W. Cornelissen et al., Electrophysiological features of morphological Dogiel type II neurons in the myenteric plexus of pig small intestine, J NEUROPHYS, 84(1), 2000, pp. 102-111
By intracellular recording, 99 myenteric neurons with Dogiel type II morpho
logy were electrophysiologically characterized in the porcine ileum and fur
ther subdivided into three groups based on their different types of afterhy
perpolarization (AHP). In response to a depolarizing current injection, a f
ast AHP (fAHP; duration 34 +/- 11 ms; amplitude -11 +/- 6 mV; mean +/- SD)
immediately followed every action potential in all neurons. In 32% of the n
eurons, this fAHP was the sole type of hyperpolarization recorded. Statisti
cal analysis revealed the presence of two neuronal subpopulations that disp
layed either a long-lasting medium AHP (mAHP; duration after a single spike
773 +/- 753 ms; 51% of neurons) or a slow AHP (sAHP; 4,205 +/- 1,483 ms; 1
7%). Slow AHP neurons also differed from mAHP neurons in the delayed onset
of the AHP (mAHP 0 ms; sAHP 100-200 ms), as well as in maximum amplitude va
lues and in the time to reach this amplitude (t(max); 148 +/- 11 ms vs. 628
+/- 108 ms). Medium AHP neurons further differed from the sAHP neurons in
the occurrence of the AHP following subthreshold current injection and in t
heir resting membrane potential (mAHP, -53 +/- 8 mV; sAHP, -62 +/- 10 mV).
Medium AHP and sAHP behaved similarly in that a higher number of spikes inc
reased their amplitude and duration, but not t(max). The majority of neuron
s fired multiple spikes (up to 25) in response to a 500-ms current injectio
n (81/99) and showed a clear TTX-resistant shoulder on the repolarizing pha
se of the action potential (77/99), irrespective of the presence of sAHP or
mAHP. These results demonstrate that the porcine Dogiel type II neurons di
ffer in various essential electrophysiological properties from their morpho
logical counterparts in the guinea pig ileal myenteric plexus. The most str
iking interspecies differences were the low occurrence of sAHP (17% vs. 80-
90% in guinea pig) with relatively small amplitude (25 vs. -20 mV), the hig
h occurrence of mAHPs (unusual in guinea pig) and the ability to fire long
spike trains (up to 25 spikes vs. 1-3 in guinea pig). In fact, Dogiel type
II neurons in porcine ileum combine distinct electrophysiological features
considered typical of either S-type or sAHP-type neurons in guinea pig. It
can therefore be concluded that in spite of a similar morphology, Dogiel ty
pe II neurons do not behave electrophysiologically in a universal way in la
rge and small mammals.