Fast scan cyclic voltammetry of dopamine and serotonin in mouse brain slices

Electrochemical Methods for Neuroscience

Volumn , Issue , 2006, Pages 49-62

  John, Carrie E ^a   Jones, Sara R ^a  

^a WAKE FOREST SCHOOL OF MEDICINE   (United States)

Author keywords

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Indexed keywords

EID: 85057701640     PISSN: None     EISSN: None     Source Type: Book    
DOI: None     Document Type: Chapter

References (54)

1. Rice, M. E. et al., Direct monitoring of dopamine and 5-HT release in substantia nigra and ventral tegmental area in vitro, Exp. Brain Res., 100, 395-406, 1994.
2. Jones, S. R. et al., Comparison of dopamine uptake in the basolateral amygdaloid nucleus, caudateputamen, and nucleus accumbens of the rat, J. Neurochem., 64, 2581, 1995.
3. Bunin, M. A. et al., Release and uptake rates of 5-hydroxytryptamine in the dorsal raphe and substantia nigra reticulata of the rat brain, J. Neurochem., 70, 1077, 1998.
4. Kuhr, W. G. and Wightman, R. M., Real-time measurement of dopamine release in rat brain, Brain Res., 381, 168, 1986.
5. Stamford, J. A., Kruk, Z. L., and Millar, J., Sub-second striatal dopamine release measured by in vivo voltammetry, Brain Res., 381, 351, 1986.
6. Robinson, D. L. et al., Detecting subsecond dopamine release with fast-scan cyclic voltammetry in vivo, Clin. Chem., 49, 1763, 2003.
7. Giros, B. et al., Hyperlocomotion and indifference to cocaine and amphetamine in mice lacking the dopamine transporter, Nature, 379, 606, 1996.
8. Cragg, S. J., Hawkey, C. R., and Greenfield, S. A., Comparison of serotonin and dopamine release in substantia nigra and ventral tegmental area: region and species differences, J. Neurochem., 69, 2378, 1997.
9. John, C. E. et al., Neurochemical characterization of the release and uptake of dopamine in the ventral tegmental area and serotonin in substantia nigra of the mouse, J. Neurochem., 2005, in press.
10. Budygin, E. A. et al., Chronic ethanol exposure alters presynaptic dopamine function in the striatum of monkeys: a preliminary study, Synapse, 50, 266, 2003.
11. Mateo, Y. et al., Reduced dopamine terminal function and insensitivity to cocaine following cocaine binge self-administration and deprivation, Neuropsychopharm, 2005, in press.
12. Kawagoe, K. T., Zimmerman, J. B., and Wightman, R. M., Principles of voltammetry and microelectrode surface states, J. Neurosci. Methods, 48, 225, 1993.
13. Kristensen, E. W., Wilson, R. M., and Wightman, R. M., Dispersion in flow injection analysis measured with microvoltammetric electrodes, Anal. Chem., 58, 986, 1986.
14. Xie, T. et al., Effect of temperature on dopamine transporter function and intracellular accumulation of methamphetamine: implications for methamphetamine-induced dopaminergic neurotoxicity, J. Neurosci., 20, 7838, 2000.
15. Wightman, R. M. and Zimmerman, J. B., Control of dopamine extracellular concentration in rat striatum by impulse flow and uptake, Brain Res. Brain Res. Rev., 15, 135, 1990.
16. Jones, S. R. et al., Profound neuronal plasticity in response to inactivation of the dopamine transporter, Proc. Natl Acad. Sci. U.S.A., 95, 4029, 1998.
17. Cragg, S. J. et al., Dopamine-mediated volume transmission in midbrain is regulated by distinct extracellular geometry and uptake, J. Neurophysiol., 85, 1761, 2001.
18. Mateo, Y. et al., Role of serotonin in cocaine effects in mice with reduced dopamine transporter function, Proc. Natl Acad. Sci. U.S.A., 101, 372, 2004.
19. Stamford, J. A. et al., Diffusion and uptake of dopamine in rat caudate and nucleus accumbens compared using fast cyclic voltammetry, J. Brain Res., 448, 381, 1988.
20. Garris, P. A. and Wightman, R. M., Different kinetics govern dopaminergic transmission in the amygdala, prefrontal cortex, and striatum: an in vivo voltammetric study, J. Neurosci., 14, 442, 1994.
21. Cragg, S. J., Rice, M. E., and Greenfield, S. A., Heterogeneity of electrically evoked dopamine release and reuptake in substantia nigra, ventral tegmental area, and striatum, J. Neurophysiol., 77, 863, 1997.
22. Agnati, L. F. et al., Intercellular communication in the brain-wiring versus volume transmission, Neuroscience, 69, 711, 1995.
23. Rice, M. E., Cragg, S. J., and Greenfield, S. A., Characteristics of electrically evoked somatodendritic dopamine release in substantia nigra and ventral tegmental area in vitro, J. Neurophysiol., 77, 853, 1997.
24. Zoli, M. et al., Volume transmission in the CNS and its relevance for neuropsychopharmacology, Trends Pharmacol. Sci., 20, 142, 1999.
25. Cragg, S. J. and Rice, M. E., Dancing past the DAT at a DA synapse, Trends Neurosci., 27, 270, 2004.
26. Nirenberg, M. J. et al., The dopamine transporter is localized to dendritic and axonal plasma membranes of nigrostriatal dopaminergic neurons, J. Neurosci., 16, 436, 1996.
27. Nirenberg, M. J. et al., Immunogold localization of the dopamine transporter: an ultrastructural study of the rat ventral tegmental area, J. Neurosci., 17, 5255, 1997.
28. Sesack, S. R., Aoki, C., and Pickel, V. M., Ultrastructural localization of D2 receptor-like immunoreactivity in midbrain dopamine neurons and their striatal targets, J. Neurosci., 14, 88, 1994.
29. Yung, K. K. et al., Immunocytochemical localization of D1 and D2 dopamine receptors in the basal ganglia of the rat: light and electron microscopy, Neuroscience, 65, 709, 1995.
30. Garris, P. A. et al., Efflux of dopamine from the synaptic cleft in the nucleus accumbens of the rat brain, J. Neurosci., 14, 6084, 1994.
31. Heikkila, R. E. et al., Amphetamine: evaluation of D- and L-isomers as releasing agents and uptake inhibitors for 3H-dopamine and 3H-norepinephrine in slices of rat neostriatum and cerebral cortex, J. Pharmacol. Exp. Ther., 194, 47, 1975.
32. Horn, A. S., Dopamine uptake: a review of progress in the last decade, Prog. Neurobiol., 34, 387, 1990.
33. Amara, S. G. and Kuhar, M. J., Neurotransmitter transporters: recent progress, Annu. Rev. Neurosci., 16, 73, 1993.
34. Giros, B. and Caron, M. G., Molecular characterization of the dopamine transporter, Trends Pharmacol. Sci., 14, 43, 1993.
35. Fischer, J. F. and Cho, A. K., Chemical release of dopamine from striatal homogenates: evidence for an exchange diffusion model, J. Pharmacol. Exp. Ther., 208, 203, 1979.
36. Seiden, L. S., Sabol, K. E., and Ricaurte, G. A., Amphetamine: effects on catecholamine systems and behavior, Annu. Rev. Pharmacol. Toxicol., 33, 639, 1993.
37. Sulzer, D., Maidment, N. T., and Rayport, S., Amphetamine and other weak bases act to promote reverse transport of dopamine in ventral midbrain neurons, J. Neurochem., 60, 527, 1993.
38. Sulzer, D. et al., Amphetamine redistributes dopamine from synaptic vesicles to the cytosol and promotes reverse transport, J. Neurosci., 15, 4102, 1995.
39. Jones, S. R. et al., Profound neuronal plasticity in response to inactivation of the dopamine transporter, Proc. Natl Acad. Sci. U.S.A., 95, 4029, 1998.
40. Mosharov, E. V. et al., Intracellular patch electrochemistry: regulation of cytosolic catecholamines in chromaffin cells, J. Neurosci., 23, 5835, 2003.
41. Mantle, T. J., Tipton, K. F., and Garrett, N. J., Inhibition of monoamine oxidase by amphetamine and related compounds, Biochem. Pharmacol., 25, 2073, 1976.
42. Robinson, J. B., Stereoselectivity and isoenzyme selectivity of monoamine oxidase inhibitors. Enantiomers of amphetamine, N-methylamphetamine and deprenyl, Biochem. Pharmacol., 34, 4105, 1985.
43. Sonders, M. S. et al., Multiple ionic conductances of the human dopamine transporter: the actions of dopamine and psychostimulants, J. Neurosci., 17, 960, 1997.
44. Wayment, H., Meiergerd, S. M., and Schenk, J. O., Relationships between the catechol substrate binding site and amphetamine, cocaine, and mazindol binding sites in a kinetic model of the striatal transporter of dopamine in vitro, J. Neurochem., 70, 1941, 1998.
45. Chen, R., Hann, D. D., and Gu, H. H., A triple mutation in the second transmembrane domain of mouse dopamine transporter markedly decreases sensitivity to cocaine and methylphenidate, J. Neurochem., 94, 352, 2005.
46. Schmitz, Y. et al., Presynaptic regulation of dopaminergic neurotransmission, J. Neurochem., 87, 273, 2003.
47. Garris, P. A. and Rebec, G. V., Modeling fast dopamine neurotransmission in the nucleus accumbens during behavior, Behav. Brain Res., 137, 47, 2002.
48. Wieczorek, W. J. and Kruk, Z. L., A quantitative comparison on the effects of benztropine, cocaine and nomifensine on electrically evoked dopamine overflow and rate of re-uptake in the caudate putamen and nucleus accumbens in the rat brain slice, Brain Res., 657, 42, 1994.
49. Bennett, B. A. et al., Novel 2-substituted cocaine analogs: uptake and ligand binding studies at dopamine, serotonin and norepinephrine transport sites in the rat brain, J. Pharmacol. Exp. Ther., 272, 1176, 1995.
50. Jones, S. R. et al., Interference by pH and Ca2C ions during measurements of catecholamine release in slices of rat amygdala with fast-scan cyclic voltammetry, J. Neurosci. Methods, 52, 1, 1994.
51. Venton, B. J., Michael, D. J., and Wightman, R. M., Correlation of local changes in extracellular oxygen and pH that accompany dopaminergic terminal activity in the rat caudate-putamen, J. Neurochem., 84, 373, 2003.
52. Wieczorek, W. J. and Kruk, Z. L., Differential action of (C)-amphetamine on electrically evoked dopamine overflow in rat brain slices containing corpus striatum and nucleus accumbens, Br. J. Pharmacol., 111, 829, 1994.
53. Iravani, M. M. and Kruk, Z. L., Effects of amphetamine on carrier-mediated and electrically stimulated dopamine release in slices of rat caudate putamen and nucleus accumbens, J. Neurochem., 64, 1161, 1995.
54. Schmitz, Y. et al., Amphetamine distorts stimulation-dependent dopamine overflow: effects on D2 autoreceptors, transporters, and synaptic vesicle stores, J. Neurosci., 21, 5916, 2001.