLTAMMETRY, *DRUG abstinence, *SUBSTANCE abuse relapse

Abstract

Cocaine addiction is a debilitating neuropsychiatric disorder characterized by uncontrolled cocaine intake, which is thought to be driven, at least in part, by cocaine-induced deficits in dopamine system function. A decreased ability of cocaine to elevate dopamine levels has been repeatedly observed as a consequence of cocaine use in humans, and preclinical work has highlighted tolerance to cocaine's effects as a primary determinant in the development of aberrant cocaine taking behaviors. Here we determined that cocaine self-administration in rats produced tolerance to the dopamine transporter-inhibiting effects of cocaine in the nucleus accumbens core, which was normalized following a 14 or 60 d abstinence period; however, although these rats appeared to be similar to controls, a single self-administered infusion of cocaine at the end of abstinence, even after 60 d, fully reinstated tolerance to cocaine's effects. A single cocaine infusion in a naive rat had no effect on cocaine potency, demonstrating that cocaine self-administration leaves the dopamine transporter in a "primed" state, which allows for cocaine-induced plasticity to be reinstated by a subthreshold cocaine exposure. Further, reinstatement of cocaine tolerance was accompanied by decreased cocaine-induced locomotion and escalated cocaine intake despite extended abstinence from cocaine. These data demonstrate that cocaine leaves a long-lasting imprint on the dopamine system that is activated by re-exposure to cocaine. Further, these results provide a potential mechanism for severe cocaine binge episodes, which occur even after sustained abstinence from cocaine, and suggest that treatments aimed at transporter sites may be efficacious in promoting binge termination following relapse. [ABSTRACT FROM AUTHOR]

Published

2016

4. Voluntary Ethanol Intake Predicts κ-Opioid Receptor Supersensitivity and Regionally Distinct Dopaminergic Adaptations in Macaques.

Author

Siciliano, Cody A., Calipari, Erin S., Carlson, Verginia C. Cuzon, Helms, Christa M., Lovinger, David M., Grant, Kathleen A., and Jones, Sara R.

Subjects

*OPIOID receptors, *DOPAMINERGIC neurons, *ETHANOL, *MACAQUES, *NUCLEUS accumbens, *VOLTAMMETRY, *PHYSIOLOGY

Abstract

The dopaminergic projections from the ventral midbrain to the striatum have long been implicated in mediating motivated behaviors and addiction. Previously it was demonstrated that κ-opioid receptor (KOR) signaling in the striatum plays a critical role in the increased reinforcing efficacy of ethanol following ethanol vapor exposure in rodent models. Although rodents have been used extensively to determine the neurochemical consequences of chronic ethanol exposure, establishing high levels of voluntary drinking in these models has proven difficult. Conversely, nonhuman primates exhibit similar intake and pattern to humans in regard to drinking. Here we examine the effects of chronic voluntary ethanol self-administration on dopamine neurotransmission and the ability of KORs to regulate dopamine release in the dorsolateral caudate (DLC) and nucleus accumbens (NAc) core. Using voltammetry in brain slices from cynomolgus macaques after 6 months of ad libitum ethanol drinking, we found increased KOR sensitivity in both the DLC and NAc. The magnitude of ethanol intake predicted increases in KOR sensitivity in the NAc core, but not the DLC. Additionally, ethanol drinking increased dopamine release and uptake in the NAc, but decreased both of these measures in the DLC. These data suggest that chronic daily drinking may result in regionally distinct disruptions of striatal outputs. In concert with previous reports showing increased KOR regulation of drinking behaviors induced by ethanol exposure, the strong relationship between KOR activity and voluntary ethanol intake observed here gives further support to the hypothesis that KORs may provide a promising pharmacotherapeutic target in the treatment of alcoholism. [ABSTRACT FROM AUTHOR]

Published

2015

5. Biphasic Mechanisms of Amphetamine Action at the Dopamine Terminal.

Author

Siciliano, Cody A., Calipari, Erin S., Ferris, Mark J., and Jones, Sara R.

Subjects

*AMPHETAMINES, *DOPAMINE, *ATTENTION-deficit hyperactivity disorder, *NARCOLEPSY, *FOLLOW-up studies (Medicine)

Abstract

The article focuses on finding relation that the amphetamine (AMPH), used in treatment of attention deficit hyperactivity disorder and narcolepsy, increases electrically evoked dopamine release (DA)o. It mentions that AMPH acts as a blocker at low concentration and a release at higher concentration. It informs neurochemical outcomes of human AMPH use, because low dose therapeutic and high-dose abuse-administration may have different mechanisms of elevating DA levels.

Published

2014