Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
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Query: EC:2.3.1.107 (
DAT
)
1,471
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined the neurochemical phenotype of striatal neurons expressing tyrosine hydroxylase (TH) mRNA to determine if they form a distinct class of neurons within the human striatum. Double in situ hybridization (ISH) and immunohistochemical (IHC) procedures were used to know if TH mRNA-positive striatal neurons express molecular markers of mature neurons (MAP2 and NeuN), dopaminergic neurons (
DAT
and Nurr1) or immature neurons (TuJ1). All TH mRNA-labeled neurons were found to express NeuN,
DAT
and Nurr1, whereas about 80% of them exhibited MAP2, confirming their neuronal and dopaminergic nature. Only about 30% of TH mRNA-labeled neurons expressed TuJ1, suggesting that this ectopic dopaminergic neuronal population is principally composed of mature neurons. The same double ISH/IHC approach was then used to know if these dopamine neurons display markers of well-established classes of striatal projection neurons (GAD65 and calbindin) or local circuit neurons (GAD65, calretinin,
somatostatin
and parvalbumin). Virtually all TH-labeled neurons expressed GAD65 mRNA, about 30% of them exhibited calretinin, but none stained for the other striatal neuron markers. These results suggest that the majority of TH-positive neurons intrinsic to the human striatum belong to a distinct subpopulation of striatal interneurons characterized by their ability to produce dopamine and GABA.
...
PMID:Neurochemical characterization of dopaminergic neurons in human striatum. 1597 Apr 54
Developing novel therapeutics for bipolar disorder (BD) has been hampered by limited mechanistic knowledge how sufferers switch between mania and depression-how the same brain can switch between extreme states-described as the "holy grail" of BD research. Strong evidence implicates seasonally-induced switching between states, with mania associated with summer-onset, depression with winter-onset. Determining mechanisms of and sensitivity to such switching is required. C57BL/6J and dopamine transporter hypomorphic (
DAT
-HY 50% expression) mice performed a battery of psychiatry-relevant behavioral tasks following 2-week housing in chambers under seasonally relevant photoperiod extremes. Summer-like and winter-like photoperiod exposure induced mania-relevant and depression-relevant behaviors respectively in mice. This behavioral switch paralleled neurotransmitter switching from dopamine to
somatostatin
in hypothalamic neurons (receiving direct input from the photoperiod-processing center, the suprachiasmatic nucleus). Mice with reduced
DAT
expression exhibited hypersensitivity to these summer-like and winter-like photoperiods, including more extreme mania-relevant (including reward sensitivity during reinforcement learning), and depression-relevant (including punishment-sensitivity and loss-sensitivity during reinforcement learning) behaviors.
DAT
mRNA levels switched in wildtype littermate mice across photoperiods, an effect not replicated in
DAT
hypomorphic mice. This inability to adjust
DAT
levels to match photoperiod-induced neurotransmitter switching as a homeostatic control likely contributes to the susceptibility of
DAT
hypormophic mice to these switching photoperiods. These data reveal the potential contribution of photoperiod-induced neuroplasticity within an identified circuit of the hypothalamus, linked with reduced
DAT
function, underlying switching between states in BD. Further investigations of the circuit will likely identify novel therapeutic targets to block switching between states.
...
PMID:Mice with reduced DAT levels recreate seasonal-induced switching between states in bipolar disorder. 3078 26
