Muscarinic Tone Sustains Impulse Flow in the Septohippocampal GABA But Not Cholinergic Pathway: Implications for Learning and Memory

Spontaneously firing cholinergic neurons are present in the MSDB in vitro in brain slices.A, Left, A Cy3–192IgG-labeled neuron visualized in a living brain slice is shown. Cy3–192IgG labels only cholinergic neurons within the MSDB (Hartig et al., 1998; Wu et al., 2000). Right, An IR-DIC image of the same cell shows its healthy appearance. B, Extracellular recordings from a spontaneously firing Cy3–192IgG-labeled neuron that was inhibited by muscarine are shown. Fifty-five percent of the Cy3-labeled cholinergic neurons recorded from fired spontaneously. C, Electrophysiological signature of a Cy3–192IgG-labeled neuron obtained in response to depolarizing and hyperpolarizing pulses (step size, 0.2 nA; maximum step, +0.4 nA) is shown. D, A triple-labeled septohippocampal cholinergic neuron that also fired spontaneously (data not shown) is shown. The cell was labeled with Lucifer yellow after establishment of whole-cell recording. Subsequently, the cell also tested positive for choline acetyltransferase (diffuse red stain), a marker of cholinergic neurons. E, This neuron also colocalized the retrograde marker rhodamine beads (red dots marked by arrows), which were injected into the hippocampus in vivo, 2 d before slicing.

Effect of muscarinic receptor antagonists on Cy3–192IgG-labeled and unlabeled MSDB neurons. A, Recording from a Cy3–192IgG-labeled cholinergic neuron shows that although atropine (3 μm) had no effect on the baseline firing rate, it did block the inhibitory effect of exogenously applied muscarine. B, In contrast, in a Cy3–192IgG-unlabeled neuron (presumably, GABAergic), a low nanomolar concentration of atropine reduced basal firing rates and also blocked the effect of exogenous muscarine but had little effect on norepinephrine (NE)-induced excitation; NE has been shown previously to excite septohippocampal GABA neurons (Alreja and Liu, 1996). C, The bar chart summarizes the effects of muscarinic drugs on Cy3–192IgG-labeled (i.e., cholinergic) and Cy3–192IgG-unlabeled neurons. Note that atropine had no effect on Cy3-labeled neurons; unlabeled neurons that are excited by muscarine show a decrease in basal firing rates in the presence of atropine.Con, Control. **p < 0.005.

Effect of muscarinic receptor antagonists on septohippocampal neurons. A, Top, Sagittal section through the rat brain shows the septal area.Bottom, The boxed area in the top panel is enlarged and shows the MSDB that was the recording site. For antidromic identification of septohippocampal neurons, the stimulating electrode was placed in the dorsal fornix because it conveys both cholinergic and GABAergic MSDB fibers to the hippocampus.B, Top, Extracellular recording from a spontaneously firing, antidromically activated septohippocampal neuron is shown. A spontaneous spike was used to trigger the oscilloscope (TS), the dorsal fornix was stimulated (*) 4 msec later, and an antidromically activated spike (AS) was obtained after a latency of 3.3 msec. This cell was classified as a GABA type on the basis of the calculated conduction velocity of 0.7 m/sec.Bottom, A positive collision test, in which the cell could not be activated antidromically when the dorsal fornix was stimulated 3 msec after the triggering spike, is shown. For additional criteria used for confirming antidromicity, see Alreja and Liu (1996).C, An IR-DIC image is shown of a septohippocampal neuron identified using the retrograde tracer rhodamine beads that were injected into the hippocampus 2 d before recording.D, Electrophysiological signature of a rhodamine-labeled neuron is obtained in response to depolarizing and hyperpolarizing pulses (step size, 0.2 nA; maximum step, +0.4 nA). Note the depolarizing sag that is characteristic of septohippocampal GABA but not cholinergic neurons. This neuron was excited by muscarine (data not shown), a property that is exclusive to noncholinergic MSDB neurons.E, The chart record shows that bath-applied muscarine produced a profound and prolonged increase in the firing rate in an SHN. Atropine, a muscarinic receptor antagonist, reduced basal firing and blocked the response to a subsequent application of muscarine.F, Low nanomolar concentrations of 4-DAMP mustard, an M₃-selective antagonist, reduced basal firing and also blocked the effects of exogenous muscarine (data not shown).G, The concentration-dependent excitatory effect of muscarine in another SHN is shown. Pirenzepine, an M₁-selective antagonist, had no effect on the basal firing rate. H, The effects of antagonists are summarized. Although atr/scop and the M₃-selective antagonist reduced basal firing rates in 40–50% of the neurons tested, the M₁ antagonist had an effect in 20% of the neurons tested.Antag, Antagonist.