Molecular and cellular biochemistry
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Mol. Cell. Biochem. · Mar 1988
Subtypes of dorsal root ganglion neurons based on different inward currents as measured by whole-cell voltage clamp.
Electrophysiological and pharmacological properties distinguished subtypes of adult mammalian dorsal root ganglion neurons (DRGn) in monolayer dissociated cell culture. By analogy of action potential waveform and duration, neurons with short duration (SDn) and long duration (LDn) action potentials resembled functionally distinct subtypes of DRGn in intact ganglia. Patch clamp and conventional intracellular recording techniques were combined here to elucidate differences in the ionic basis of excitability of subtypes of DRGn in vitro. ⋯ Large neurons, presumable SDn, had predominantly TTX-sensitive current and little TTX-resistant current. The predominant inward current of small neurons, presumably LDn, was TTX-resistant with a smaller TTX-sensitive component. By analogy to findings from intact ganglia, these results suggest that fundamentally different ionic currents controlling excitability of subtypes of DRGn in vitro may contribute to functional differences between subtypes of neurons in situ.