rTMS of the left dorsolateral prefrontal cortex modulates dopamine release in the ipsilateral anterior cingulate cortex and orbitofrontal cortex

PLoS ONE

Volumn 4, Issue 8, 2009, Pages

  Cho, Sang Soo ^a,b   Strafella, Antonio P ^a,b  

^a TORONTO WESTERN HOSPITAL   (Canada)

^b UNIVERSITY OF TORONTO   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

DOPAMINE; DOPAMINE RECEPTOR; ISOREMOXIPRIDE; RACLOPRIDE C 11;

ADULT; ARTICLE; CINGULATE GYRUS; CONTROLLED STUDY; DOPAMINE RELEASE; DOPAMINERGIC ACTIVITY; DOPAMINERGIC TRANSMISSION; FEMALE; HEMISPHERE; HUMAN; HUMAN EXPERIMENT; IMAGE ANALYSIS; MALE; NORMAL HUMAN; ORBITAL CORTEX; POSITRON EMISSION TOMOGRAPHY; PREFRONTAL CORTEX; RADIOASSAY; TRANSCRANIAL MAGNETIC STIMULATION; METABOLISM; PHYSIOLOGY; REFERENCE VALUE; SCINTISCANNING;

ANIMALIA;

ADULT; DOPAMINE; FEMALE; GYRUS CINGULI; HUMANS; MALE; POSITRON-EMISSION TOMOGRAPHY; PREFRONTAL CORTEX; REFERENCE VALUES; TRANSCRANIAL MAGNETIC STIMULATION;

EID: 69249206887     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0006725     Document Type: Article

References (71)

1. Brooks DJ (2001) Functional imaging studies on dopamine and motor control. J Neural Transm 108: 1283-1298.
2. Nieoullon A (2002) Dopamine and the regulation of cognition and attention. Prog Neurobiol 67: 53-83.
3. Schultz W (2000) Reward signaling by dopamine neurons. Neuroscientist 7: 293-302.
4. Carlsson M, Carlsson A (1990) Interactions between glutamatergic and monoaminergic systems within the basal ganglia-mplications for schizophrenia and Parkinson's disease. Trends Neurosci 13: 272-276.
5. Volkow ND, Fowler JS, Wang GJ (2004) The addicted human brain viewed in the light of imaging studies: brain circuits and treatment strategies. Neuropharmacology 47: 3-13.
6. Karreman M, Moghaddam B (1996) The prefrontal cortex regulates the basal release of dopamine in the limbic striatum: an effect mediated by ventral tegmental area. J Neurochem 66: 589-598.
7. Murase S, Grenhoff J, Chouvet G, Gonon FG, Svensson TH (1993) Prefrontal cortex regulates burst firing and transmitter release in rat mesolimbic dopamine neurons studied in vivo. Neurosci Lett 157: 53-56.
8. Taber MT, Fibiger HC (1993) Electrical stimulation of the medial prefrontal cortex increases dopamine release in the striatum. Neuropsychopharmacology 9: 271-275.
9. Keck ME, Welt T, Müller MB, Erhardt A, Ohl F, et al. (2002) Repetitive transcranial magnetic stimulation increases the release of dopamine in the mesolimbic and mesostriatal system. Neuropharmacology 43: 101-109.
10. Kanno M, Matsumoto M, Togashi H, Yoshioka M, Mano Y (2004) Effects of acute repetitive transcranial magnetic stimulation on dopamine release in the rat dorsolateral striatum. J Neurol Sci 217: 73-81.
11. Strafella AP, Paus T, Barrett J, Dagher A (2001) Repetitive transcranial magnetic stimulation of the human prefrontal cortex induces dopamine release in the caudate nucleus. J Neurosci 21: 1-4.
12. Strafella AP, Paus T, Fraraccio M, Dagher A (2003) Striatal dopamine release induced by repetitive transcranial magnetic stimulation of the human motor cortex. Brain 126: 2609-2615.
13. 123I] IBZM SPECT study. J Psychiatr Res 40: 307-314.
14. Pogarell O, Koch W, Pöpperl G, Tatsch K, Jakob F, et al. (2007) Acute prefrontal rTMS increases striatal dopamine to a similar degree as D-amphetamine. Psychiatry Res 156: 251-255.
15. Bean AJ, During MJ, Roth RH (1989) Stimulation-inducerde lease of coexistent transmitters in the prefrontal cortex: an in vivo microdialysis study of dopamine and neurotensin release. J Neurochem 53: 655-657.
16. Bean AJ, Roth RH (1991) Extracellular dopamine and neurotensin in rat prefrontal cortex in vivo: effects of median forebrain bundle stimulation frequency, stimulation pattern, and dopamine autoreceptors. J Neurosci 1: 2694-2702.
17. Ben-Shachar D, Belmaker RH, Grisaru N, Klein E (1997) Transcranial magnetic stimulation induces alterations in brain monoamines. J Neural Transm 104: 191-197.
18. Keck ME, Sillaber I, Ebner K, Welt T, Toschi N, et al. (2000) Acute transcranial magnetic stimulation of frontal brain regions selectively modulates the release of vasopressin, biogenic amines and amino acids in the rat brain. Eur J Neurosci 12: 3713-3720.
19. Khedr EM, Farweez HM, Islam H (2003) Therapeutic effect of repetitive transcranial magnetic stimulation on motor function in Parkinson's disease patients. Eur J Neurol 10: 567-572.
20. Padberg F, Zwanzger P, Keck ME, Kathmann N, Mikhaiel P, et al. (2002) Repetitive transcranial magnetic stimulation (rTMS) in major depression: relation between efficacy and stimulation intensity. Neuropsychopharmacology 27: 638-645.
21. Wassermann EM, Lisanby SH (2001) Therapeutic application of repetitive transcranial magnetic stimulation: a review. Clin Neurophysiol 112: 1367-1377.
22. Alexander GE, DeLong MR, Strick PL (1986) Parallel organization of functionally segregated circuits linking basal ganglia and cortex. Annu Rev Neurosci 9: 357-381.
23. Schmahmann JD, Pandya DN (1997) Anatomic organization of the basilar pontine projections from prefrontal cortices in rhesus monkey. J Neurosci 17: 438-458.
24. Middleton FA, Strick PL (2001) Cerebellar projections to the prefrontal cortex of the primate. J Neurosci 21: 700-712.
25. Vogt BA, Pandya DN (1987) Cingulate cortex of the rhesus monkey: II. Cortical afferents. J Comp Neurol 262: 271-289.
26. Petrides M, Pandya DN (1999) Dorsolateral prefrontal cortex: comparative cytoarchitectonic analysis in the human and the macaque brain and corticocortical connection patterns. Eur J Neurosci 11: 1011-1036.
27. Koski L, Paus T (2000) Functional connectivity of the anterior cingulate cortex within the human frontal lobe: a brain-mapping meta-analysis. Exp Brain Res 133: 55-65.
28. Paus T, Castro-Alamancos MA, Petrides M (2001) Cortico-cortical connectivity of the human mid-dorsolateral frontal cortex and its modulation by repetitive transcranial magnetic stimulation. Eur J Neurosci 14: 1405-1411.
29. Mayberg HS, Lozano AM, Voon V, McNeely HE, Seminowicz D, et al. (2005) Deep brain stimulation for treatment-resistant depression. Neuron 45: 651-660.
30. 11C]FLB 457 binding to extrastriatal dopamine receptors in the human brain. J Cereb Blood Flow Metab 19: 1164-1173.
31. Chou YH, Halldin C, Farde L (2000) Effect of amphetamine on extrastriatal D2 dopamine receptor binding in the primate brain: a PET study. Synapse 38: 138-143.
32. Farde L, Suhara T, Nyberg S, Karlsson P, Nakashima Y, et al. (1997) A PET-study of [11C]FLB 457 binding to extrastriatal D2-dopamine receptors in healthy subjects and antipsychotic drug-treated patients. Psychopharmacology (Berl) 133: 396-404.
33. 123I]epidepride single photon emission tomography (SPET) study. Psychopharmacology (Berl) 50: 132-140.
34. 11C]FLB 457 PET. J Cereb Blood Flow Metab 27: 369-377.
35. 11C]FLB 457. J Neurosci 25: 2471-2477.
36. Lumme V, Aalto S, Ilonen T, Naogren K, Hietala J (2007) Dopamine D2/D3 receptor binding in the anterior cingulate cortex and executive functioning. Psychiatry Res 156: 69-74.
37. Christian BT, Lehrer DS, Shi B, Narayanan TK, Strohmeyer PS, et al. (2006) Measuring dopamine neuromodulation in the thalamus: using [F-18]fallypride PET to study dopamine release during a spatial attention task. Neuroimage 31: 139-152.
38. Olsson H, Halldin C, Farde L (2004) Differentiation of extrastriatal dopamine D2 receptor density and affinity in the human brain using PET. Neuroimage 22: 794-803.
39. Aalto S, Ihalainen J, Hirvonen J, Kajander J, Scheinin H, et al. (2005) Cortical glutamate-dopamine interaction and ketamine-induced psychotic symptoms in man. Psychopharmacology (Berl) 182: 375-383.
40. Hagelberg N, Aalto S, Kajander J, Oikonen V, Hinkka S, et al. (2004) Alfentanil increases cortical dopamine D2/D3 receptor binding in healthy subjects. Pain 109: 86-93.
41. Slifstein M, Narendran R, Hwang DR, Sudo Y, Talbot PS, et al. (2004) Effect of amphetamine on [(18)F]fallypride in vivo binding to D(2) receptors in striatal and extrastriatal regions of the primate brain: Single bolus and bolus plus constant infusion studies. Synapse 54: 46-63.
42. Margulies DS, Kelly AM, Uddin LQ, Biswal BB, Castellanos FX, et al. (2007) Mapping the functional connectivity of anterior cingulate cortex. Neuroimage 37: 579-588.
43. Vogt BA, Finch DM, Olson CR (1992) Functional heterogeneity in cingulate cortex: the anterior executive and posterior evaluative regions. Cereb Cortex 2: 435-443.
44. Paus T (2001) Primate anterior cingulate cortex: where motor control, drive and cognition interface. Nat Rev Neurosci 2: 417-424.
45. Gusnard DA, Akbudak E, Shulman GL, Raichle ME (2001) Medial prefrontal cortex and self-referential mental activity: relation to a default mode of brain function. Proc Natl Acad Sci 98: 4259-4264.
46. Gusnard DA, Raichle ME, Raichle ME (2001) Searching for a baseline: functional imaging and the resting human brain. Nat Rev Neurosci 2: 685-694.
47. Williams SM, Goldman-Rakic PS (1998) Widespread origin of the primate mesofrontal dopamine system. Cereb Cortex 8: 321-345.
48. Carr DB, Sesack SR (2000) Projections from the rat prefrontal cortex to the ventral tegmental area: target specificity in the synaptic associations with mesoaccumbens and mesocortical neurons. J Neurosci 20: 3864-3873.
49. Westerink BH, Enrico P, Feimann J, De Vries JB (1998) The pharmacology of mesocortical dopamine neurons: a dual-probe microdialysis study in the ventral tegmental area and prefrontal cortex of the rat brain. J Pharmacol Exp Ther 285: 143-154.
50. Taber MT, Das S, Fibiger HC (1995) Cortical regulation of subcortical dopamine release: mediation via the ventral tegmental area. J Neurochem 65: 1407-1410.
51. Knoch D, Treyer V, Regard M, Müri RM, Buck A, et al. (2006) Lateralized and frequency-dependent effects of prefrontal rTMS on regional cerebral blood flow. Neuroimage 31: 641-648.
52. Toga AW, Thompson PM (2003) Mapping brain asymmetry. Nature Rev Neurosci 4: 37-48.
53. Sandrini M, Rossini PM, Miniussi C (2008) Lateralized contribution of prefrontal cortex in controlling task-irrelevant information during verbal and spatial working memory tasks: rTMS evidence. Neuropsychologia 46: 2056-2063.
54. Koch G, Oliveri M, Torriero S (2003) Caltagirone C. Underestimation of time perception after repetitive transcranial magnetic stimulation. Neurology 60: 1844-1846.
55. Knoch D, Gianotti LR, Pascual-Leone A, Treyer V, Regard M, et al. (2006) Disruption of right prefrontal cortex by low-frequency repetitive transcranial magnetic stimulation induces risk-taking behavior. J Neurosci 26: 6469-6472.
56. 11C]raclopride PET study. Eur J Neurosci 28: 2147-2155.
57. Isenberg K, Downs D, Pierce K, Svarakic D, Garcia K, et al. (2005) Low frequency rTMS stimulation of the right frontal cortex is as effective as high frequency rTMS stimulation of the left frontal cortex for antidepressant-free, treatment-resistant depressed patients. Ann Clin Psychiatry 17: 153-159.
58. Stern WM, Tormos JM, Press DZ, Pearlman C, Pascual-Leone A (2007) Antidepressant effects of high and low frequency repetitive transcranial magnetic stimulation to the dorsolateral prefrontal cortex: a double-blind, randomized, placebo-controlled trial. J Neuropsychiatry Clin Neurosci 19: 179-186.
59. Brunelin J, Poulet E, Boeuve C, Zeroug-vial H, d'Amato T, et al. (2007) Efficacy of repetitive transcranial magnetic stimulation (rTMS) in major depression: a review. Encephale 33: 126-134.
60. O'Reardon JP, Solvason HB, Janicak PG, Sampson S, Isenberg KE, et al. (2007) Efficacy and safety of transcranial magnetic stimulation in the acute treatment of major depression: a multisite randomized controlled trial. Biol Psychiatry 62: 1208-1216.
61. Carlson JN, Visker KE, Keller RW Jr, Glick SD (1996) Left and right 6-hydroxydopamine lesions of the medial prefrontal cortex differentially alter subcortical dopamine utilization and the behavioral response to stress. Brain Res 711(1-2): 1-9.
62. 125I]epidepride. Brain Res 609: 237-243.
63. Grace AA (1991) Phasic versus tonic dopamine release and the modulation of dopamine system responsivity: a hypothesis for the etiology of schizophrenia. Neuroscience 41: 1-24.
64. Grace AA (2000) The tonic/phasic model of dopamine system regulation and its implications for understanding alcohol and psychostimulant craving. Addiction 95: S119-128.
65. de la Fuente-Fernández R, Ruth TJ, Sossi V, Schulzer M, Calne DB, et al. (2001) Expectation and dopamine release: mechanism of the placebo effect in Parkinson's disease. Science 293(5532): 1164-1166.
66. 11C]raclopride PET study. Eur J Neurosci 22: 2946-2952.
67. Kammer T, Beck S, Erb M, Grodd W (2001) The influence of current direction on phosphene thresholds evoked by transcranial magnetic stimulation. Clin Neurophysiol 112: 2015-2021.
68. Pascual-Leone A, Tormos JM, Keenan J, Tarazona F, Canete C, et al. (1998) Study and modulation of human cortical excitability with transcranial magnetic stimulation. J Clin Neurophysiol 15: 333-343.
69. Lammertsma AA, Hume SP (1996) Simplified reference tissue model for PET receptor studies. Neuroimage 4: 153-158.
70. Gunn RN, Lammertsma AA, Hume SP, Cunningham VJ (1997) Parametric imaging of ligand-receptor binding in PET using a simplified reference region model. Neuroimage 6: 279-287.
71. Friston KJ, Holmes A, Poline JB, Price CJ, Frith CD (1996) Detecting activations in PET and fMRI: levels of inference and power. Neuroimage 4: 223-235.