Differential regulation of tyrosine hydroxylase in the basal ganglia of mice lacking the dopamine transporter

Our previous dosimetry studies have demonstrated that for dopaminergic radiotracers,18F-FDOPA and18F-FPCIT, the urinary bladder is the critical organ. As these tracers accumulate in the basal ganglia (BG) with high affinity and long residence times, radiation dose to the BG may become significant, especially in normal control subjects. We have performed dynamic PET measurements using18F-FPCIT in 16 normal adult subjects to determine if in fact the BG, although not a whole organ, but a well-defined substructure, receives the highest dose. Regions of interest were drawn over left and right BG structures. Resultant time-activity curves were generated and used to determine residence times for dosimetry calculations.S-factors were computed using the MIRDOSE3 nodule model for each caudate and putamen. For18F-FPCIT, BG dose ranged from 0.029 to 0.069 mGy/MBq. In half of all subjects, BG dose exceeded 85% of the published critical organ (bladder) dose, and in three of those, the BG dose exceeded that for the bladder. The BG can become the dose-limiting organ in studies using dopamine transporter ligands. For some normal subjects studied with F-18 or long half-life radionuclide, the BG may exceed bladder dose and become the critical structure.

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Effect of methamphetamine self-administration on tyrosine hydroxylase and dopamine transporter levels in mesolimbic and nigrostriatal dopamine pathways of the rat

Psychopharmacology ◽

10.1007/s00213-006-0316-4 ◽

2006 ◽

Vol 185 (4) ◽

pp. 505-513 ◽

Cited By ~ 43

Author(s):

Jack D. Shepard ◽

David T. Chuang ◽

Yavin Shaham ◽

Marisela Morales

Keyword(s):

Tyrosine Hydroxylase ◽

Dopamine Transporter ◽

Self Administration ◽

Nigrostriatal Dopamine

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Differential regulation of glutamic acid decarboxylase mRNA and tyrosine hydroxylase mRNA expression in the aged manganese-treated rats

Molecular Brain Research ◽

10.1016/s0169-328x(02)00192-4 ◽

2002 ◽

Vol 103 (1-2) ◽

pp. 116-129 ◽

Cited By ~ 35

Author(s):

Mayka Tomás-Camardiel ◽

Antonio J Herrera ◽

José L Venero ◽

Mari Cruz Sánchez-Hidalgo ◽

Josefina Cano ◽

...

Keyword(s):

Tyrosine Hydroxylase ◽

Glutamic Acid ◽

Mrna Expression ◽

Glutamic Acid Decarboxylase ◽

Differential Regulation ◽

Acid Decarboxylase

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Dopamine transporter density in the basal ganglia assessed with [123I]IPT SPET in children with attention deficit hyperactivity disorder

European Journal of Nuclear Medicine and Molecular Imaging ◽

10.1007/s00259-002-1047-3 ◽

2003 ◽

Vol 30 (2) ◽

pp. 306-311 ◽

Cited By ~ 132

Author(s):

Keun-Ah Cheon ◽

Young Hoon Ryu ◽

Young-Kee Kim ◽

Kee Namkoong ◽

Chan-Hyung Kim ◽

...

Keyword(s):

Attention Deficit Hyperactivity Disorder ◽

Basal Ganglia ◽

Dopamine Transporter ◽

Attention Deficit ◽

Hyperactivity Disorder

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Changes in striatal dopamine transporter and tyrosine hydroxylase expression associated with fatigue and their reversal by blueberry juice

Journal of Berry Research ◽

10.3233/jbr-180350 ◽

2019 ◽

Vol 9 (2) ◽

pp. 321-332

Author(s):

Bo Jiang ◽

Shangli Zheng ◽

Lijia An ◽

Jianli Guo ◽

Tetsuya Asakawa

Keyword(s):

Tyrosine Hydroxylase ◽

Dopamine Transporter ◽

Striatal Dopamine ◽

Blueberry Juice

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Correction to: Altered baseline and amphetamine-mediated behavioral profiles in dopamine transporter Cre (DAT-Ires-Cre) mice compared to tyrosine hydroxylase Cre (TH-Cre) mice

Psychopharmacology ◽

10.1007/s00213-020-05718-2 ◽

2020 ◽

Vol 238 (1) ◽

pp. 321-321

Author(s):

Muhammad O. Chohan ◽

Sari Esses ◽

Julia Haft ◽

Susanne E. Ahmari ◽

Jeremy Veenstra-VanderWeele

Keyword(s):

Tyrosine Hydroxylase ◽

Dopamine Transporter ◽

Behavioral Profiles

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Enhanced Dopamine Transmission and Hyperactivity in the Dopamine Transporter Heterozygous Mice Lacking the D3 Dopamine Receptor

International Journal of Molecular Sciences ◽

10.3390/ijms21218216 ◽

2020 ◽

Vol 21 (21) ◽

pp. 8216

Author(s):

Tatyana D. Sotnikova ◽

Evgeniya V. Efimova ◽

Raul R. Gainetdinov

Keyword(s):

Basal Ganglia ◽

Dopamine Receptor ◽

Dopamine Transporter ◽

Fold Increase ◽

Activity Level ◽

D3 Receptor ◽

Double Knockout ◽

D3 Receptors ◽

Extracellular Dopamine ◽

Functional Consequences

Dopamine transporter knockout (DATk) mice are known to demonstrate profound hyperactivity concurrent with elevated (5-fold) extracellular dopamine in the basal ganglia. At the same time, heterozygous DAT mice (DATh) demonstrate a 2-fold increase in dopamine levels yet only a marginal elevation in locomotor activity level. Another model of dopaminergic hyperactivity is the D3 dopamine receptor knockout (D3k) mice, which present only a modest hyperactivity phenotype, predominately manifested as stereotypical behaviors. In the D3k mice, the hyperactivity is also correlated with elevated extracellular dopamine levels (2-fold) in the basal ganglia. Cross-breeding was used to evaluate the functional consequences of the deletion of both genes. In the heterozygous DAT mice, inactivation of the D3R gene (DATh/D3k) resulted in significant hyperactivity and further elevation of striatal extracellular dopamine above levels observed in respective single mutant mice. The decreased weight of DATk mice was evident regardless of the D3 dopamine receptor genotype. In contrast, measures of thermoregulation revealed that the marked hypothermia of DATk mice (−2 °C) was reversed in double knockout mice. Thus, the extracellular dopamine levels elevated by prolonging uptake could be elevated even further by eliminating the D3 receptor. These data also suggest that the hypothermia observed in DATk mice may be mediated through D3 receptors.

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