Spontaneous Activity and Properties of Two Types of Principal Neurons from the Ventral Tegmental Area of Rat

doi:10.1152/jn.00776.2004

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Spontaneous Activity and Properties of Two Types of Principal Neurons from the Ventral Tegmental Area of Rat

Susumu Koyama¹^*, Yoshio Kanemitsu¹, and Forrest F. Weight¹

¹ National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health, Bethesda, MD, USA

^* To whom correspondence should be addressed. E-mail: koyama{at}uic.edu.

We investigated the spontaneous activity and properties of freshlyisolated ventral tegmental area (VTA) principal neurons by whole-cellrecording and single-cell RT-PCR. The VTA principal neurons,which were tyrosine hydroxylase-positive and glutamic acid decarboxylase(GAD₆₇)-negative, exhibited low firing frequency and a longaction potential (AP) duration. The VTA principal neurons exhibiteda calretinin-positive and parvalbumin-negative Ca²⁺-bindingprotein mRNA expression pattern. The VTA principal neurons wereclassified into two subpopulations based on their firing frequencycoefficient of variation (CV) at room temperature (21-23°C):irregular-type neurons with a large CV and tonic-type neuronswith a small CV. These two firing patterns were also recordedat the temperature of 34°C and in nystatin-perforated patchrecording. In VTA principal neurons, the AP afterhyperpolarization(AHP) amplitude contributed to the firing regularity and AHPdecay slope contributed to the firing frequency. The AHP amplitudein the irregular-type VTA principal neurons was smaller thanthat in the tonic-type VTA principal neurons. There was no significantdifference in the AHP decay slope between the two-types of VTAprincipal neurons. Apamin-sensitive small conductance Ca²⁺-activatedK⁺ (SK) channels contributed to the AHP and the regular firingof the tonic-type neurons, but contributed little to the AHPand firing of the irregular-type neurons. In voltage-clamp tail-currentanalysis, in both conventional and nystatin-perforated whole-cellrecording, the apamin-sensitive AHP current density of the tonic-typeneurons was significantly larger than that of the irregular-typeneurons. We suggest that apamin-sensitive SK current contributesto intrinsic firing differences between the two subpopulationsof VTA principal neurons.

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