J. L. Barker scite author profile

The expression of mRNAs coding for alpha 1, alpha 2, alpha 3, alpha 5, and alpha 6 subunits of the GABAA neurotransmitter receptor was followed during the development of the rat CNS by in situ hybridization histochemistry. Expression of these subunit mRNAs in tissue sections of embryonic day 15 and 17 (E15, E17) whole rat and in brain at ages greater than E17 to adult were varied, transient, and region specific. Subunit mRNAs first detected at E15 were those coding for the alpha 2 and alpha 3 subunits. At E17, alpha 2, alpha 3, and alpha 5 mRNAs were present in abundance in numerous areas in the CNS, with lower but significant amounts of alpha 6 being present in the cortical neuroepithelial layers. However, alpha 6 subunit mRNA expression in the cortex declined until little or no alpha 6 mRNA was detected at E19. alpha 1 subunit mRNA first appeared at E19 in the cortex, followed by expression in the hippocampus by postnatal 5 (PN5). Particularly high expression of alpha 2 and alpha 5 subunit mRNAs was detected throughout the developing CNS, but they were most abundant in the olfactory bulb neurons. The high levels of alpha 2 and alpha 5 subunit mRNAs began to decline around PN5 to the amounts observed in adult. These results demonstrate that numerous GABAA receptor alpha-subunits are expressed before birth in a region- and age-specific manner. This complex and varied expression supports the hypothesis that GABA may play a role in cellular and synaptic differentiation.

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GABA-induced chemokinesis and NGF-induced chemotaxis of embryonic spinal cord neurons

Behar

et al. 1994

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During CNS development, neuroblasts proliferate within germinal zones of the neuroepithelium, and then migrate to their final positions. Although many neurons are thought to migrate along processes of radial glial fibers, increasing evidence suggests environmental factors also influence nerve cell movement. Extracellular matrix molecules are thought to be involved in guiding neuronal migration, and molecules such as NGF and GABA exert trophic effects on immature neurons. The nature of the signals that initiate and direct neuroblast migration, however, is unknown. In vitro, NGF and GABA promote neurite outgrowth from cultured cells, and NGF induces axonal chemotaxis (directed migration along a chemical gradient). At earlier developmental stages, these molecules could influence neuroblast movement. Therefore, we investigated whether these molecules induce embryonic neuronal migration. Using an in vitro microchemotaxis assay, we show that rat embryonic spinal cord neurons migrate toward picomolar NGF and femtomolar GABA beginning at embryonic day 13 (E13). Cells exhibit chemotactic responses to NGF while GABA stimulates chemokinesis (increased random movement). GABA effects are mimicked by muscimol and inhibited by bicuculline and picrotoxin, suggesting GABA motility signals are mediated by GABA receptor proteins. Expression of GABA receptors by embryonic cord cells has been previously reported (Mandler et al., 1990; Walton et al., 1993). We used polymerase chain reaction analysis to demonstrate the presence of NGF and trk mRNA in E13 and E14 cord cells, indicating the cells express message for both NGF and high-affinity NGF receptors. Immunohistochemistry of E13 spinal cord sections indicates that NGF and GABA colocalize in fibers close to the target destinations of migrating neurons, suggesting diffusible gradients of these molecules provide chemoattractant signals to migratory cells. Thus, in vitro, neuroblast migration is induced by specific signaling molecules that are present in the developing spinal cord, and may stimulate migration of embryonic neurons prior to synaptogenesis.

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Postnatal rat nigrostriatal dopaminergic neurons exhibit five types of potassium conductances

Silva

Pechura

Barker

1990

Journal of Neurophysiology

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1. We have investigated the electrical properties of neurons acutely dissociated from the substantia nigra zona compacta (SNZC) of the postnatal rat with whole cell patch-clamp recordings. Retrogradely labeled nigrostriatal neurons were identified with the use of rhodamine-labeled fluorescent latex microspheres. Over 90% of the rhodamine-labeled neurons in the SNZC demonstrated formaldehyde/glutaraldehyde-induced catecholamine fluorescence, indicating that they were dopaminergic (DA) neurons. 2. DA neurons had 15-20 microns ovoid or fusiform-shaped cell bodies with 2-3 thick proximal processes. Labeled neurons generated spontaneous action-potential activity in both regular and irregular patterns. These cells exhibited input resistances of 300-600 M omega and action-potential amplitudes of 60-80 mV. Locally applied dopamine inhibited the spontaneous activity of these neurons by hyperpolarizing the cells. 3. Outward currents were examined with voltage-clamp recordings using a tetrodotoxin (TTX)-containing medium. In all DA cells, depolarizing voltage commands activated several components of outward current depending on the holding potential of the cell. When cells were held at -40 mV (or more positive), voltage steps activated a sustained outward current. If the membrane potential was held more negative than -50 mV, a rapidly activating and inactivating component of outward current response could also be detected. 4. From a hyperpolarized holding potential (-90 mV) the transient outward current activated with depolarizing commands to -55 mV, peaking within 5 ms. The current inactivated with a monoexponential time constant of 53 +/- 4 (SE) ms. At more positive holding potentials (-40 mV) the steady-state inactivation of the current could be removed by applying a conditioning hyperpolarizing prepulse. In response to a fixed depolarizing voltage step, half-maximal inactivation occurred at about -65 mV. The transient current was blocked by 4-aminopyridine (4-AP). 5. The sustained outward currents were isolated by holding the cells at -40 mV. Two components of sustained outward current were distinguished by their sensitivity to the calcium channel blockers Co2+ (5 mM) and/or Cd2+ (200 microM). The current remaining in the presence of Co2+/Cd2+ was activated by depolarizing voltage commands more positive than -40 mV.(ABSTRACT TRUNCATED AT 400 WORDS)

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J. L. Barker

Differential and transient expression of GABAA receptor alpha-subunit mRNAs in the developing rat CNS

GABA-induced chemokinesis and NGF-induced chemotaxis of embryonic spinal cord neurons

Postnatal rat nigrostriatal dopaminergic neurons exhibit five types of potassium conductances

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