z-logo
Premium
Characterization of [ 123 I]FP‐CIT binding to the dopamine transporter in the striatum of tree shrews by quantitative in vitro autoradiography
Author(s) -
Geisler Stefanie,
Beindorff Nicola,
Cremer Markus,
Hoffmann Kerstin,
Brenner Winfried,
Cumming Paul,
Meyer Philipp T.,
Langen KarlJosef,
Fuchs Eberhard,
Buchert Ralph
Publication year - 2015
Publication title -
synapse
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.809
H-Index - 106
eISSN - 1098-2396
pISSN - 0887-4476
DOI - 10.1002/syn.21838
Subject(s) - striatum , raclopride , dopamine transporter , dopamine , medicine , dopamine receptor d2 , binding potential , endocrinology , dopamine plasma membrane transport proteins , biology , chemistry , neuroscience , dopaminergic
Objectives Aim of this study was to quantify the binding of [ 123 I]FP‐CIT in striatum of healthy tree shrews. [ 123 I]FP‐CIT is widely used in clinical SPECT imaging to reveal nigrostriatal degeneration in aid of the diagnosis of clinically uncertain parkinsonian syndromes. Despite its wide clinical use, the saturation binding parameters of [ 123 I]FP‐CIT for the dopamine transporter (DAT) have not yet been determined in any mammalian brain. Tree shrews are genetically and neuroanatomically more similar to humans than are rodents and might therefore be a valuable animal model for research of neurological disorders involving brain dopamine. Experimental Design Quantitative in vitro autoradiography with [ 123 I]FP‐CIT was performed with brains of healthy tree shrews and, for comparison, brains of healthy rats. Dopamine D 2/3 receptor autoradiography with [ 3 H]raclopride was also performed. Principal observations Saturation analysis revealed high specificity of [ 123 I]FP‐CIT for DAT in the striatum with considerably higher affinity in tree shrews than in rats ( K D  = 10.3 versus 36.4 nM). The density of DAT binding sites also was higher in tree shrews than in rats ( B max  = 2499 versus 1495 pmol/g wet weight (ww)). [ 3 H]raclopride revealed D 2/3 receptors in the tree shrew striatum with about the same density as in rats ( B max  = 78.4 versus 84.1 pmol/g ww), but with slightly lower affinity in tree shrews ( K D  = 1.27 versus 0.59 nM). Conlusions The higher affinity in combination with the higher abundance of DAT binding sites compared to rat striatum predicts substantially higher binding of [ 123 I]FP‐CIT in SPECT studies of living tree shrews. Synapse 69:497–504, 2015 . © 2015 Wiley Periodicals, Inc.

This content is not available in your region!

Continue researching here.

Having issues? You can contact us here