James O. Schenk scite author profile

We have hypothesized that the midbrain dopamine (DA) neurons are a target for insulin action in the central nervous system (CNS). In support of this hypothesis, we have previously demonstrated that direct intracerebroventricular infusion of insulin results in an increase in mRNA levels for the DA reuptake transporter (DAT). In this study, 24- to 36-hour food deprivation was used as a model of decreased CNS insulin levels, to test whether DAT mRNA levels, DAT protein concentration or DAT functional activity would be decreased. DAT mRNA levels, assessed by in situ hybridization, were significantly decreased in the ventral tegmental area/substantia nigra pars compacta (VTA/SNc) (77 ± 7% of controls, p < 0.05) of food-deprived (hypoinsulinemic) rats. Binding of a specific high-affinity DAT ligand (¹²⁵I-RTI-121) to membranes from brain regions of fasted or free-feeding rats provided an estimate of DAT protein, which was unchanged in both of the major terminal projection fields, the striatum and nucleus accumbens (NAc). In addition, we utilized the rotating disk electrode voltametry technique to assess possible changes in the function of the DAT in fasting (hypoinsulinemic) rats. The V_max of DA uptake was significantly decreased (87 ± 7% of control, p < 0.05), without a change in the K_m of uptake, in striatum from fasted rats. In vitro incubation with a physiological concentration (1 nM) of insulin resulted in an increase of striatal DA uptake to control levels. We conclude that striatal DAT function can be modulated by fasting and nutritional status, with a contribution by insulin.

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D₂ Receptors May Modulate the Function of the Striatal Transporter for Dopamine: Kinetic Evidence from Studies In Vitro and In Vivo

Meiergerd

Patterson

Schenk

1993

Journal of Neurochemistry

208

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Recently it was hypothesized by others that the D2dopamine receptor can regulate the uptake of dopamine. However, the evidence in support of this hypothesis, although compelling, was not based on observations related to direct measures of the kinetic activity of the transporter itself. Here kinetic evidence in support of this hypothesis is shown. The apparent time‐resolved initial velocity of the transport of 1.0 μM dopamine into striatal suspensions, measured using rotating disk electrode voltammetry, was found to increase in the presence of the D2 receptor agonist, quinpirole, at 100 μM. This effect was reversed by sulpiride. In separate studies it was shown that acute and chronic treatments with haloperidol at 0.5 mg/kg, i.p., reduced the reuptake transport of dopamine in vivo following intrastriatal stimulation of its release by K+. Thus, it appears that D2 receptors may influence the functioning of the striatal transporter for dopamine. These results are consistent with a model in which presynaptically released dopamine may feed back onto the function of its transporter to increase the velocity of the clearance of synaptic dopamine following an action potential, suggesting the existence of a mechanism, in addition to release and synthesis modulation, for fine‐tuning dopaminergic chemical signaling.

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Rotating disk electrode voltammetric measurements of serotonin transporter kinetics in synaptosomes

Hagan

Neumaier

Schenk

2010

Journal of Neuroscience Methods

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Altered serotonin (5-HT) signaling is implicated in several neuropsychiatric disorders, including depression, anxiety, obsessive-compulsive disorder, and autism. The 5-HT transporter (SERT) modulates 5-HT neurotransmission strength and duration. This is the first study using rotating disk electrode voltammetry (RDEV) to measure 5-HT clearance. SERT kinetics were measured in whole brain synaptosomes. Uptake kinetics of exogenous 5-HT were measured using glassy carbon electrodes rotated in 500 uL glass chambers containing synaptosomes from SERTknockout (−/−), heterozygous (+/−), or wild-type (+/+) mice. RDEV detected 5-HT concentrations of 5 nM and higher. Initial velocities were kinetically resolved with K m and V max values of 99 ± 35 standard error of regression (SER) nM and 181 ± 11 SER fmol / (s x mg protein), respectively in wild-type synaptosomes. The method enables control over drug and chemical concentrations, facilitating interpretation of results. Results are compared in detail to other techniques used to measure SERT kinetics, including tritium labeled assays, chronoamperometry, and fast scan cyclic voltammetry. RDEV exhibits decreased 5-HT detection limits, decreased vulnerability to 5-HT oxidation products that reduce electrode sensitivity, and also overcomes diffusion limitations via forced convection by providing a continuous, kinetically resolved signal. Finally, RDEV distinguishes functional differences between genotypes, notably, between wild-type and heterozygous mice, an experimental problem with other experimental approaches.

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Acute Ethanol Decreases Dopamine Transporter Velocity in Rat Striatum: In Vivo and In Vitro Electrochemical Measurements

Robinson

Volz

Schenk

et al. 2005

Alcoholism: Clinical & Experimental Research

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These results indicate that acute ethanol decreases DAT function in rat dorsal and ventral striatum in anesthetized rats and tissue suspensions, in contrast to its effects on human DAT expressed in single cells. Given the variety of molecular targets of ethanol in the brain, including the DAT itself, it is likely that several mechanisms converge to produce a net effect on DAT regulation and function that could very well be different in intact tissue versus single cells.

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James O. Schenk

A multisubstrate mechanism of striatal dopamine uptake and its inhibition by cocaine

Food Deprivation Decreases mRNA and Activity of the Rat Dopamine Transporter

D₂ Receptors May Modulate the Function of the Striatal Transporter for Dopamine: Kinetic Evidence from Studies In Vitro and In Vivo

Rotating disk electrode voltammetric measurements of serotonin transporter kinetics in synaptosomes

Acute Ethanol Decreases Dopamine Transporter Velocity in Rat Striatum: In Vivo and In Vitro Electrochemical Measurements

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James O. Schenk

A multisubstrate mechanism of striatal dopamine uptake and its inhibition by cocaine

Food Deprivation Decreases mRNA and Activity of the Rat Dopamine Transporter

D2 Receptors May Modulate the Function of the Striatal Transporter for Dopamine: Kinetic Evidence from Studies In Vitro and In Vivo

Rotating disk electrode voltammetric measurements of serotonin transporter kinetics in synaptosomes

Acute Ethanol Decreases Dopamine Transporter Velocity in Rat Striatum: In Vivo and In Vitro Electrochemical Measurements

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Product

Resources

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D₂ Receptors May Modulate the Function of the Striatal Transporter for Dopamine: Kinetic Evidence from Studies In Vitro and In Vivo