• H Tilleman, O Kofman, L Nashelsky, U Livneh, N Roz, I Sillaber, A Biegon, M Rehavi, and C Brodski.
• Department of Morphology, Zlotowski Center for Neuroscience, Division of Basic Sciences, Faculty of Health Sciences, Ben-Gurion University of the Negev, Be'er Sheva, Israel.
• Neuroscience. 2009 Nov 10; 163 (4): 1012-23.

AbstractThe embryonic mid-hindbrain organizer, which is composed of a transient cell population in the brainstem, controls the development of dopaminergic and serotonergic neurons. Different genes determining the position and activity of this embryonic structure have been implicated in dopamine- and serotonin-associated disorders. Mouse mutants with a caudally shifted mid-hindbrain organizer, are hyperactive, show increased numbers of dopaminergic neurons and a reduction in serotonergic cells. In the present study we used these mutants to gain insights into the genetic and developmental mechanisms underlying motor activity and the response to psychostimulants. To this end, we studied the motor activity of these animals after exposure to methylphenidate and amphetamine and characterized their dopaminergic and serotonergic innervation. Saline-treated mutants showed increased locomotion, more stereotypic behavior and a decrease in rearing compared to wild-type mice. This baseline level of activity was similar to behaviors observed in wild-type animals treated with high doses of psychostimulants. In mutants methylphenidate (5 or 30 mg/kg) or amphetamine (2 or 4 mg/kg) did not further increase activity or even caused a decrease of locomotor activity, in contrast to wild-type mice. Fluoxetine (5 or 10 mg/kg) reduced hyperactivity of mutants to levels observed in wild-types. Transmitter measurements, dopamine and serotonin transporter binding assays and autoradiography, indicated a subtle increase in striatal dopaminergic innervation and a marked general decrease of serotonergic innervation in mutants. Taken together, our data suggest that mice with an aberrantly positioned mid-hindbrain organizer show altered sensitivity to psychostimulants and that an increase of serotonergic neurotransmission reverses their hyperactivity. We conclude that the mid-hindbrain organizer, by orchestrating the formation of dopaminergic and serotonergic neurons, is an essential developmental parameter of locomotor activity and psychostimulant response.

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