biostudies-literatureMesman SDutch Research Council (NWO)166https://www.ebi.ac.uk/biostudies/studies/S-EPMC5233686biostudies-literatureUnknown9Mesodiencephalic dopaminergic (mdDA) neurons originate at the floor plate and floor plate-basal plate boundary of the midbrain ventricular zone. During development mdDA neurons are specified by a unique set of transcription factors and signaling cascades, to form the different molecular subsets of the mdDA neuronal population. In a time series micro-array study performed previously, mesoderm specific transcript (<i>Mest</i>) was found to be one of the most upregulated genes during early mdDA neuronal development. Here, we show that <i>Mest</i> transcript is expressed in the midbrain throughout development and becomes restricted to the substantia nigra (SNc) at late stages. In <i>Mest</i> KO animals mdDA neurons are progressively lost in the adult, mostly affecting the SNc, reflected by a 50% decrease of TH protein and DA release in the striatum and a reduction of climbing behavior. Analysis of <i>Lrp6</i> KO embryos suggest a subtle opposite phenotype to the <i>Mest</i> KO, hinting toward the possibility that specific loss of mdDA neurons in <i>Mest</i> ablated animals could be due to affected WNT-signaling. Interestingly, the mdDA neuronal region affected by the loss of <i>Mest</i> remains relatively unaffected in <i>Pitx3</i> mutants, suggesting that both genes are essential for the development and/or maintenance of different mdDA neuronal subsets within the SNc. Overall, the neuroanatomical and phenotypical consequences detected upon the loss of <i>Mest</i>, resemble the loss of SNc neurons and loss of movement control as seen in Parkinson's Disease (PD), suggesting that the <i>Mest</i> mouse model may be used as a model-system for PD.Frontiers in molecular neuroscience<i>Mest/Peg1</i> Is Essential for the Development and Maintenance of a SNc Neuronal Subset.PMC5233686865.09.002van Hooft JAMesman SSmidt MPfalse<i>Mest/Peg1</i> Is Essential for the Development and Maintenance of a SNc Neuronal Subset.Mesodiencephalic dopaminergic (mdDA) neurons originate at the floor plate and floor plate-basal plate boundary of the midbrain ventricular zone. During development mdDA neurons are specified by a unique set of transcription factors and signaling cascades, to form the different molecular subsets of the mdDA neuronal population. In a time series micro-array study performed previously, mesoderm specific transcript (<i>Mest</i>) was found to be one of the most upregulated genes during early mdDA neuronal development. Here, we show that <i>Mest</i> transcript is expressed in the midbrain throughout development and becomes restricted to the substantia nigra (SNc) at late stages. In <i>Mest</i> KO animals mdDA neurons are progressively lost in the adult, mostly affecting the SNc, reflected by a 50% decrease of TH protein and DA release in the striatum and a reduction of climbing behavior. Analysis of <i>Lrp6</i> KO embryos suggest a subtle opposite phenotype to the <i>Mest</i> KO, hinting toward the possibility that specific loss of mdDA neurons in <i>Mest</i> ablated animals could be due to affected WNT-signaling. Interestingly, the mdDA neuronal region affected by the loss of <i>Mest</i> remains relatively unaffected in <i>Pitx3</i> mutants, suggesting that both genes are essential for the development and/or maintenance of different mdDA neuronal subsets within the SNc. Overall, the neuroanatomical and phenotypical consequences detected upon the loss of <i>Mest</i>, resemble the loss of SNc neurons and loss of movement control as seen in Parkinson's Disease (PD), suggesting that the <i>Mest</i> mouse model may be used as a model-system for PD.2016-01-01T00:00:00Z20162024-11-20T06:35:16.019Z2019-03-27T02:34:04ZS-EPMC52336862813344410.3389/fnmol.2016.00166